CN1930811B - Apparatus and method for transmitting/receiving pilot signaling communication system using OFDM scheme - Google Patents

Apparatus and method for transmitting/receiving pilot signaling communication system using OFDM scheme Download PDF

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Publication number
CN1930811B
CN1930811B CN2005800070747A CN200580007074A CN1930811B CN 1930811 B CN1930811 B CN 1930811B CN 2005800070747 A CN2005800070747 A CN 2005800070747A CN 200580007074 A CN200580007074 A CN 200580007074A CN 1930811 B CN1930811 B CN 1930811B
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fft
sequence
expression
subcarrier
communication system
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CN1930811A (en
Inventor
朴圣恩
崔承勋
朴东植
金宰烈
尹圣烈
赵是竣
赵在源
林治雨
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Samsung Electronics Co Ltd
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Samsung Electronics Co Ltd
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Priority claimed from PCT/KR2005/000624 external-priority patent/WO2005086397A1/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L27/00Modulated-carrier systems
    • H04L27/26Systems using multi-frequency codes
    • H04L27/2601Multicarrier modulation systems
    • H04L27/2602Signal structure
    • H04L27/261Details of reference signals
    • H04L27/2613Structure of the reference signals
    • H04L27/26134Pilot insertion in the transmitter chain, e.g. pilot overlapping with data, insertion in time or frequency domain
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04JMULTIPLEX COMMUNICATION
    • H04J13/00Code division multiplex systems
    • H04J13/0007Code type
    • H04J13/004Orthogonal
    • H04J13/0048Walsh
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/004Arrangements for detecting or preventing errors in the information received by using forward error control
    • H04L1/0056Systems characterized by the type of code used
    • H04L1/0071Use of interleaving
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L27/00Modulated-carrier systems
    • H04L27/26Systems using multi-frequency codes
    • H04L27/2601Multicarrier modulation systems
    • H04L27/2614Peak power aspects
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L27/00Modulated-carrier systems
    • H04L27/26Systems using multi-frequency codes
    • H04L27/2601Multicarrier modulation systems
    • H04L27/2647Arrangements specific to the receiver only
    • H04L27/2649Demodulators
    • H04L27/265Fourier transform demodulators, e.g. fast Fourier transform [FFT] or discrete Fourier transform [DFT] demodulators
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0048Allocation of pilot signals, i.e. of signals known to the receiver

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  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Physics & Mathematics (AREA)
  • Discrete Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Mathematical Physics (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Ink Jet Recording Methods And Recording Media Thereof (AREA)
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Abstract

Disclosed is a method for transmitting a pilot symbol from base stations (BSs) to a subscriber station (SS) in a communication system which includes the base stations located adjacent to each other, the method includes the steps of transmitting BS-identifying sub-carriers which represent sequences for identifying the base stations in a frequency domain of the pilot symbol; and transmitting PAPR (Peak to Average Power Ratio) sub-carriers which represent sequences for reducing a PAPR of the pilot symbol together with the transmission of the BS-identifying sub-carriers in the frequency domain.

Description

In the communication system of using OFDM scheme, transmit/receive equipment and the method for pilot signal
Technical field
The present invention relates to use the communication system of Orthodoxy Frequency Division Multiplex (OFDM) scheme, relate in particular to for transmitting/receive equipment and the method for the pilot signal that is used for identification base station and sector (sector).
Background technology
As the 4th generation of next generation communication system in (4G) communication system, current research to provide to the user has various service quality (" QoS ") and support the service of high transmission speed.Current, in the 4G communication system, current research with support high-speed service in the mobility in guaranteeing WLAN (wireless local area network) (" LAN ") and metropolitan area network (" MAN ") system and the QoS.
As useful scheme all the high speed data transfer in wired or wireless channel, the OFDM scheme is just developed now energetically.The OFDM scheme of using multicarrier to transmit data is multi-carrier modulation (MCM) scheme of specific type, wherein, the serial code element sequence is converted to the paralleled code element sequence, and before transmitting, with this paralleled code element sequence of mutually orthogonal a plurality of subcarrier-modulated.
For at a high speed and the radio multimedium service is provided in high quality, the 4G communication system needs wide-band spectrum resources.Yet when using wide-band spectrum resources, the impact of the decay on the wireless propagation path that not only causes owing to multipath propagation becomes seriously, and frequency selective attenuation also has the impact on transmission band.Therefore, for the high-speed radio multimedia service, now in the 4G communication system, compare with Code Division Multiple Access (CDMA) scheme, use more continually the OFDM scheme, this is because the OFDM scheme is more healthy and strong with respect to frequency selective attenuation, and therefore more has superiority than CDMA scheme.
To the operation of the transmitter and receiver in the communication system (ofdm communication system) of using the OFDM scheme be discussed briefly.Transmitter can be base station (BS), and receiver can be subscriber station (SS).
In the transmitter of ofdm communication system, will input Data Modulation in sub-carrier signal by scrambler (scrambler), encoder and interleaver.Transmitter provides the variable-data-rate of various definite code rates, the size that interweaves and modulation scheme.Usually, encoder uses the code rate such as 1/2,3/4 etc., and, be identified for preventing the size that interweaves of burst (burst) mistake according to the coding figure place (NCBPS) of each OFDM code element.As modulation scheme, can use QPSK (Quadrature Phase Shift Keying) scheme, 8PSK (phase shift keying) scheme, 16QAM (quadrature amplitude modulation) scheme or 64QAM (quadrature amplitude modulation) scheme according to data rate.
The modulated sub-carriers signal of predetermined number is added in the pilot subcarrier signals of predetermined number, and contrary fast fourier transform (IFFT) unit is that the signal after the addition is carried out IFFT, generates thus the OFDM code element.Subsequently; to protect interval (guard interval) to be inserted in the OFDM code element; in order to eliminate the inter symbol interference (ISI) in the multi-path channel environment; and, will comprise at last the OFDM code element of protecting the interval and be input in radio frequency (RF) processor by code element waveform maker.The RF processor is processed this input signal, and wirelessly transmits the signal of having processed.
The receiver of the ofdm communication system corresponding with aforesaid transmitter carries out the processing opposite with the processing in transmitter, together with extra synchronizing step.The midamble code metaset that is used at first, in advance the OFDM code element that receives carries out Frequency offset estimation and symbol offset is estimated.Subsequently, by fast fourier transform (FFT) unit, will be by from the OFDM code element, eliminating the sub-carrier signal that the data symbols of protecting the interval to obtain reverts to predetermined number, it comprises a predetermined number pilot sub-carrier that adds to wherein.In addition, in order to overcome any path delay in the actual wireless channel, the channel conditions of the channel signal that the equalizer estimation is used for receiving is eliminated the distorted signals in the actual wireless channel thus from the channel signal that receives.The data transformation that will carry out channel estimating by equalizer is bit stream, subsequently, makes it pass through deinterleaver.After this, bit stream is by decoder and be used for the decoder (descrambler) of error correction, and exports as final data subsequently.
In aforesaid ofdm communication system, transmitter (for example, BS) is sent to pilot subcarrier signals receiver (for example, SS).BS transmits the data subcarrier signal together with this pilot subcarrier signals simultaneously.SS can by receive pilot subcarrier signals carry out synchronously obtain, channel estimating and BS identification.That is to say, pilot subcarrier signals is the reference subcarrier signal and plays training sequence, allows thus the channel estimating between the transmitter and receiver.In addition, SS can be by identifying the BS under the SS with pilot subcarrier signals.Defined in advance the position of pilot subcarrier signals by the agreement between the transmitter and receiver.Thereby pilot subcarrier signals is worked as the reference signal.
To SS be described by identify the process of the BS under the SS with pilot subcarrier signals.
At first, BS transmits pilot subcarrier signals with the power level larger than the power level of data subcarrier signal, so that pilot subcarrier signals can arrive the have AD HOC cell boarder of (particularly, pilot frequency mode).Transmit pilot subcarrier signals with high transmit power so that this pilot subcarrier signals can arrive the reason of the cell boarder with special pilot pattern with describing BS.
At first, when SS entered the residential quarter, SS did not have any customizing messages of the BS of identification SS under current.In order to detect the BS under the SS, SS must receive pilot subcarrier signals.Therefore, BS transmits the pilot subcarrier signals with special pilot pattern with relatively high transmitting power, in order to make the BS under the SS at cell edge place can detect SS.
Pilot frequency mode is the pattern that is generated by the pilot subcarrier signals that BS transmits.That is to say, according to the slope of pilot subcarrier signals and the starting point that will begin to transmit pilot subcarrier signals, generate this pilot frequency mode.Therefore, must design ofdm communication system so that each BS in the ofdm communication system has the special pilot pattern for its identification like this.In addition, when generating pilot frequency mode, must consider relevant (coherence) bandwidth and coherence time.
Coherence bandwidth is based on the maximum bandwidth of channel constant supposition in frequency domain.Be based on the maximum time of channel constant supposition in time domain coherence time.Therefore, can suppose that channel is at coherence bandwidth and constant in coherence time.As a result, the transmission of the single pilot subcarrier signals in coherence bandwidth and during coherence time for obtain synchronously, channel estimating and BS identify is enough, and the transmission of maximizing data subcarrier signal has improved the performance of whole system thus.Can think, coherence bandwidth is the peak frequency interval of transmitting pilot subcarrier signals within it, and be the maximum time interval that transmits pilot subcarrier signals within it coherence time, i.e. maximum OFDM symbol time interval.
Number with pilot frequency mode of Different Slope and different starting points must be equal to or greater than the number of the BS that comprises in the ofdm communication system.In order in the time-frequency domain of ofdm communication system, to transmit pilot subcarrier signals, must consider as mentioned above coherence bandwidth and coherence time.When considering coherence bandwidth and coherence time, aspect the number of the pilot frequency mode with Different Slope and different starting points, there is restriction.On the contrary, when not considering coherence bandwidth and coherence time when generating pilot frequency mode, the pilot subcarrier signals in the pilot frequency mode of expression different B S becomes and obscures, thereby can not be by identifying BS with pilot frequency mode.
To discuss by reference Fig. 1 can be by all slopes of pilot frequency mode generation.
Fig. 1 is the diagram of explanation all slopes that can be generated by the pilot frequency mode in the typical ofdm communication system.
With reference to Fig. 1, the slope that all can be generated by pilot frequency mode and the number of these slopes (that is to say, according to the slope of pilot subcarrier signals transmission and the number of slope) are subjected to coherence bandwidth 100 and the restriction of coherence time 110.In Fig. 1, when coherence bandwidth 100 is 6 and when being 1 coherence time 110, if the slope of pilot frequency mode is integer, then can generate 6 slopes from slope s=0 (101) to slope s=5 (106) as the slope of pilot frequency mode.That is to say, under these conditions, the slope of pilot frequency mode is an integer in 0 to 5.The fact that can generate 6 pilot frequency mode slopes means: in satisfying the ofdm communication system of above-mentioned condition, can identify 6 BS by using pilot frequency mode.Shade circle 107 expressions among Fig. 1 and another pilot subcarrier signals of the first pilot subcarrier signals interval coherence bandwidth 100.
Summary of the invention
As mentioned above, be subjected to the restriction of coherence bandwidth and coherence time for the number of identifying the pilot frequency mode of BS at ofdm communication system.Therefore, the restriction of the number of the pilot frequency mode that can generate is caused restriction to the number of discernible BS in ofdm communication system.
In addition, when pilot subcarrier signals had identical phase place, peak value may increase average power ratio (PAPR).When PAPR is too high, may destroy the orthogonality between the pilot sub-carrier that is transmitted by transmitter.Therefore, when the design pilot subcarrier signals, be necessary to minimize PAPR.
Thereby made the present invention, solving at least the problems referred to above that occur in the prior art, and an object of the present invention is to provide for transmit/receive equipment and the method for the pilot signal that is used for identification base station and sector at ofdm communication system.
Another object of the present invention provides for equipment and method in ofdm communication system transmission/reception pilot signal, and it can minimize the interference between the pilot signal.
Another object of the present invention provides for transmit/receive equipment and the method for pilot signal at ofdm communication system, wherein, is transmitted/received the pilot signal that is used for the identification base station by at least one transmitting antenna.
In order to realize this purpose, a kind of method for transmit reference signal in communication system is provided, this communication system comprises a plurality of residential quarters, and has a frequency band that is divided into N subcarrier band, each residential quarter has at least one sector and at least one transmitting antenna, this reference signal identification residential quarter and sector, the method may further comprise the steps: select the row in Walsh Hadamard (Walsh Hadamard) matrix corresponding with cell identifier, and repeat selected row pre-determined number; With in the walsh code (Walsh code) that sets in advance, the walsh code corresponding with sector marker repeat pre-determined number; The selection sequence corresponding with cell identifier and sector marker from the sequence that sets in advance; According to predetermined interleaving scheme, the row of Walsh hadamard matrix is interweaved; By connecting this sequence and operating the signal that obtains, generating reference signal by each row that has interweaved of Walsh hadamard matrix and the walsh code that repeated are carried out XOR (XOR); And transmit the interval in predetermined reference signal and transmit this reference signal.
According to another aspect of the present invention, the method that is used in communication system pilot frequency code element being sent to from a plurality of base stations (BS) subscriber station (SS) also is provided, this communication system comprises the base station of location adjacent one another are, the method may further comprise the steps: be transmitted in the BS recognin carrier wave in the frequency domain of pilot frequency code element, its expression is used for the sequence of identification base station; And transmitting PAPR (peak value is to average power ratio) subcarrier together with the transmission of the BS recognin carrier wave in this frequency domain, its expression is used for reducing the sequence of the PAPR of pilot frequency code element.
According to another aspect of the present invention, the equipment that is used in communication system pilot frequency code element being sent to from a plurality of base stations (BS) subscriber station (SS) also is provided, this communication system comprises the base station of location adjacent one another are, this equipment comprises transmitter, the frequency domain, the expression that are used for being transmitted in pilot frequency code element are used for the BS recognin carrier wave of the sequence of identification base station, this transmitter transmits PAPR (peak value is to average power ratio) subcarrier together with the transmission of the BS recognin carrier wave in this frequency domain, and its expression is for the sequence of the PAPR that reduces pilot frequency code element.
Description of drawings
According to the detailed description below in conjunction with accompanying drawing, above and other objects of the present invention, feature and advantage will become more apparent, in the accompanying drawing:
Fig. 1 is the diagram of explanation all slopes that can be generated by pilot frequency mode in typical ofdm communication system;
Fig. 2 is that explanation is according to the block diagram of the internal structure of the pilot tone maker in the ofdm communication system of the embodiment of the invention;
Fig. 3 is that explanation is according to the block diagram of the internal structure of the transmitter of the ofdm communication system of the embodiment of the invention;
Fig. 4 is that explanation is according to the block diagram of the internal structure of the receiver of the ofdm communication system of the embodiment of the invention;
Fig. 5 is the block diagram of internal structure of the residential quarter ID/ sector ID detector of key diagram 4;
Fig. 6 is according to embodiments of the invention, the flow chart of operating process of transmitter in ofdm communication system;
Fig. 7 is according to embodiments of the invention, the flow chart of operating process of receiver in ofdm communication system;
Fig. 8 is according to embodiments of the invention, when the subcarrier when ofdm communication system is carried out IFFT and the schematic diagram of the mapping relations between the pilot frequency code element for explanation;
Fig. 9 has illustrated according to embodiments of the invention, the frame structure of pilot frequency code element in the time domain of ofdm communication system;
Figure 10 has illustrated according to embodiments of the invention, the structure of pilot frequency code element in the frequency domain of ofdm communication system; And
Figure 11 has illustrated the internal structure of the interleaver in the pilot tone maker of Fig. 2.
Embodiment
Hereinafter, will be by preferred embodiment with reference to the accompanying drawings to describe the present invention.In the following description, when known function and configuration can make theme of the present invention not know on the contrary, be omitted in these known functions of incorporating into and the detailed description of configuration here.
The invention provides for transmit/receive equipment and the method for the pilot signal that is used for identification base station and sector at ofdm communication system.More specifically, the invention provides for transmitting/receive equipment and the method for pilot signal the interference that it can be between the simultaneous minimization pilot signal of the identification of carrying out base station and sector.
Fig. 2 is that explanation is according to the block diagram of the internal structure of the pilot tone maker in the ofdm communication system of the embodiment of the invention.
With reference to Fig. 2, the pilot tone maker comprise Walsh hadamard matrix maker 201, selector 203, walsh code duplicator 205, interleaver 207-1 ... and 207-U, adder 209-1 ... and 209-U and subcarrier allocator 211.
At first, will be for (that is, cell identifier BS) (" ID ") is input in the selector 203, and Walsh hadamard matrix maker 201 generation Walsh hadamard matrixs, and every provisional capital of this matrix comprises walsh code for the identification residential quarter.In case receive residential quarter ID, selector 203 is just selected the row corresponding with residential quarter ID in the Walsh hadamard matrix that is generated by Walsh hadamard matrix maker 201, and with selected line output arrive interleaver 207-1 ... and 207-U.But one or many uses the row of selecting of Walsh hadamard matrix corresponding with residential quarter ID and that export from selector 203.Select capable repetition based on the length of pilot frequency code element in the Walsh hadamard matrix corresponding with residential quarter ID, and, selecting number of times that row repeats corresponding to the length of pilot frequency code element in the Walsh hadamard matrix corresponding with residential quarter ID.In Fig. 2, suppose that the row of the Walsh hadamard matrix corresponding with residential quarter ID repeats U time.
Will be corresponding with residential quarter ID and the row from the Walsh hadamard matrix of selector 203 outputs be input to U number purpose interleaver 207-1 ... and among the 207-U.Interleaver 207-1 ... and 207-U receives these signals from selector 203, according to the interleaving scheme that sets in advance signal interweaved, and with interleaved signal output to respectively adder 209-1 ... and 209-U.Here, interleaver 207-1 ... and 207-U comes the reason that the signal from selector 203 interweaves is according to predetermined interleaving scheme, every provisional capital of Walsh hadamard matrix comprises the Serial No. of the AD HOC of frequent repetition, and it has produced high PAPR.In other words, interweave by the element to the row in the Walsh hadamard matrix, reduced the PAPR of the pilot signal of ofdm system.
To be input to walsh code duplicator 205 for the sector ID for the ID that identifies the sector.In case receive sector ID, walsh code that walsh code duplicator 205 just will be corresponding with this sector ID repeats pre-determined number, and the signal that will comprise subsequently the walsh code of repetition output to adder 209-1 ... and 209-U.In the present embodiment, the pilot signal of supposing ofdm communication system has N pLength, the Walsh hadamard matrix has N HLevel, and walsh code has N WLength.Based on this supposition, the walsh code that walsh code duplicator 205 will be corresponding with sector ID repeats N H/ N WInferior, and the signal that will comprise the walsh code of repetition output to adder 209-1 ... and 209-U.From the length of the signal of walsh code duplicator 205 output equal from interleaver 207-1 ... and the length N of the signal of 207-U output HAdder 209-1 ... and 209-U to from interleaver 207-1 ... and the signal of 207-U output and carry out XOR (XOR) operation from the signal of walsh code duplicator 205 outputs, and resulting signal is outputed to subcarrier allocator 211.
It is sequence for the PAPR of the pilot frequency code element that reduces ofdm communication system that PAPR reduces sequence, and has N RLength.Suppose that PAPR reduces sequence and determines in advance, and corresponding to residential quarter ID and sector ID.To have length N RPAPR reduce sequence and be input in the subcarrier allocator 211.Subcarrier allocator 211 with subcarrier distribute to from adder 209-1 ... and signal and the PAPR sequence of 209-U output so that can be by signal and the PAPR sequence of these subcarriers carryings from adder, and export subsequently pilot frequency code element.Here, the pilot frequency code element from subcarrier allocator 211 outputs has N P(N P=UN H+ N R) length.
Fig. 3 is that explanation is according to the block diagram of the internal structure of the transmitter in the ofdm communication system of the embodiment of the invention.
With reference to Fig. 3, transmitter (it can be BS) comprises the first modulator 301, pilot tone maker 303, the second modulator 305, selector 307, deserializer 309, contrary fast fourier transform (IFFT) unit 311, parallel-to-serial converter 313, protection interval inserter 315, digital to analog converter 317 and radio frequency (" RF ") processor 319.
When having the data (that is, the information data position) that will transmit, the information data position is input to the first modulator 301.The first modulator 301 generates modulated code element by the information data position according to predetermined modulation schemes modulation input, and modulated code element is outputed to selector 307.Here, the various schemes such as QPSK (Quadrature Phase Shift Keying) scheme or 16QAM (quadrature amplitude modulation) scheme can be used for this modulation scheme.
When needs transmitted pilot frequency code element, will transmitting to it residential quarter ID and the sector ID of the cell sector of this pilot frequency code element, and PAPR that set in advance, corresponding with residential quarter ID and sector ID reduced sequence and is input in the pilot tone maker 303.Pilot tone maker 303 generates pilot frequency code element by using the residential quarter ID, sector ID and the PAPR that input to reduce sequence, and the pilot frequency code element that generates is sent to the second modulator 305.Here, pilot tone maker 303 has internal structure as shown in Figure 2.In case receive from the signal of pilot tone maker 303 outputs, the second modulator 305 just generates modulated code element by modulate this signal according to predetermined modulation schemes, and should modulated code element output to selector 307.Here, can use BPSK (binary phase shift keying) scheme etc. as modulation scheme.
The data symbols that must transmit the current data code element at transmitter transmits in the interval, and selector 307 allows to output to deserializer 309 from the signal of the first modulator 301.Otherwise the pilot frequency code element that must transmit the current pilot code element at transmitter transmits in the interval, and selector 307 allows to output to deserializer 309 from the signal of the second modulator 305.Deserializer 309 will be converted to paralleled code element from the serial modulation symbols of selector 307 outputs, and this paralleled code element is outputed to IFFT unit 311.N point IFFT are carried out from the signals of deserializer 309 outputs in 311 pairs of IFFT unit, and subsequently with this signal of IFFT processing output to parallel-to-serial converter 313.
Parallel-to-serial converter 313 will be converted to serial signal by 311 signals of exporting from the IFFT unit, and serial signal is outputed to protection interval inserter 315.Protection interval inserter 315 will protect the interval to be inserted into from the signal of serializer 313 outputs, and then resulting signal be outputed to digital to analog converter 317.Insert the protection interval and be the OFDM code element and the interference between the OFDM code element that transmits during the current OFDM symbol time that transmit during the OFDM symbol time formerly in order to eliminate.When inserting the protection interval, can use cyclic prefix method or cyclic suffix method.In cyclic prefix method, copy the predetermined number last sample in the OFDM code element in the time domain, and be inserted in effective OFDM code element.In the cyclic suffix method, copy the individual at first sample of predetermined number in the OFDM code element in the time domain, and be inserted in effective OFDM code element.
Digital to analog converter 317 will be converted to analog signal from the signal of protection interval inserter 315 outputs, and with this analog signal output to RF processor 319.Here, RF processor 319 comprises filter and front end unit etc.RF processor 319 is processed from the signal of digital to analog converter 317 outputs, and passes through antenna and this signal of wireless transmission.
Fig. 4 is that explanation is according to the block diagram of the internal structure of the receiver in the ofdm communication system of the embodiment of the invention.
With reference to Fig. 4, receiver (it can be mobile subscriber station (MSS)) comprises that RF processor 401, analog to digital converter 403, protection interval remove device 405, deserializer 407, fast fourier transform (FFT) unit 409, parallel-to-serial converter 411, selector 413, the first demodulator 415, the second demodulator 417 and residential quarter ID/ sector ID detector 419.
The signal that transmits from the transmitter of ofdm communication system is received by reception antenna together with the noise that adds this signal at this signal during by multi-path channel to.To be input to by the signal that reception antenna receives in the RF processor 401.RF processor 401 will down-convert to the signal with midband by the signal that the reception signal receives, and the signal after the down-conversion is outputed to analog to digital converter 403.Analog to digital converter 403 will be digital signal from the analog signal conversion of RF processor 401, and with this digital signal output to the protection interval remove device 405.
In case receive the digital signal from analog to digital converter 403, the protection interval removes device 405 and just remove the protection interval from this digital signal, and this signal is outputed to deserializer 407.Deserializer 407 is converted to parallel signal with serial signal, and parallel signal is sent to FFT unit 409.The 409 pairs of parallel signals from deserializer 407 outputs in FFT unit are carried out N point FFT, and the signal after the FFT processing is outputed to parallel-to-serial converter 411.
Parallel-to-serial converter 411 will be converted to serial signal from the parallel signal of FFT unit 409, and serial signal is sent to selector 413.The data symbols that must receive the current data code element at receiver receives in the interval, and selector 413 allows to send to from the signal of parallel-to-serial converter 411 the first demodulator 415.Otherwise the pilot frequency code element that must receive the current pilot code element at receiver receives in the interval, and selector 413 allows to send to from the signal of parallel-to-serial converter 411 the second demodulator 417.The first demodulator 415 is according to the demodulation scheme corresponding with the modulation scheme that adopts in transmitter, to the signal demodulation from selector 413 outputs, and output is by the data (that is, information data position) of demodulation recovery.
Simultaneously, demodulation scheme, the signal demodulation to exporting from selector 413 that the second demodulator 417 bases are corresponding with the modulation scheme that adopts in transmitter, and will output to by the pilot signal that demodulation recovers residential quarter ID/ sector ID detector 419.Residential quarter ID/ sector ID detector 419 receives pilot signal from the second demodulator 417, and detects residential quarter ID and the sector ID corresponding with this pilot signal.Here, pilot signal is corresponding to residential quarter ID and sector ID and in advance by the generation signal of the protocol definition between the transmitter and receiver.
Fig. 5 is the block diagram of the internal structure of the residential quarter ID/ sector ID detector 419 in the key diagram 4.
With reference to Fig. 5, residential quarter ID/ sector ID detector 419 comprise pilot extractor 501, walsh code duplicator 503, U number purpose adder 505-1 ... and 505-U, U number purpose deinterleaver 507-1 ... and 507-U, contrary fast Hadamard transform (IFHT) the unit 509-1 of U number purpose ... and 509-U and alternative device 511.
To be input to the pilot extractor 501 from the signal that the demodulator 417 of Fig. 4 is exported.Pilot extractor 501 is extracted UN by eliminate the PAPR sequence from the signal of demodulator 417 outputs HNumber purpose code element is divided into the code element of extracting and has separately N HU number code element of length, and the code element after will dividing output to U number purpose adder 505-1 ... and 505-U.In addition, walsh code duplicator 503 repeatedly outputs with can be by the corresponding walsh code of all sector ID of receiver identification, among the walsh code corresponding with all sector ID, sequentially select a walsh code, and with the walsh code of selecting repeatedly output to U number purpose adder 505-1 ... and 505-U.
U number purpose adder 505-1 ... and 505-U is to carrying out XOR (XOR) operation from the signal of pilot extractor 501 output with from the signal of walsh code duplicator 503 outputs, and respectively the signal behind the xor operation is sent to U number purpose deinterleaver 507-1 ... and 507-U.U number purpose deinterleaver 507-1 ... and the 507-U basis is with by the interleaver in the pilot tone maker of transmitter (namely, the U of Fig. 2 interleaver 207-1 ... with 207-U) interleaving scheme that the scheme that adopts is identical, to from U adder 505-1 ... and the signal of 505-U output deinterleaves, and the signal after will deinterleaving output to respectively U IFHT unit 509-1 ... and 509-U.U IFHT unit 509-1 ... and 509-U from U deinterleaver 507-1 ... and 507-U receives signal, to with can by every row of the corresponding Walsh hadamard matrix of all residential quarter ID of receiver identification and with the corresponding walsh code of all sector ID carry out relevant (namely, carry out IFHT), and the signal after will being correlated with outputs to alternative device 511.
Alternative device 511 from U IFHT unit 509-1 ... and 509-U receives signal, from every row of being used for the Walsh hadamard matrix corresponding with all residential quarter ID and with the correlation of the corresponding walsh code of all sector ID in the middle of select maximum related value, and output residential quarter ID and the sector ID corresponding with selected maximum related value.
Fig. 6 is according to embodiments of the invention, the flow chart of operating process of transmitter in ofdm communication system.
In the description with reference to Fig. 6, will the transmission of the pilot signal of being undertaken by transmitter only be discussed below, and will can not refer in detail to the transmission of data-signal, this be because the latter and the present invention without direct relation.
In step 611, transmitter reduces sequence by residential quarter ID, sector ID and PAPR with transmitter and generates pilot frequency code element.In step 613, transmitter is by modulating to generate modulated code element according to the default modulation scheme such as BPSK (binary phase shift keying) scheme to pilot frequency code element.In step 615, in the pilot frequency code element interval, transmit modulated pilot frequency code element, and finish this process.Although not shown in Figure 6, can consider the frequency shift (FS) when transmitting pilot frequency code element.That is to say, can be each residential quarter and each sector the position that pilot frequency code element begins differently is set.In addition, in using the system of multiple transmit antennas, can transmit this pilot frequency code element by the transmitting antenna that is set to have the different frequency skew.
Fig. 7 is according to embodiments of the invention, the flow chart of operating process of receiver in ofdm communication system.
In the description with reference to Fig. 7, will the reception of the pilot signal of being undertaken by receiver only be discussed below, and will can not refer in detail to the reception of data-signal, this be because the latter and the present invention without direct relation.
In step 711, receiver receives pilot frequency code element at the pilot frequency code element interval.Although not shown in Figure 7, when as above described like that in conjunction with Fig. 6, when transmitter has transmitted pilot frequency code element when having considered frequency shift (FS), receiver was determined the signal receiving position corresponding with frequency shift (FS) before receiving pilot frequency code element.In step 713, the receiver basis demodulation scheme corresponding with the modulation scheme that transmitter adopts carries out demodulation to pilot signal.In step 715, receiver be with can be by the every row in the corresponding Walsh hadamard matrix of all residential quarter ID of receiver identification and the walsh code corresponding with all sector ID, relevant (namely to the execution of the pilot frequency code element after the demodulation, carry out IFHT), detect residential quarter ID with maximum related value and sector ID as residential quarter ID and the sector ID of transmitter, and finish this process.
Fig. 8 is for the schematic diagram of the mapping relations between subcarrier and pilot frequency code element is described according to embodiments of the invention, when ofdm communication system is carried out IFFT.
Fig. 8 is based on such supposition, the number that is the subcarrier in the ofdm communication system is 2048 and actual among 2048 subcarriers to use the definite number of subcarrier be 1552, in other words, in this system, among 2048 subcarriers, reality has been used and has been comprised from the-776 work song carrier wave to the-1 work song carrier waves and from 1552 subcarriers of the 1st work song carrier wave to the 776 work song carrier waves.In Fig. 8, the number of each input port of IFFT unit (that is index that, k) represents each subcarrier.
The 0th work song carrier wave meter is shown in the reference point that is used for pilot frequency code element in the time domain, that is to say the DC component in the time domain after carrying out IFFT.Therefore, sky (NULL) data are inserted in the 0th work song carrier wave.In addition, also empty data are inserted in all other subcarriers except 1552 actual subcarriers that use, that is, be inserted into from the-777 work song carrier wave to the-1024 work song carrier waves and from the subcarrier of the 777th work song carrier wave to the 1023 work song carrier waves.Here; empty data are inserted into from the-777 work song carrier wave to the-1024 work song carrier waves and the reason from the subcarrier of the 777th work song carrier wave to the 1023 work song carrier waves are, from the-777 work song carrier wave to the-1024 work song carrier waves and from the subcarrier correspondence of the 777th work song carrier wave to the 1023 work song carrier waves in being used for preventing with other system that uses nearby frequency bands the boundary belt that disturbs to occur.
When the pilot frequency code element in the frequency domain was input to the IFFT unit, the IFFT unit was mapped to corresponding subcarrier by the pilot frequency code element in the frequency domain that will input and carries out IFFT, thus the pilot frequency code element in the output time-domain.
Fig. 9 has illustrated according to embodiments of the invention, the frame structure of pilot frequency code element in the time domain of ofdm communication system.With reference to Fig. 9, pilot frequency code element comprises: repeat the code element of secondary, each code element has identical length p c(that is, identical length N FFT/ 2); And the protection blank signal, it is added to the front end of the code element of this repetition secondary.Consider the characteristic of ofdm communication system, insert the protection blank signal according to above-mentioned Cyclic Prefix (CP) scheme.Here, N FFTBe illustrated in counting of the IFFT/FFT operation used in the ofdm communication system.
Figure 10 has illustrated according to embodiments of the invention, the structure of pilot frequency code element in the frequency domain of ofdm communication system.
With reference to Figure 10, outside boundary belt (that is, the protection interval) 1001 and 1007, subcarrier spacing also comprises related interval 1003 and PAPR interval 1005.Related interval 1003 comprises the sequence with large correlation, and PAPR interval 1005 comprises that the PAPR corresponding with the sequence in the related interval 1003 reduces sequence.Only carry out the calculating of correlation as described above with reference to Figure 5 for related interval 1003.In Figure 10, H 128Represent 128 rank Walsh hadamard matrixs, and ∏ iThe interleaving scheme that () expression has 128 length interweaves to the row in the 128 rank Walsh hadamard matrixs by this interleaving scheme.In addition, W () expression walsh code shielding.Generate pilot frequency code element by following frequency domain sequence by equation 1 expression.
Figure S05807074720060912D000121
ID cell∈{0,1,…,96},s∈{0,1,…,7},k∈{-N FFT/2,-N FFT/2+1,…,N FFT2-1}
......(1)
In equation (1), ID CellExpression residential quarter ID (that is, the ID of BS), s represents sector ID, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data is not inserted in expression, and m represents sequence q IDcell, SOperation index (running index).In the present embodiment, the pilot frequency code element of supposing all BS and sector uses identical frequency shift (FS).According to the frequency domain sequence P shown in equation 1 IDcell, S[k] only will the value of form distribute to the subcarrier with odd number index shown in equation 1, and, value 0 is unconditionally distributed to all subcarriers with even number index.Therefore, when executed IFFT when operation, in time domain, repeat identical sequence secondary.
In addition, in equation 1, _ be weighted value, in order to make pilot frequency code element can have the power level identical with the power level of (that is, data bit interval) middle data symbols that transmits at the interval except the pilot frequency code element interval.Define q by following equation 2 IDcell, S[m].
Figure S05807074720060912D000131
In equation 2, H 128(i, j) individual element of (i, j) expression 128 rank Walsh hadamard matrixs, wherein, each among i and the j have 0,1,2 ... and the values in the middle of 127.Because all elements of the first row of 128 rank Walsh hadamard matrixs is 1, so, this matrix from the second row, used.In addition, in equation 2,
Figure S05807074720060912D000132
Expression the
Figure S05807074720060912D000133
Plant interleaving scheme, wherein, Expression is not more than Maximum integer.Here,
Figure S05807074720060912D000136
Kind of interleaving scheme means by the in the middle of U the interleaver in the pilot tone maker of Fig. 2
Figure S05807074720060912D000137
The interleaving scheme that individual interleaver adopts.
The above has described according to embodiments of the invention, the structure of pilot frequency code element in the frequency domain of ofdm communication system with reference to the description of Figure 10.The internal structure of U interleaver in the pilot tone maker of Fig. 2 is described with reference to Figure 11.
Figure 11 has illustrated the internal structure of the interleaver in the pilot tone maker of Fig. 2.
With reference to Figure 11, interleaver passes through will be by generator polynomial (X 7+ 7 memory (memory) 1101,1103,1105,1107,1109 that X+1) generate, in pseudo noise (PN) sequence generator, 1111 and 1113 value are converted to decimal number, generate described with reference to Figure 10 the
Figure S05807074720060912D000138
The interleaving scheme of individual interleaver
Figure S05807074720060912D000139
The PN sequence generator has the initial value that is used for each interleaver as shown in figure 11, and only writes from 1 to 127 integer in each once in 7 memories 1101,1103,1105,1107,1109,1111 and 1113.In order to generate the interleaving scheme corresponding with the interleaver with 128 length, will
Figure S05807074720060912D0001310
Be set to Interleaving scheme has been shown in the table 1 below.
Table 1
0(l) 1,65,97,113,121,125,127,126,63,94,47,86,43,84,42,21,75,100,50,25,77,103,104,57,93,111,118,59,92,46,23,74,37,83,104,52,26,13,71,98,49,89,109,119,122,61,95,110,55,90,45,87,106,53,91,108,54,27,76,38,19,72,36,18,9,69,99,112,56,28,14,7,66,33,81,105,117,123,124,62,31,78,39,82,41,85,107,116,58,29,79,102,51,88,44,22,11,68,34,17,73,101,115,120,60,30,15,70,35,80,40,20,10,5,67,96,48,24,12,6,3,64,32,16,8,4,2,0
1(l) 25,77,103,104,57,93,111,118,59,92,46,23,74,37,83,104,52,26,13,71,98,49,89,109,119,122,61,95,110,55,90,45,87,106,53,91,108,54,27,76,38,19,72,36,18,9,69,99,112,56,28,14,7,66,33,81,105,117,123,124,62,31,78,39,82,41,85,107,116,58,29,79,102,51,88,44,22,11,68,34,17,73,101,115,120,60,30,15,70,35,80,40,20,10,5,67,96,48,24,12,6,3,64,32,16,8,4,2,1,65,97,113,121,125,127,126,63,94,47,86,43,84,42,21,75,100,50,0
2(l) 71,98,49,89,109,119,122,61,95,110,55,90,45,87,106,53,91,108,54,27,76,38,19,72,36,18,9,69,99,112,56,28,14,7,66,33,81,105,117,123,124,62,31,78,39,82,41,85,107,116,58,29,79,102,51,88,44,22,11,68,34,17,73,101,115,120,60,30,15,70,35,80,40,20,10,5,67,96,48,24,12,6,3,64,32,16,8,4,2,1,65,97,113,121,125,127,126,63,94,47,86,43,84,42,21,75,100,50,25,77,103,114,57,93,111,118,59,92,46,23,74,37,83,104,52,26,13,0
3(l) 69,99,112,56,28,14,7,66,33,81,105,117,123,124,62,31,78,39,82,41,85,107,116,58,29,79,102,51,88,44,22,11,68,34,17,73,101,115,120,60,30,15,70,35,80,40,20,10,5,67,96,48,24,12,6,3,64,32,16,8,4,2,1,65,97,113,121,125,127,126,63,94,47,86,43,84,42,21,75,100,50,25,77,103,114,57,93、111,118,59,92,46,23,74,37,83,104,52,26,13,71,98,49,89,109,119,122,61,95,110,55,90,45,87,106,53,91,108,54,27,76,38,19,72,36,18,9,0
4(l) 102,51,88,44,22,11,68,34,17,73,101,115,120,60,30,15,70,35,80,40,20,10,5,67,96,48,24,12,6,3,64,32,16,8,4,2,1,65,97,113,121,125,127,126,63,94,47,86,43,84,42,21,75,100,50,25,77,103,114,57,93,111,118,59,92,46,23,74,37,83,104,52,26,13,71,98,49,89,109,119,122,61,95,110,55,90,45,87,106,53,91,108,54,27,76,38,19,72,36,18,9,69,99,112,56,28,14,7,66,33,81,105,117,123,124,62,31,78,39,82,41,85,107,116,58,29,79,0
According to interleaving scheme as shown in table 1 , usually realize interweaving by 128 units that select in the row of arranging 128 rank Walsh hadamard matrixs with order as shown in table 1.Here, interleaving scheme
Figure S05807074720060912D000142
To have the frequency domain sequence P of 128 length with inferior ordered pair as shown in table 1 IDcell, S128 elements in [k] are replaced the scheme of (permute).Number expression frequency domain sequence P in the table 1 IDcell, SThe index of the subcarrier that 128 elements in [k] shine upon with it one by one.
With q IDcell, S[m], m=(128 * 5) ..., N UsedThe PAPR that the value of/2-1 is defined as minimizing the PAPR of pilot frequency code element reduces sequence.Table 2 comprise the PAPR corresponding with residential quarter ID and sector ID reduce sequence and with the PAPR of the corresponding pilot frequency code element of residential quarter ID and sector ID.
Table 2
Idcell S PAPR reduces sequence PAPR(dB)
0 0 1100011100010100100000110110010011110110101111001000101110111001110110111111100100111101110011010010011111110010111110111100100110111100 5.69
0 1 011011010110101010001101100000101000111010001111100100010010001000100010101010001011011111100001001100100100101111001111010101111001101101 5.44
0 2 1111111100101010100100000011110110000011111100101000110000111111000110101111111100010010101001100110110110101111111100001011011101111010 5.58
0 3 0100100001010101001100101010111000011000011011010001101001100001100110010101000011000000100010010010100010101001100111000110110111011101 5.43
0 4 10000110l1000001100100101001010100111110001010111111011101000111011101lO 5.46
1010001000000011100001111001010001011101010101110100000011010010
0 5 011111000111110001100100111101010101000010001110010111010011001111110110 1010100011110000011110101010010001110011011101000010101110011111 5.63
0 6 111110001011000101000101110010011111010010010110000110010000010100101000 11010010110011011010010001101111101001011101111011010100000111110 5.51
0 7 010000101100111101000110000100111000010010110011100000110001110111101000 1110001010000001000101011000001101110101011011110100000010001101 5.43
1 0 100110111110101011011010110011010101000100010110101100100001100110110000 1100101011011110011100111001110001011001011010101011000001111100 5.81
1 1 100000111001001101011011011110111000011101001100101111010001011011001010 01010000111000101101101010000110011010111000110010111110110011010 5.43
1 2 0001010000010010110111101000011101101110101010000001110100011010100111011 0 0001000011001000010011010011110110001011011111010100000101000000 5.61
1 3 110110011101101010111000111011000000111001111100111110110101000111010001 1010110000111100010110101011010110111010100000111000101100110001 5.43
1 4 101110110010110101111110000110101001000010111010110010010011001000111111 0101100011101101001000110011010001111011111100100010100111011111 5.46
1 5 011100111011001000100111001111000010100001101100001001010001110110110001 001001010010110100100011101101101010100000110111001000111010101100 5.60
1 6 000001101000001000011111010101011101000111100101100011101100010101010000 1000110000011100010110111111001110100010001000100101011100000001 5.47
1 7 100110011001001101010001000001111100110100001010010001000101001111011101 0111000100101111101000001111111110011110101110010100011100001110 5.64
Also can in the ofdm communication system that uses multiple-input, multiple-output (MIMO) scheme and do not need the sector to distinguish, adopt the method for aforesaid transmission/reception pilot signal.In such ofdm communication system, owing to not needing difference or identification sector, so, predetermined walsh code (for example, complete 1 walsh code that all has value 1), rather than the different walsh codes corresponding from different sector markers that in aforesaid pilot tone transmission/method of reseptance, adopt, can be used for all sectors.
In addition, (for example, BS) use N when the transmitter of ofdm communication system tDuring the transmitting antenna of number, can represent to pass through N with following equation 3 tThe pilot frequency code element of each transmission in the individual transmitting antenna.
Figure S05807074720060912D000151
ID cell ∈ { 0,1 , . . . , 126 } , n = 0,1 , . . . N t , k { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
In equation 3, n represents transmitting antenna ID, and k represents sub-carrier indices.In addition, the q in the equation 3 IDcell[m] can be represented by following equation 4.
Figure S05807074720060912D000161
In equation 4, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in ofdm communication system, uses operation, come each among defined nucleotide sequence R (r) and the T (k), so that also according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in ofdm communication system, uses operation, define q IDcell[m].
Above-mentioned with describing, according to the number N of transmitting antenna t, and the points N of the IFFT/FFT that in ofdm communication system, uses operation FFTR (r), T (k) and q IDcell[m].
Number N when transmitting antenna tBe 2 and counting of the IFFT/FFT that in ofdm communication system, uses operation be 2048 (that is, N t=2, N FFT=2048) time, can represent R (r) by following equation 5, and can represent T (k) and q by the hexadecimal number shown in table 3 and table 4a to 4f IDcell[m].
Figure S05807074720060912D000163
Table 3
Residential quarter ID Sequence papr Residential quarter ID Sequence papr
0 E5F121DCFF4A0E63825399D3 5.92384 64 BC8C283A7CA014EC79837DD7 5.82436
1 D10BA3F1A15DDF9C4D819B45 6.28771 65 DF29647F465044A0BC7D2720 6.28397
2 13310AB0491064CE7516898C 5.88237 66 F29CCF3995F08458FA0F8908 5.89065
3 E53C10EB0B1E830D7C2302A2 5.72241 67 28F5D1FD67E98528DB28BB5D 6.08206
4 37DBDBACCEDC976D1DE87D53 6.54265 68 DC5908BB6B8E1B84ADF881A8 6.01325
5 E43B8C8299E5B2B49798FA28 6.23106 69 0AF44605329EE32ACF75481B 5.84218
6 52A78E348A46E8E84CF29D7B 6.96087 70 C7CEF13FD6FE89346FB543B2 6.33524
7 CA6B366D37E54A7EDF32A688 6.23321 71 5D2B9D0E4306F96A65BAF4EB 6.34218
8 3852A3F8B0E1E7FC41301F17 6.35304 72 0E2D2473C890413D9A9D8DB1 6.05022
9 271E4591888CBCD44B32B809 5.88167 73 7C082A7E84B366733C6E19D1 5.9351
10 1CB9181F0A47346785BC9464 6.5208 74 85C50A024C78CC1B3AEF4C94 5.84302
11 786E7023033922819D70233B 6.16551 75 298A3E89079EF4C27CC921A9 6.13354
12 D7E0A495CFE8CEC3D2AF4B5D 5.99014 76 825D06F901CE94D8168D8A46 6.00828
13 360ECD45D330B876A8F13462 6.43524 77 73DCC20AFF8C5837F539EE22 6.27564
14 C63BDDD2D536FF2416B7A424 6.01736 78 553DD23CB093EFD7C544F013 5.88433
15 10A8B5DAB83CE78B3FCFC31D 6.19619 79 5EE648A514E40CF0E7ECE2A1 5.95859
16 6152A33C894DC0B62EEA0DDA 6.13798 80 F7B98C7D1DD5CE51B6B678A3 6.54896
17 757A237D70ABD7AB1FFB04F0 5.95019 81 9B840FF5F78473E2F75B8E2D 5.87521
18 BC0D0BEA01E586B664401CFC 6.2348 82 8C99E9A614E8AC8C74566752 6.03187
19 8A5CD82D82B19593F8266E7E 5.67582 83 B7EC60A09ACD2CABB53DEDE9 5.95608
20 F44201B0903E55006BDFD5B0 6.78315 84 2900FBF0CC91DA813CDBEAD0 5.87135
21 5F252E0EC94C7965A2B347F3 6.37986 85 949EF4015122026200DF05F1 6.11214
22 6E376986A947B180015A0A9A 6.24373 86 F3AE5B267C36BF3877E4AC49 5.87287
23 3669CAF711FC2129743CFFBA 6.1472 87 A4E43FBE54A0280D65419C99 6.0007
24 C1D8E53D16322CB3B1386B0E 5.87095 88 F116946F21EF61D108AC2F42 6.94574
25 9E1F780C45570E3A475F5A77 6.11801 89 5B82DE3F0ADB20D788A045A6 6.13544
26 32F36D066051FAE51512A8F3 6.27711 90 AC639F8BDB63A8C4E4746E65 6.25857
27 464AD0462512248F26313BC4 6.50894 91 70C588D838AB0FC61F8EABDA 5.85846
28 03F93CDFCA5B9D3262FD2D25 6.12574 92 D6A8AD537E8258E745C1C476 5.82355
29 694CAFC989888FC1F358CA8F 5.86597 93 8A4F652DF088D93FC0073FD8 6.00051
30 8C9F1D8E186EAFEDF0D6F4DD 6.17035 94 450F92DF140D63380103F31B 6.48422
31 C4E95F3E65B40D938946B132 5.84552 95 EAAF05F63641E7AFED3A5A79 5.90759
32 5891E3188FA53AE34576A803 5.85053 96 5F501203D217CF94BC44A6C1 6.5396
33 409FF8A9E7FCDA58D4A5241B 6.10709 97 71F6C952D988BC8847E0BA88 6.09041
34 3C70E4E442FA01B79EE09FA5 6.20979 98 BF472D6610532AE50CDF829A 6.28286
35 36817EE5B08B5B4B9CE88CBE 5.77008 99 D15D9E8AECFE8C296D5802D6 6.22803
36 BA78FAA5BDCC40837F5205DA 6.31919 100 D5AD5575149C76589FF8784A 6.07452
37 A490E570CE08172BD82A3633 5.73775 101 7868B4788F33D2EA66C86BE2 5.83685
38 8433E275E271D4EC11019463 5.78564 102 B722E30271A97725EA79020A 5.97044
39 F83B07F42EFAE5F1EA281A78 5.68333 103 30209E7F80F14A76FCB45DBF 6.06914
40 B9B93373373FFCB301EFCD77 5.79877 104 6FA8FDC42599BDFDCEEFD828 5.99957
41 22B5A5AAC8B3756C6C4ADFE6 6.27794 105 9CAF25C12BA260391958223B 5.91873
42 C6DFADA3233FF4EE17DE5E17 5.87103 106 CD82CBA6EA27C514AA8F40A0 5.72081
43 70D09Dc4F9121828C70B6064 5.76809 107 96852F4F3B879A23F97D3DFA 6.24847
44 F01F5956C24E2156253809D8 6.64621 108 236F33011BD7E277C5BC9561 5.84184
45 8E157642C21545D6AFC4C9EE 5.77721 109 9B74FD2CA98D58E7B8EDD5DB 6.1246
46 391D93EF8012E5D2F8E2C299 6.87607 110 2DC51FEED52392D7174435E8 5.80747
47 EC1D207A7BA6C4852C105E34 6.09394 111 8708EE1A78F79E3E14D30DD7 6.23013
48 55858594CBAC6A7760D72623 6.0547 112 FCCD639AD5BA5B1451CBD600 5.96117
49 FBB76DDCC08E8B0A89E8D35B 6.30027 113 652492280DC624A59D2A3F82 6.32939
50 6394D6CFC5269D0B8DFCE4D6 5.71258 114 B8D0EC8813E8453214C74501 5.99404
51 F92EDE555781CC62F5C3FA42 6.26962 115 2AC9F5941B28ED1CF89F6F0A 5.96885
52 E66B7E6E901C802D1725C31B 6.98039 116 64DB26CD230FABD4BA1A8412 6.58194
53 0BA101B2F3F78E672EFC0CC7 6.25099 117 C3E2EF9EDB75E639EDC84DEA 6.07393
54 26E1EC3E787F6092D1634683 6.54994 118 4BE5A9ADCB4B4C4758F4CEBD 5.98986
55 4767A25488E79F75E2F45FA1 6.25162 119 3C72C151C36EA2757082442D 6.02742
56 1A2FC69DC4DCAD0399DAF857 6.06972 120 B482C15B86D52FC1106E2E60 5.91514
57 53F2BFC63878B6C2C10C8A2C 5.70754 121 F26820407553EDB43C57123C 6.07394
58 C20824E0B5348061E2A4C1CE 6.05831 122 1C045E9D66325157825D6967 6.10105
59 8F1B88288316B59939D490A9 6.002 123 0E0F6D035E1AC7A1D76161A7 6.7399
60 3203E66C6406767186F8955A 6.79504 124 C1C20BF875BE9E94D1CAE3BA 5.82982
61 B335E583FD89A0A410876B81 6.17206 125 527261E102F3FC3ABCE2C13C 5.96992
62 C11D537E5E2992361F2CC44B 6.06154 126 8AFE184CD76A2756E5394350 6.76565
63 F1E074FEB2CF55427C573C6F 5.80776
Table 4a
Residential quarter ID Sequence papr
0 FED4E77A4C67B6D891E1BE6BAD19E1418101EE4B0DF6AB22382DCB73A27C4870487FA930BDD6 E4A715F95E6A4F8A0C480FE54E73A6C4C27C971A23CA870606FA535DE961B6D3664544F890C080 F75267BA2C37DACC98E0BB2BCD438203DD599EE8B0DF6BB26382FCA73227C5 5.92384
1 03FD698EF4B0DB69B32342BC972A2BC2870533DD163BCD6648725F95E6C4F8B0C080FD55C6FB2 DA90E13E2B8D19E1458103FDA9CED494785F94E744F8D0E090FF5265BB2CB7DACC8CD09F14181 09FEA8CF74D8AF55A921C17C55C5860407FAAB39D363BD56E48705F15E684D 6.28771
2 FD298ED4B8D769B323C27C973A33C2830405DD161BCD664C705F94E6C4B8B0D080FB54647B2DC 90E0BEAB8D09F1418101FDA94EB498C85796E7447850E080EF5A67B92C37DAECA8C897161A111F 6ACCD75586F359931C17E5798868407DAA33DD161BDD6E48705E95E6C4D88 5.88237
3 07FAD33DC961BED5654705B96E744F8D0C08673A2C57BAD490E0BE2BCD49F1418901FEA98D769 B122C2FC973A33C2830407FAD35DE948E8BB29CC897121A111F6A8CD7458EF759919A13E2A3120 BFD519CE9319EEB624382FAAD8A0C080FE54673A6C67BAD892E0BE2B8D29C 5.72241
4 F92E346795060C0FF5A6BBD2C37DAEC88F0989F1618111FEA8CF7558EF35B921C97E559830A07F 9529DE971BECB6A4784F9AEB4678504CF72586FB55951E17E539D13E2438243DD5DE6B324392FC AF3427C5864427EAAB39D160C90E4BF2BCD89F1419101FEA8CF7458AF759 6.54265
5 0487FAB32DD165BCD6644705F95E6C4B8B0D54E73A4C67BADC90E0BEAB8D09E1418103FC4B8D B69B323C2BC973A2BC68704077AD31DDC98E0BF2BCD09B1618109FAAACF7458EF558579A13C29 30207FB539DE9319EDB6A4384F84F8A4C281FED4A77A4C67B2DA90E1BE2B8D0 6.23106
6 FA535DC971B6D3664685F92E7447850E0A0DBAAC379ACC98E4BF2ACD09B1619101FEA8CCF6DB 121C27CD71A33C2830605FA531DE97180BF2DCE88F1A18101EEACCF76586FB59911C1362C30203 FD559CE8B1DEEB725382F8AF340C880FD5567BA6C57BAD494E2BF2BCD09F15 6.96087
7 0FF5665BA2CB79AEC88E0BF2BCC89F121A11CE7498EF75B125C37C571A53E2830A07F9511B6D3 664785796E74578D0E0A0EF5267B92D1C17E559A13E2832203F5559EE9B1DEEB72434A7C506140F F6A73BD2633DB6D48709F35C1498103FCA94EF4B8CF6DB121C27CD71A13C 6.23321
8 F1218121FEACCB74586F35D911D176539B1020BF9539CE9319EEB724B86FAAF34A785060A6BB92 E37DA6C88D0AF2DCE8AF0A14101DE9DEEB726382F4AF3627C5864427FAAB3DD160705F55C684F 0A0C081FE54A77A5C67B2D890571A13C2930A07FB539D69319EDB624786F9 6.35304
9 0C080FF54673A6C77BAD490E0BF2BCD49F14FD29CED4A8D76DB123C2FC971A33C2830405DD96 1BCD664C705D94E6C4B890C088FF54645B921C37D579A53C2830A07F9539D69719ECF92E744785 0E080FF5A63B92E37DA6C88F08D19E1438303FD298EE4B0DB69B223C2BC971 5.88167
10 F25CA88F1A1C141DEA4CF725A6FB5D911C151362830213FD519CE8B15EAB52538AFCAF356040B F4A63BD2A37DA6C48F09F25C68CF2A1996E8B2DF6B326382ECA73627C4860447FA9BDD6A48705 F15E684F8A8C082FF54E77A4C4929C17C579A13E2830203FD539CE931DECB4 6.5208
11 080FF5667BAAC379ACC90E4BF2ACD89F1618A94EF4B8DF65B121C27C571A33C2830207F9961BA D5644705B96E7447890E090FF5265B9921C17E569A13A2A3020BF9519CE9319ECB5AEB42785160C 0FF4A73B52E37DB6C48B09F09E1418302FD298EF4B8D769B323C2FC973A1 6.16551
12 F6DB521C37C575A33D28B0607FA531DA95184785B96E64478D0C080FF5265BB2C37DACC92BCD4 9D1418905FEA9CEF4D8EF65B921C17C50E0C0DF4A6BBD2E36DAECC8D0AF25CA8AF1EACCF745 96F359931C17E539B12E2C34223DDD165BCD664C705F95E644F890D088FF5465 5.99014
13 0B729CE89F121C121EEA4CB74586FB5D931C9A93E283020BFD519DE931DECB624386F8AD50E0C 0DF5A63B92E37DA6C88F0BF25CA88F0D599AEAB1DEEB324382F4AF3627C5064427C63BD96E487 0DF15C684F8A4C281FE54A75A55B121C37D571A53C2830207FB529D6931BEC 6.43524
14 F5A67B92C375AECA8E0B729CE89F1A18121D74D8EF55B929C57C579A93E2831203F9539CEDB66 4585F92E74479506080FF5A63BD2E3417E579B13E2C34223FD519AEAB0DE6B724382745060417F2 A73BD263BD96E49705F55E6918901FEA8CE74D8CF65B121C37C571A53C28 6.01736
15 1F6A8CD75586F359921C97A579A13E2830209DE931BEDB624784F9AEB46785160C0BF6A437DAAC A8F0BF29CC88F1218121FEACCF745838AFCAF342745462417FAA339D263BD96E49684F0A2C181F ED4E77A5C6FB4D891E17E6B928B0605FA531DA971BED3624585F9AE74479 6.19619
16 E13E6BAD09E1418103FD29CED4B8D769B32073A23C6860407BAB33DD161BED764C745D948A8C0 80FE54E73A4C77B2DC90E0BEABCD09DFAD35DC961B6D3644685F92E7457850E0A0C2C379AEC8 8E8BF2BCC89F161A101FEA8CF746B322382ECAF3625C5868447DAB33DD163BC 6.13798
17 1C17E579B1362C30213F5559EE9B1DEAB724AE3427A506040BF6A73B52E37DB6CC8F09F1F121C1 21FEA4CB74586FB59931C17E539B117FAA739D3633DD6E4970DF15E684F8A0C281A546BB4D991E 17E6B9D19E5438303FD29AEDED3624584F92E7447850E0C0FF5A63B92C34 5.95019
18 E2C30223FD599EE8B0DE6B324382FCAF3425407F2A53AD2E33DB6D48F0DF35C68CF0A2C04C772 586EB55911C17E5B9D13E2430243DD5BDD6A48705F15E6A4E8A8C082FF54677A6C4E13E6BAD09 E1458102FD29CED4A8D769B120AE342785160C0FF4A63BD2E37DB6CC8F09F0 6.2348
19 18901FCA8CEF498EF65B125C17D579A53C28FAD35DC971BED3644685792E74478D0E080DBAAC3 79ACC90E0BF2ACD89B1619101FAA8CDB6A4384F9AE346785160C0BF4A73B52A37D9F2DCE8AF1 A1C101DEA4C7725A6EB55951E14A23C6870407FAD33DC961BED7654785F96E4 5.67582
20 E6C4F8B0D080FF5466BA2C779ACC90E0BF281418101FCA94EB498DF6DB123C37C571A13C07FA9 31DD961BAD5644705B96E744F8D0E087458EF55B921C57C579A13A2830203F9519CB624786F8AE B427A5160C0FF4A73BD2E37D9E1BE6B8D19E1458103FDA98EF4B8D769B120 6.78315
21 1B6D7644785F96E7457850A0A0EF5267B92DC90E0BF2ACD89F1618101FAA8CE74D8EF7587CD75 A13C28B0205FB531DE951AEDB664584F121C121FEACCB74596F35D931C1765799113FD519EE8B1 5EAB72438AF8AF35274506241673A6C57AAD494E2BF2BCD49F1518101FEA9 6.37986
22 E539D13E2438243FD4996E8B2DF6B3263A2D2745462407FAA339D363BD96C48705F55E68C181BE B4C77A586DB5D911E15E4B9515E34133DD163BDD6648705F95E684D8A0C080FD547B2D890E0BE 2B8D09F1418501FDA9CEB4B8C24382F8AE34A78526040FF2A53BD2E33DB6C 6.24373
Table 4b
23 101FAAACF7458EF75A921C57E569A93A2831539DE951AEDB624784F9AE746795060C0FF52C379AC C98E0BB29CD89F161A111FEACCD7424382FAAE342785D61407F2A73AD2E33D96D5C68CF2A1C101 FE94C772586FB5D991E15E43CA870607FAD35DE971BED3664785F92E744 6.1472
24 EECB4DD6AB22382DCB73A27C4870487BA930BDD6E4A705F15E684F8A0C082FF54E77A4C591613E 4B9D11E54382037D29AEF4B0DB6BB0E644B8B0C088FF5466BAAC37BADC90E0BF2918901FEA9CE7 498CF75B121C37D579A13C287F2A73BD263BD96E49705F15C684F8A4C280 5.87095
25 13E2830213FD559EE8B15EAB52538AFCAF356040FF6A73BD2A35DA6C48B09F25CE8CF0A0EA4CF7 4586F35D911D176579913E2434223D633D96C4870DF55E684F0A0C281FED4A77A491617E4B8D11E5 4383037D698EF4B8DF6BB1F92E7447950E080FF4A63BD2E37DA6CC8F09 6.11801
26 ED3624785F92E3467850E0C0FF5A63B92E358E0BF2BCC89F1618111F6A8CD74586F75B90571A53E2 830203F9529D69719EDB624384F9A1C141FEB4CF725A6EB5D951E16E539D11E1D519AE8B1DE6B72 4392F4AB3427C5060427CBAAC37BACC98E0BD2ACD89F1619101FAAACD 6.27711
27 176579912E2434223ED519EE8B0DEEB3263834A7C5061407F2A53AD2637D96C4870DF35CA14101F EA4C776586FB55911C17E539913E0AA339D362BD56E48705F95A684E8A8C482FDC67B2DA90E13E6 BAD09E1418303FD298ED49B624386F9AEB427A5160C0FF4A63B52E35D8 6.50894
28 E9319ECB624382FAAF34A7C526140FF2A539DA6C88F0BF2DCE88F0A1C141DEB4CF765A6D1C97E5 59A13E2832203F5559CE9B1DEAB72568CF0A0C181FED4C77A546BB6D991613E6B88203FD698EE4B 0DF6AB2A3C2FCB73A27C485F5263BB2C37DAEC88F0B729CE88F121C101D 6.12574
29 1418503FCA9CEB498DF65B521C27CD75A13C07FA933DC969BED7654785F94E644F890C0967BA2C 57AADC90E0BF2BCD09D1418901FCA8EDB624584F9AE7467950E0C0DF4A63B92C350BF2DCE89F12 18121FEA4CF74596FB59911C73A27C4860487BAB32DD961BCD664C745F95 5.86597
30 EACCB74586FB5D911C17E539913E2C34223DE9319ECB724B86F8AF34A78506040FF6A738DA6C88 D0BF2DCA88F0A14141FEA4CF765A6C2FCAB3626C5864427FAAB3DD362BDD6E48714F8A4C281FE 54A75A4C6FB6D891E13E6BAD030A07FB539D69719ECB6A4784F9AEB467851 6.17035
31 3FD559CE8B15EEB52438AFCAF3427C5060413B52E35DB6CC8F0BF35C688F2A1C181FEB4C6F35D9 31C176579913E2C30223FD519EE8B0705F15C684F8A4C081FED4A75A5C67B2DA91D19E1418203FD 298EF4B0DF69B22342FCB7050E080FF5A63B92C37DA6C88F0BF25CA8AF0 5.84552
32 C101FE94D77A586DB4D991A15E5B9511E141D599EEAB0DE6B326392F4AB3427C5860407CD2E33D 96C48F0DF35D68CF0A2C0817ED4C75B22382FCB73A23C6860487FAB32DD161BED59566C4D8A0C0 84FD55673A6C77BAD494E2BC13E2832203FD519CE8B15EAB524382F8AF35 5.85053
33 3C2870406FA531DC961BED3644785F96E745088FF5667BAAC379ACC98E0BF2ACD89B1419A9CEF4 B8CF65B523C37CD75A33D28B0605F837DAEC88F0BF29CE88F121C101FEACCB74581C97E559B136 2C30203FD519EE8B15EEB525956684F8A0C084FD54673A2C57BADC90E2BD 6.10709
34 C27C973A33CA870406FA535DE971B6D36444E6C4F8B0C080FF5466BAAC77BACC90E4BD28141850 1FCA94EB4B8CF6DB523C37CD71A33CF5263B92C375AAC88F0BF29CE89F121C121D58EF359931C9 7E579A13E2C32203F5519CE8D6E48705F95E6C4F8B0C880FF54673A6C579 6.20979
35 382F8AF352745462407FAA339D2633D96C495C68CF2A1C181FEB4C77A5C6FB4D911E15E5E2C3022 3FD519AE8B0DEEB324382FCAB3625FE54E75A5C6FB2DA91E13E6B8D09E94183014B8DB69B323C2 FC972A2BC6870407FA931DCDAEC88D0AF2DCE88F0A1C101FEB4CF765A6C 5.77008
36 C6FB2DA91E1BE2BAD09E1458303FDA98ED48B2A3C2FCB73A23C6860487BAB32DD165BCD55F95A 6A4F8A8C480FF54E77A4C67BADC90E03C2870406FA531DC961BED3644685792E7450F75667BB2CB 7DAEC98E0BF29CD897121A10996E8B0DE6B326382FCAF3625C5868407FA8 6.31919
37 3BD2A37DA6C48F09F25CE88F0A1C101BE94C6FB5D931C176579913E2434223FD519AE8B024B86F8 AE34A7C5260407F2A53AD2E33D96CB9511E1438203FD699EE4B0DF6AB2A382FC9868447DAB33DD 161BCD6648725E95E684F881F6A8CF75586F75B921C17A579B136283221 5.73775
38 C5860407EAA33DD162BD56A4A715F15A6A4D81FED4E76A546BB6D891617E6B9D11E5418199EECB 2DE6B3223A2ECA73627C5860407DA97BADc90E1BE2BCD09E1498503FcA9cEF498Cc27C971A33C 2830407FA531DC961B6D364455CE88F0A1C101FE94C7725C6FB4D911A17E5 5.78564
39 30A07FB539DE9319ECB624386F9AEB427A51F5263B92C375AECA8F0BF2DCE89F121C101C7458AF 75A929C57E569A93E2A3120BF9539C6CC8F0BF25C68CF0A1C181FEB4D772586DB5E5B9D13E2438 203FD4996E8B2DE6BB22382C447890C090FF5267BA2C37DAEC98E8BB29CC 5.68333
40 CEF498EF75B921C17D579A13E2930A03F9511B6D3664785792E7457850E0A0FF5263BB2DC90E0BF2 BCD09F1619101FAAACF74D8EF759AEB467A5160C0FF4A63BD2A37DB6C48B0BF1A14101DEA4C77 2586FB5D951E16E5B9D13E107FAD31DC969BED5654705F96E74478D0E09 5.79877
41 335D163BCD6648725E95E684F8B0C084FD55C6FB2DA90E13E6B8D19E9418302FDA98EF48B2A3C2 DCA73A23C4860487BAB33DD161BED52B4D49F1518105FCA9CE74D8EF65B925C17C2830607FA539 DE951AED3664584F9AE3467881FED4C77A5C6FB6D991E17E6B8D11E54380 6.27794
42 CD89F1418101FEAACE74D8EF55B929C57E5528B0207FA539DE951BEDB624784F92E346790F75267 BA2C379AEC98E0BB2BCD89F161A11E9B1DEEB724386F8AE34A7C526040FF6A7386C48B09F35C68 CF2A1C181FE94D77A5C6FB4C27CD71A33CA870606FA531DC971B6D76645 5.87103
43 375AECA8F0B729CC88F1A1C101FEA4CB7458929C17C579A93E283120BFD519CE931DECB4F9AE74 67950E080DF5A63B92C37DA6C88F08E2430203FD599AE8B0DE6B326382FCAB34247FAA739D2633D D6E49705F15C684F8A0C281CE74D8EF65B121C17C571A53E2830207F950 5.76809
44 C98E4BF2BCD09B1418101FAA8CF74D8EF7597C575A13D28B0205FB531DE951BED366478444F8D0 C080F75267BA2C37DACC88E8BF2BCC203F9539CE9319ECB724386F8AF3427C52603B52A37DA6C4 8F09F35C688F2A1C181BE94C8D769B122C2FC971A33CA870407FAD31DC94 6.64621
Table 4c
45 34A78506040FF6A73AD2633D96D4870DF15DA14141FEB4C7765A6EB55951C16E539913E03FD559 CE8B15EAB724382F8AD35274546041A546FB4D891617E4B9D19E54183037D69AECB2A382FCA73A 27C6870487FA932DD165BCD40BF2DCC88F1A18101FEACCF76586FB5D931C 5.77721
46 CA73227C5868407DAB335D161BDD6E4C705D4F8A0C081FE54A77A5C6FB6DA90E1BE6BAD18283 BD498EE4B0DD6AB22382DCB73223C68467BA6C77AAD494E0BF2BCD49D1518101FEA8F6DB523C 37CD71A13C28B0607FA531DA971848F0DF15C684F0A2C081FE94C77A5C6BB4D9 6.87607
47 20BFD539CE9B1DECB624382F8AF34A7C5061A63B92E36DA6C88D0AF25CE8AF1A1C101FE8586F7 5B931C97A579B13E2832203F5559EE848F0DF15C684F4A0C081FE94C76A546FB4D9B9511E342828 3FD498EE4B0DD6BB22382DC87850E080FF5A67BB2C375AACA8F0B72DCC88 6.09394
48 DE6B724392F4AF3427C5860407EAA33DD16148F09F15C684F4A0C181FE94C77A546FB4D8E5B9D1 1E2438203FD599EE8B2DE6BB26382C8A0C482FE54E73A6C67B2DC92E1BE2BCD29DFD29CEF4A8 D769B122C2FCD71A33C28706053B52A37DA6C48F0BF25C688F2A0C101BEB4D 6.0547
49 23C2FCB73A2BC2870507FA933DD961BED7659566C4F8A0C884FD5567BA6C57BADC94E0BC9E94 58102FD298ED4A8DF69B122C2FCD73A00FF5265BA2CB79AEC98E0BB29CC89F121A1074D8AF55 A929C17C579A93E2A3020BF9519CBDD6E48715F15A6A4F8A0C480FF54E73A6C5 6.30027
50 DD165BED6644705F95E6C4B890D080FF54647BADC90E1BE2BCD29E1498501FCA9CEF4B8D23C2 FC972A23C68505077A933DC961BED764CD89B1419109FEA8CF7458AF55A929C17E5530A03F9529 DE9719EDB6A4786F9AEB467850FED4E77A4C67B6D890E1BE6B8D19E1458300 5.71258
51 27C5462417FAA339D3633D96E4870DF55E68C181FE94D77A5C6FB4D911E15E5B9515E141D519EE 8B1DE6B726392FCAB3426C5060407DC6FB6D890E1BE6B8D09E1458302FD298EF4823C2FCB73A2 3C6850507FAD31DC961BAD765F2DCE8AF1A1C101FEA4C776586EB55911E14 6.26962
52 D991E17E4B9515E3428203FD698EECB0DF692F4AF3627C5864427EAA33DD362BDD6E4A7068CF0 A0C1817E94C76A546BB4D991E17E4B80487BA932DD161BCD6644705F94E6C4F890D673A2C57BA D494E2BF2B4D09F1418105FCA9B1DEEB524382F8AF352745060417FAA33BD1 6.98039
53 24382F8AE34A78526140FF2A73AD2633D96DF25CA88F0A14101DEB4CF725A6FB55911E1413E2C3 2213F5519EE9B1DEEB725382FCAF3581FE94C76A5C6FB6D891617E6B8D11E54381EE4B0DF6AB2 A3C2FCA73A27C6870487FA930375AAC88E0BF2DCC88F1A1C101EEA4CF7659 6.25099
54 DA6C88F0AF25CE8AF0A1C141FEA4C772586D1C97E579A13E2C30203F5519EE9B1DEEB724AE346 7A5160C0BF4A63B52E37DB6CC8F0BF1430243FD4996E8B0DE6BB22382FCA73227C4AAB3DD163B D56A48715F15E6A4E8A0C082FD7458EF55A921C57E569A93A2830203F9539D 6.54994
55 2F4AF3426C5064427FAA33DD362BD56E4A7168CF0A2C0817E94E76A546FB4D991617E4B8438203 DD499EE8B0DE6BB263A2ECA73627C554E73A4C77BADC92E1BE2BCD29F1418501FD8DF6DB322 C27C973A23CA870607FA535DC946C48F09F35CE8CF2A1C181BEB4C772586DB5 6.25162
56 D11E1418303FD29AEE4B0DB6BB223C2FCB71868447DAA335D563BCD6E48705F95E6C4D89FED4 E75A4C67B6D890E1BE6B8D19E9458100969BAD7644785F94E7447890C080F75267B9C98E0BD2BC D89B1419109FEA8CF74D8AF7582FCAF3627C5860407EAA33DD163BD56E4A71 6.06972
57 2C37DACC98E0BB2BCD89F161A111F6A8CF745B921C37D579A53E2930A07F9529D6971BEC85792 E74578D0A080EF5267BB2D37DAAC88C13E2832213F5559EE8B1DEEB524382F8AF3440FF6A53AD 2633D96D48709F15C68CF4A0C0A9CEB498CF6DB123C27C571A33C28B0605F8 5.70754
58 D2E37D96C48709F35C684F0A0C081FE94C74B55911E16E539D11E2438243FD4996E8B0DC38AF8A F352745460417F2A33BD3633DD6C48D19E14182037D298EE4B0DF6BB22342BC9710487FAB32DD1 61BED664C705F94E644F890CEACCF74586F359911D17E579912E2C34223C 6.05831
59 28B0205FA539DE971BED3624585F9AE346790FF5265BA2CB79ACC88E0BB2BCC89F121810CEF49 8CF65B121C37D571A13C2930207FB50DAEC88F0BF25CE88F1A1C101DEB4CF72586D176539B13F 2C30203FD599EE8B1DE6B72438E6C4B890D080FB5466BAAC37BACC98E0BD29 6.002
60 D6648725F956684F8A0C080FD54673A2C779E1BE6BAD09E1458302FD29CEF4A8DF6DB12073227C 6860407FA932DD161BCD6644745F9418105FEA9CE74D8EF65B125C37D571A13C29539DA951AED3 664784F9AE7467950E080DF4A5C6BB4D991617E4B9D11E5418303FD29AEC 6.79504
61 2BCD09F1518101FEA9CE7498EF75B125C17D3CA870606FA535DC971BED3644685792E745088FF5 667BAAC779ADC98E0BD2ACD89B14199DE931BECB624384F8AEB427A506040FF4A4DA6C88D0BF 25CA88F0A1C101DEA4C7765A6D2342FCB72A2BC2870507FA931DC961BAD565 6.17206
62 D599EE8B0DE6B324392F4AB3427C5864407DD2637D96D48709F35D684F4A2C181FED4E74B55951 C17E5B9D13E2430203FD499EE8B0DD5F95A684F8A0C082FE54673A6C77B2DC92E09E1418103FD A9CEF4B8D769B322C2FCD71A060C0FF4A63B52E35DA6C48F09F25CE88F2A1 6.06154
63 7FAA73BD3633D96C4970DF55E684F0A0C0807725C6FB5D911E15E4B9D15E3438283FD698DEEB3 26392F4AB3626C5864407EAAB3DD361E13E6B8D19E1458103FD29CED4A8D769B320A23C6870507 FAD31DC961BED5654705F96E5A14101FEB4CF76586EB55951E16E5B9D13E1 5.80776
64 81FE94E77A5C6FB4D891E13E4B8D19E54180996E8B2DE6BB22382ECA73227C5868407FA8633DD6 E4970DF55C684F8A0C280FE54A75A42342BC973A23C6850407FAD33DC969BED564E644F8B0D088 FB5467BAAC379ACC90E0BF29E2434223FD599EE8B1DEEB724392F4AF3625 5.82436
65 7CD75A13D28B0607FB531DA971AEDB6245854478D0E080F75665BA2C37DAEC98E8BF2BCD18105 FCA8CE74D8EF65B125C17D571A13C28A63BD2C36DA6CC8D0AF2DCA8AF0A14101DE86FB59931 D17E579912E2434223FD599EE8B1644705F94E644F8B0D080FB5666BA2C379AC 6.28397
66 8283FD699EE4B0DF6AB2A382DCB73A27C484AAB3DD162BDD6E4A715F15A6A4F8A8C080FDA5C6 BB4D991617E4B9D19E54383037D298EC64C705D94E644F890C080FF5467BAAC379AC2BCD49F15 18901FEA8CE7498CF65B925C37D27C5060407FAA339D3633D96C4870DF15C68 5.89065
Table 4d
67 7850A0A0EF5A63B92C37DAECA8F0B72DCC89109FEA8CF7458AF55B929C57E579A93E2831531DE 971AED3664785F9AE7467850E080DF56FB59911C176579913E2430223ED599AE8B038AFCAD3527 C5062417F2A33BD263BD96C482BCD09F1518901FEA9CE74D8CF75B925C17D 6.08206
68 868447DAB33DD561BCD664C705F95E684D89FE54A75A4C6FB2D890E1BE2BAD19E9418301EE4B4 DF6AB2A382FCB73A23C4860487FAB30AD490E0BF2BCD09F1518901FCA8CE74D8CF47CD71A33C 28B0605FB539DE971BEDB62458468CF0A0C0817E94C77A5C6BB6D891E13E4B8 6.01325
69 7B2D890E0BEAB8D29E1498503FDA94EF498C2342FC972A23C68704077A931DC961BED565956684 F8B0C080FF5467BA2C57BADC94E2BC28B0607FA531DA971BED3624784F9AE34678F5A67B92C37 DAECA8F0B72DCE89F121C101DEE4B4DD6AB2A382DCA73223C4870487BAB31 5.84218
70 85F96E5447850E0A0FF5A67B92C37DAECA8CCD89F1619101FAA8CF7458AF75B929C57E5528B060 5FB531DE971AEDB664785F9AE74678EACCB74586FB59911D176539B13E2434203CB15EEB72438A FCAF3527C5062417F2A739D1AD494E0BE2B4D09F1518901FEA9CE7498EF4 6.33524
71 705F55C694F8A4C081FE54A77A4C6FB2DA91B9D11E1438283FD499EE4B0DD6AB2A3C2FC8C5064 407EAA339D363BD56A48705F15E6A4CFDA9CEF4B8DF69B123C27CD73A23CA830604961BED7644 705F94E744F890E090FF5267B8B5D951E17E539D11E2438243FD499EE8B2DD 6.34218
72 8E0BB29CC89F161A101F6A8CF7458EF75991571A13E2830207F9529D6971BEDB624386F978D0E08 0EF5A63B92C37DAAC88F0B729CC883F5559CE8B15EAB525382F8AF3527C546041D2E33D96D48F 09F35C68CF0A0C181FED4C75F6DB121C27CD75A13D28B0207FB531DA9519 6.05022
73 73227C6870487FA932DD161BCD664C705D948A0C082FE54E73A6C67B2DC92E1BEABCD29C03FD 298EE4B0DF69B223C2BCB73A23C28705BA2C77BACC90E4BF2ACD09F1619101FAAACD5B121C37 D579A53C2830207FB529DE971BEC705F15C694F8A0C081FED4E75A5C67B2D891 5.9351
74 8DF69B122C27CD71A33CA870406FA535DC95644705D94E6C4B8B0C080FB5466BA2C37BACBE2B CD09E1498501FCA94EF4B8DF6DB121C078D0E080EF5A67B92C375AAC88F0BF29CE891F6A8CF75 58EF35B921C97E579A13E2C3221335D561BCD6E4C705E95E684D8B0C084FD54 5.84302
75 772586FB4D991A15E5B9D11E1428283BD698DE6B326392FCAF3626C5860407EAAB39D16148709F 15C684F4A2C181FE94C77A5C6FB6D873A27C6870407FA932DD965BCD6644705F940C084FF5567B A6C57AADC94E0BE2BCD09D153F5519EE8B15EAB52538AF8AF3427C506041 6.13354
76 89F1218101F6A8CF74586F759931C97E559930203F9529D6971BECB6A4786F9AEB427851F5263B92 C375AAC88F0BF2DCC88F1A1C121CB1DEAB525382FCAD3427C5460417FAA339D048709F15D684F 4A2C081FE94C76A5C6FB4D97CD71A13C28B0207FA531DE951AED3664784 6.00828
77 7458EF75B921C17E579A93E283120BFD519CEDB664584F92E34678506080DF4A6BB92E348E8BF2 BCD89F161A111FEA8CD7458EF759903427C506140FF2A53AD2633DB6D4870DF35DC181FEB4D77 25C6DB5D911A17E5B9D11E141FAD35DE961BED7664685792E7447850A0A0C 6.27564
78 8A0C480FF54677A4C77B2D892E1BEABCD09D03FD698EF4B0DB6BB22342BCB73A2BC6850433DD 163BDD6648705E95E684D8B0C080FF55F6DB523C27CD75A33D28B0605FB531DE971985F96E5447 850E080FF5267B92C375AEC88CB9D15E3438203BD498EE4B0DD6BB22382FC9 5.88433
79 6040FF4A73BD2E37DA6CC8F0BF25C68CF2A0EA4CF74586FB59911C17E539B12E2434203DE9319ECB724386F8AE34A7C5260407F6A538D911A15E4B9D15E1428283FD699EE4B0DD68CAF3627C486 0447FAB33DD563BCD6E4C705C89F161A101F6A8CF7458EF35B921C17A5599 5.95859
80 9E9458303FD29CEF4B8DF69B323C2FC971A10487BA932DD965BCD6644745F95E6C4F890D54673A 4C77BADC90E1BEABCD09F1418501FD1BED7644685F96E7447850E080FF5263B92D8E8BB2BCD89 7161A101FEA8CF75586F75B90CA73627C5868407DAA33DD163BCD6648725D 6.54896
81 63BD96C4970DF15E694F8A0C080FE54E75A4D911A15E4B9D15E3438283FD699EE4B4DD692FCAF3627C5064427FAAB39D162BD56E48709E1458303FD298EF4B8DF6DB322C27C973A007FAD33DD9 61BED7654705F94E744F890E094CF72586EB5D951E16E539913E2438243DD5 5.87521
82 9DE9319ECB6A4784F8AEB42785160C0BF4A537DAECA8E0BF29CC89F1A18121EEA4CF7658921C17C579A13E283020BFD539CE9B19ECB45CE88F2A0C181FE94C77A586DB4D991E15E4430243FD59 96ECB0DE6B326382FCA73627C40F75667BA2C37DAEC98E0BF29CD897121A10 6.03187
83 67BA2C77BAD494E2BF2BCD49F1418905FCA88D76DB322C27C971A23CA830606FA531DC9464C705D95E6C4B8B0C088FF5466BAAC779AD571A13E2830A07F9529DE931BECB6A4386F950E080FF5A 63BD2C37DA6C88F0BF2DCE88F103FD69AEE4B8DF69B323C2FCB72A2BC28505 5.95608
84 996E8B2DE6BB22382FCA73225C4860407DA863BDD6E4970DF15E694F8A4C281FE54A75A4D991E 15E4B9D15E1428283BD499EE4B0DD6995E6C4D8B0C880FF5467BA2C57AAD490E0BD1418103FDA 9CEF498CF6DB521C37CD71A33D40FF6A73AD2E33DB6C48F0DF15D684F0A0C0 5.87135
85 64C705D95E644F890C088FB5467BAAC77BACBFABCD29F1418501FCA94EB498CF65B121C1A23C 68505077A931DD961BAD7644705B96E4101FAA8CE7458AF75A921C57E569A13A2A309D69319ECB 624384F8AEB46785160C0FF6A5C67B2D890E13E6B8D19E9458303FD298ED49 6.11214
86 9A93E2A31203F9539DE9B19EEB624B86FAAC5060C0DF5A6BB92E37DA6C88F0AF25CE8AF01F6A CCF7558EF759921C17A579B1362C3220D2E33DB6D48F0DF35D684F0A2C181FE94C74D911E17E5 B9515E3438283FD698EE4B4DD6885F92E74478D0E080EF5267B92C37DAAC88D 5.87287
87 6FB59931C176579912E2C34223ED519EE8B024382FAAF34A7C526140FF2A73BD2E37DB6CF25CE8 8F1A14141DEA4CF725A6EB55911C14C5060427EAAB39D162BD56A48705F95E684DFE54E77A4C6 7B6D891E13E6B8D09E14181019DE9319EDB6A4784F8AEB42785160C0BF4A5 6.0007
88 91E17E6B9D11E14183037D298EF4B0DF6BB0CAF3225C5860447DAA335D563BCD6E4C725D4F0A0 C280FE54A75A5C6FB6DA90E1BE6BAD1077AD33DC961BAD5654785F94E7447890C09BA2C379AC C98E0BD2ACD89B1618109FEA8CCDE6B326382FCAF3627C5064407EAA339D360 6.94574
Table 4e
89 6C48F09F35CE88F2A1C181BE94C772586FB417E579913E2C34223ED519AEAB1DEEB72639342785 06040FF2A73AD2E37D96D48F09F35D8203BD698EE4B0DD6AB2A3C2DCB73227C68533DD161BCD 6E48705E95E684F8A0C080FD54586F759921C17E559B13E2832203F5559EE8 6.13544
90 929C17E569A93E2830203FD539CE9319EEB5F9AE3447950E0C0FF5A6BB92C36DAEC88F0989F161 8111FEA8CF75586F75B921C17A579940FF2A73AD2E33D96C48F0DF15C684F4A0C077A5C6FB4D91 1E15E4B9515E3438203FD4981B6D7664685F96E7447850E0A0EF5267B92D 6.25857
91 684F4A2C1817E94C76A5C6FB4D891617E4B9438203DD499EE8B0DE6BB26382FCAF3225C47F2A3 3BD363BD96C4870DF15E684F8A0C2814B0DB69B223C2FCB73A2BC68504077AD33DC644705D95E 6C4F8B0D088FB5466BAAC77BAC17E539B12E2C30223FD599EE8B1DEEB32638 5.85846
92 969BED5654705F96E644F890E080FF5265B8ADC90E2BE2BCD49D1518105FCA9CE7498EF5C27CD 73A33CA870606FAD31DC961B6D366448971618111FEA8CD7458EF75B921C17E5799203FD519CE9 31DECB724B86F8AE34278506154E77A4C67B2DC90E0BE2BCD29F1418503FC 5.82355
93 6BB22382ECAF3227C4860447DAA33DD563BD705F55E684F0A4C081FE54A77A4C6FB6D891B9D15 E3438203BD498EECB0DD6AB2A382DC80C884FD5567BA2C57BAD490E2BF2BCD49F15A9CEF498 CF65B121C27C571A13C2830607F9D2633DB6D48F0DF35D68CF4A0C181FE94C74 6.00051
94 9566C4D8A0C084FD55673A2C57AADC94E2BD9E9418103FD298EF4A8DF6DB123C2FCD73A10407 BA933DD165BCD6644705D94E6C4F890DCE74D8EF65B121C37D571A13E2930A03F950ED3624584 F92E34479506080DF4A63B92E3591E17E6B9D11E14383037D298EF4B8DB6BB1 6.48422
95 40FF6A73AD2E33DB6C48F09F35C68CF4A2C14C772586EB55951C17E5B9D13E3430243FD4B15EA B725382FCAF342745460407F2A339D191E17E6B8D11E5438303FD29AEE4B8DF6BB173A27C68604 87FA933DD161BED764C705F94F121C101FEACCB76586F35D931D17E539911 5.90759
96 BE2BCD09F1498503FDA94EF498DF65B121C0A23C28505077A933DC961BAD5644705B96E50C884F D55673A2C77AAD490E0BF2B4D49F15539DE951AEDB664785F9AE344795060C0DF437DAACA8F0B F2DCC88F121C101EEA4CF7458B2A382FCA73227C6860487FA932DD161BCD5 6.5396
97 430243FD5996E8B0DF6BB263A2FCA73627C47FAA739D263BD96C49705F55C694F0A0C28077A5C6 DB5D991A15E5B9D11E1428283BD498D6E48725F95E6C4D8A0C880FD5467BA2C578BE2BCD09E14 18503FDA9CEF4B8CF65B121C034A78526140FF2A73AD2E33D96C48F09F15C 6.09041
98 BDD6A4A715F95E6A4F8A0C480FE54677A6C591613E6B8D19E54183037D69AEE4B0DF6BB0CA732 25C5860407DAA335D561BDD6648725D1418103FCA9CEB4B8CF6DB523C27C575A13DFA531DC961 BED7644685F96E54578D0E0A0D77A586DB4D911A17E4B9D11E1438283BD698 6.28286
99 4785F94E7447890C090F75665BB2CB7DACC92BCD09D1518905FEA8CEF498CF65B921C37C3CA87 0606FAD35DC961BED7664785F96E7441FEA8CD7458EF759921C17A579A13E283021E931DEEB624 B86F8AF3427C506140FF2A5387B2D890E0BE2B8D29E1498501FDA94EF4B8C 6.22803
100 B9D15E1438203FD499EECB0DF6AB2A3C2DC9C5064407FAA33DD163BD56E4A715F15E684D817E 94C77A546FB4D891E13E4B9D19E54180DD165BED7644745F94E644F890D088FB5464ADC90E0BF2 BCD49F1518905FEA9CEF498CF4382FCAF3527C5060407F2A739D263BD96E48 6.07452
101 4478D0E090FF5265BA2C37DAEC88E8BB29CC18901FEA9CE74D8CF65B125C37D579A13C28FAD3 1DC961BED7664785792E7457850A0A0D58EF759931C17A579A13E2C32203FD519EE824386FAAE3 427C526040FF6A53AD2E33D96CBE2BCD29E1498103FDA9CEF4B8CF65B123C0 5.83685
102 BAAC37BADC90E4BF2BCD09B1618101FAAACCF6DB523C27C571A33D2830205FA531DA97184705 F96E7447890C090FF5267BA2CB79ACC99A13E2A31203FD539DE9319EEB624386F8AD60C0FF6A63 BD2A37DA6C48F0BF35CE88F0A1FD298ED4A8D769B322C27C971A23CA830604 5.97044
103 4F0A0C281FE54A75A4C67B2DA90E13E2B8D08283BD499EECB4DF6AB223C2FCB73A27C685AAB3 9D162BD56A48705F95E6A4F8A0C080FD8D76DB122C2FC973A23C2870607FA535DE944785F96E74 4F8D0C080FF5267BB2C37DACC8E539D11E3438243DD599EE8B2DF6BB263A2D 6.06914
104 B15EEB72438AFCAF3527C5062407FAA339D06CC8F0BF35CE8CF0A1C181FE94C7725C6DB417653 9B12E2434203FD599AE8B1DEEB324394F8A0C281FED4E75A5e6FB6DA91E1BE6B8D103FD698EE4 B8DF6BB223C2FCB72A2BC68705A6BBD2C37DAEC88D0AF25CA8AF0A1C101DE8 5.99957
105 4CF72586FB5D951C16E5B9913E2438243FD5B15EAB724382FCAD3527C5460407F2A339D16C48B0 BF25CE88F2A1C181BEB4C772586FB4CA73627C4860407DAA335D163BDD6E48705D8A0C080FF54 E73A4C77B2DC90E1BEAB8D09C203F9539CE9319EEB624382FAAF34A785261 5.91873
106 B2A3C2DCA73A27C4870487BA932DD161BED45F95E684E8A8C082FF54E73A6C67B2DC92E0D19E 5438203FD29AEE4B0DB6BB22342FCB71088FF5466BA2C779ADC90E0BD2BCD09F1418CEF498EF6 5B921C37C579A13C2830A07FB51633DD6C48705F15C684F8A0C280FE54A75A4 5.72081
107 48F09F15D684F4A2C081FE94C76A546FB4D9E539913E2438243FD5996ECB0DE6BB263A2D274506 2417FAA33BD363BD96C48705F55E6903FD298EF4B8DB6BB22342BCB72A23C28705DD965BED764 C705D95E644F8B0D088FF54656F359931D17E579913E2C34223FD599AEAB0 6.24847
108 B624386F8AE3427A516040FF6A63BD2E37D90B729CE89F1218121FEA4CB74586F359911D9A13A28 3120BF9539DE9B1DECB724386FAADC181FEB4C772586FB4D911E17E5B9515E34199EECB0DE6B3 26382FCAF3227C5868447DA82CB79ACC98E0BF29CD897161A101F6A8CD75 5.84184
109 488DB69B323C2BCB73A23C68705077AD31DCD6E4C725F95E6C4D8B0C080FF5467BA6C578E1BE 2BAD09E9418103FDA98ED4A8DF6DB1214478D0C090FF5265BA2CB7DAEC88E0BF2BCD109FAAA CF74D8AF55A929C57E569A93E2831AAB3DD163BD56E48715F95E684F8A8C082FD 6.1246
110 B55911E16E5B9D11E3438243DD4996ECB0DD382F8AD3527C5462417FAA73BD263BDD6E485CE8C F0A1C101FE94D772586FB4D911A17E5868407DAB335D163BCD6E4C705F9566C4F8954673A4C77B 2DC92E1BE2BCD09E1418501FCE9319EEB724386F8AF34A7C526040FF2A538 5.80747
Table 4f
111 5F95A684E8A0C482FF54673A4C67BAD890E0D19E5438203FD69AEE4B0DB69B323C2BCB7086044 7FAB33DD161BCD6E4C725F9566C4F89A9CEB498DF6DB523C27C571A33D28B0607F81B6D364478 5796E54478D0E080FF5263BB2DD911A15E4B9D15E1438283FD499EE4B4DF69 6.23013
112 A1C141FEB4CF76586EB5D951C16E5B9D11E13F5559EE8B15EAB72538AF8AD3527C5062403BD2E 35DB6C48F09F35CE88F2A1C181BEB4C6B326382FCAF3227C5860407DAB335D561BC5F15E684F8 A0C080FF54E77A4C67BAD892E19A93E2831203FD539CE9319ECB624382F8AC 5.96117
113 5C68CF2A0C101FE94D772586FB4D911E15E4E2C30203FD519AEAB0DE6B326382FCAB3424407F2 A53AD2E37D96D48F0DF15C684F4A2C0EE4B0DF6AB223C2DCA73A23C6860407FA931D6E48705F9 5E6C4D8B0C080FF5467BA2C7781C17A579B13E2C32213FD519CE8B15EAB724 6.32939
114 A2BC2870507FA931DC969BED5654705B94E40C884FF5467BA6C57AADC90E0BE2BCD09D14FD29 8ED4B8D769B323C2FCD73A23CA8304042C37DACC88E0BF29CD897121A111F6A8CF74921C17C57 9A13E283020BFD519CE931DEEB55F15E684E8A0C480FF54673A4C67B2D890E1 5.99404
115 586F35B921C97A579A13E2C30203FD519CE9B6A4786F9AE346785160C0BF4A73B52E35D80B729C C89F1A18121FEA4CB76586FB59911C27C5462407FAA739D3633D96C4970DF55C6881FED4E77A5C 6BB4D891E13E4B9D19E54381531DE971AEDB664785F92E3447850E080FF4 5.96885
116 A63BD2E36DA6CC8D0AF2DCE88F1A1C101FE9586F35B921C17E579A13E2C30203FD559CE9B6243 86F8AE3427A516040BF4A63BD2E37D9E5B9913E2438203FD599EECB0DF6B326382CC5860427FAA B39D362BD56A48715F95A6A4C109FAA8CE7458EF55A921C17C579A13A2A30 6.58194
117 5B925C17C571A13E2930A07FB529D6931BEC85F96E74478D0E0A0FF5A63B92D37DAECA8CCD89F 1419109FAAACF7458EF75B921C57C5560C0FF6A63B52E37DA6C48B0BF35CE88F0A14CF765A6EB 5D951C17E5B9D11E2438203DD4961BED5644785F94E744F8D0E080FF5267B8 6.07393
118 A546FB4D891E13E6B9D19E54382037D698ED6BB223A2ECAF3225C5868407FAA33DD561BD70DF5 5C684F8A0C281FE54E75AAC6FB2DA91A23C6850407FAD31DC961BED5644705F96E5080FF5467B AAC379ACC98E4BF2BCD09F1418D599EE8B0DEEB726382FCAB3627C5864407D 5.98986
119 506080FF5A6BBD2C36DA6CC8F0BF0BF25CA8AF01FEACCD74586F359931C17E559B1362830219D E9719ECB624386F9AE3467A5060C0FF6A4B5D911E16E539913E2430243FD5996ECB0DD2F4AF362 7C5060407EAAB39D162BD56A4A70CD09F1418101FEA8CE7458AF75A929C57C55 6.02742
120 AEB427A516040FF4A63BD2A35DA6C48B0BF0F1A1C101EEA4CB74596F35D911D17E539B1120BF9 519CE931DEEB624B86F8AF3427C5061772586FB4D991E17E5B9D15E1428203BD4996B322382FCA 73225C4860447FAA33DD563BC8E0BB2BCC89F161A101F6ACCF74586F35990 5.91514
121 539DE971BED3624784F92E7467850E080DF42C379AEC88E0BB29CC8971618101F6A8CD745B125C 37D571A53C2930207F9539D6931BEDF2DCE8AF0A1C141DEB4CF725A6FB55951C14E2430223FD5 99EE8B0DE6B724392F4AF3625080FB5467BA2C37BACC90E0BF2BCD89F1418 6.07394
122 AD490E0BF2BCD49D1418101FCA8CE74D8CF4C27CD71A33CA870606FAD31DC971BED76445E644 F8B0C080FF5666BA2C37BADC90E0BF2830207F9539D69319EDB624784F9AE3467A51A6BB92C36 DA6C88F0AF25CE88F1A1C141DE94B0DF6BB223C2BC973A23C68704077AD33DD 6.10105
123 571A13C2830A07FB529D69319ECB6A4786F97850E0A0EF5A67B92D375AAC88E0B729CE89101FEA 8CF74D8EF75A921C17C579A93A2A303BD2E35DA6C48F0BF35CE88F2A0C101BE94DB5D951C17E 539D13E3430243FD4996E8B0DD4705F96E6447890C090FF5267BA2C37DAEC9 6.7399
124 A9CEF498CF65B121C37CD75A13C2830207F8961BAD5644785B96E744F8D0E090FF5265B8AD494E 2BF2B4D49D1518901FEA9CEF4D8EF4F9AE3447950E0C0FF4A6BB92C37DA6CC8D08F1A1C101FE A4CB74596FB5D911C17E539B100487FAB32DD161BED764C705F95E6C4B8B0C 5.82982
125 54677A4C77B2D892E0BE2BCD29F1418103FC4B0DF6BB22342BC973A2BC68704077A931DDD6648 705E956684F8A0C884FF55673A2C7797CD75A33D28B0605FA531DA971BEDB62478478D0A0A0FF5 A67B92C37DAECA8E0B729CE888283FD498EE4B0DD6BB22382FCB73A27C484 5.96992
126 AAB39D162BDD6A4A705F95E6A4F8A8C482FCA546BB4D991E13E4B8D11E5418203FD698EC6BB26 382FCA73627C5860447FAA33DD163BCBE2B8D29E1418503FDA94EF498DF65B523C03CA870606F A535DC971B6D3664785F92E545C101FE94C772586FB5D911E15E5B9511E140 6.76565
Number N when transmitting antenna tBe 2 and counting of the IFFT/FFT that in ofdm communication system, uses operation be 1024 (that is, N t=2, N FFT=1024) time, can represent R (r) by following equation 6, and can represent T (k) and q by the hexadecimal number shown in table 5 and table 6a to 6d IDcell[m].
Figure S05807074720060912D000232
Table 5
Residential quarter ID Sequence papr Residential quarter ID Sequence papr Residential quarter ID Sequence papr
0 C9A1F9FB33E2 5.73908 43 13CBBBDD1888 5.25927 85 B639EE82C328 5.71509
1 C615462A8D6E 5.69178 44 34B0D91482A7 5.43386 86 6414C0DB128C 6.26365
2 D8400C1E2B47 5.67259 45 0DB3ECE942B0 5.40054 87 08FEAB4846B9 5.5487
3 DBCF1478431C 5.91286 46 A4D876BF7C4E 5.45618 88 7E160C4BA0F0 5.7677
4 CC93B30C0EB9 5.55863 47 7D492A0F5B39 6.40321 89 5CCA9AF7C373 5.61368
5 C6F3D332B053 5.3082 48 C82DA6102B09 5.31582 90 21B3DF421DE7 5.43398
6 9BA4E419EBB5 5.5186 49 F68C09C7D629 5.1445 91 9323DD2F2771 5.2348
7 48FD85CD7E76 6.11686 50 4D6C3B62D026 6.44183 92 A26015CF1514 5.78478
8 E992B4493831 5.69693 51 EBD13D02E539 5.35096 93 8220CF898D60 5.43634
9 4E1401A862B5 5.92235 52 760432EDBC5B 5.42816 94 8CCEC410F8A6 5.33904
10 9D3239BF5543 5.50286 53 022040211B53 5.58372 95 4FFDECD6D0E0 5.50659
11 2B8584BFB3D8 5.19875 54 2663067DE01D 5.50621 96 42D052099826 5.68271
12 AB42706F96A0 5.44334 55 C0776A8DD057 5.29609 97 8785DFDA586A 5.2863
13 9DB123495FB7 5.63328 56 96117C9722E1 5.61786 98 68DDF31B930F 5.65759
14 A6EFBCB2865D 6.0094 57 204C31E521C4 5.27659 99 F0539BCDAACB 5.6598
15 709300E57360 5.73209 58 C8C12F23551B 5.70925 100 372C0613FE2C 5.21517
16 6E2122FC796F 5.82368 59 1217E2F687C1 5.51497 101 37402B2A80A9 6.29655
17 7F01F8B4454F 5.47779 60 DBF86CB15B3B 5.57367 102 523AE3212125 5.41681
18 CDF8525E2FF7 5.33406 61 BCC4EC437886 5.94074 103 02EDF46F9694 5.47569
19 0AC1FA2585A5 6.24242 62 AA2734F33EF9 5.71983 104 E64CC083190E 5.71759
20 46843DFB1135 5.65053 63 CBA739A84A4D 5.96463 105 65DE3871D0D1 5.80455
21 8B411A6D7235 5.524 64 E12166CA6DF5 5.64715 106 7808E3E5FE8E 5.88159
22 096A3287FE74 5.65888 65 DE42128CD418 5.16399 107 070004E13E81 5.79589
23 E26CD654FF1A 5.89291 66 F90F21A0B95F 5.52101 108 1CE29934CF8D 5.33859
24 D955EFF989FE 5.90035 67 DCC08885C1D0 5.34739 109 52B8A394BDBC 5.9872
25 882566402741 5.62867 68 152AFEFAA90D 5.34108 110 1A13C7DB3016 5.31546
26 9FCD0AB3FCF8 5.79711 69 CB30CE0D8CD2 5.89277 111 CE75430244B7 5.40294
27 8E477A39DA36 5.45249 70 849C1C0DA6A3 5.64765 112 DD89BD52F023 5.81172
28 83740061371F 5.42528 71 B8177804D737 5.78193 113 6B98276F9841 5.59191
29 179FBF270668 5.59438 72 693BE40CEE81 5.6998 114 6610C6E6E48A 5.56389
30 0B4738E24AE1 6.26907 73 632921AF950C 6.29239 115 D753E680DA0C 5.15097
31 9BD23A217294 5.83321 74 C4D296ABB9B0 5.55821 116 2C4F3846B73B 5.61595
32 E783A99153C7 5.57411 75 08DCE8EE0E46 5.61434 117 2CF0C114CDE6 5.32662
33 60690386D94B 5.56542 76 616A6B8637F3 5.29314 118 402321DA1EE8 5.54017
34 EEB11CF6A279 5.61602 77 DB69C2C67E5F 5.67251 119 9B1C5FA285FF 5.46826
35 17737FC0364B 5.46925 78 B7922C4D47E0 5.54227 120 89CCD4198A39 5.81874
36 DBA832CB29FF 5.46318 79 5A4273474A62 5.41366 121 8CCC9E1070AA 5.47071
37 841030AA2B58 5.66141 80 50082E465126 5.57391 122 A6F8618DABA3 6.12696
38 573AE8A1189A 6.49919 81 2E3844099ABD 5.27701 123 068DC6397B4C 5.86346
39 26EF1E523190 5.45727 82 F8EFB7F0CE2F 5.76264 124 860C87D27677 5.84626
40 45F27228B846 6.37869 83 64B7E857C964 5.89799 125 B28A7B2A0082 6.26524
41 D26C39A8D803 5.63232 84 5B4DDAF2A8D1 6.02566 126 1F2FB417DDEB 6.103
42 4514BB4432A6 5.74245
Table 6a
Residential quarter ID Sequence papr
0 FED4E75A4C6FB2D891E1BE2BAD09E1418101EECB4DF6BB2A382DCB73A27C6870487BA B31BD56A4A715F15A6A4F8A8C482FE54673A6C4 5.73908
1 03FD698EE4B0DF6BB22342BC973A23C68505335D561BCD664C725E956684F8A0C880FF5 4C6FB2D890E1BE6B8D19E1458302FDA9CEF48 5.69178
2 FDA9CED4B8DF69B122C27CD71A23C2830404DD161BCD664C745D94E644B890D088FF56 647B2D892E0BEAB8D29F1418501FCA94EF4B8D 5.67259
3 07FAD31DD969BAD7654785F94E644F8D0E09673A2C57BAD494E0BE2B4D49F1518901FCA 88D76DB122C27C973A33C2830407FAD35DC94 5.91286
4 F9AE7447850E0C0DF4A6BB92C37DA6C88F0989F121A111F6A8CF75586F359921C97E5598 30203F9529DE971BECB6A4386F9AEB427851 5.55863
5 0487FA932DD165BED664C745F95E644B8B0D54E77A4C77B2D892E1BE2B8D29F1418103F C4B8DB6BB32342BC972A23C68505077A933DD 5.3082
6 FAD31DC971BED3664785F92E7447850E080CBAAC77BACC90E4BD2ACD09B1419109FAA8 CDF6DB523C27CD71A33D28B0207FB531DE9519 5.5186
7 0F75665BA2CB79ACC88E8BF2BCD89F161811CEF498CF65B125C17D579A53C2830A07F95 11B6D7664785F96E7447850E0A0FF5267BB2C 6.11686
8 F1A1C121EEACCB74596FB59911D176539B1020BF9539DE931DECB624386F8AE34A78506 1A63B92E37DAEC88D0AF25CA8AF1A14101DE9 5.69693
9 0C084FD5467BA6C77AAD490E0BF2B4D49D14FD298ED4A8D769B123C2FC973A23CA8304 04DD165BED6644705F94E6C4B8B0D080FF5465 5.92235
10 F2DCA88F1A1C141DEB4C7725A6FB55911E141362832213FD519CE9B1DEAB72538AFCAF3 56040FF4A73B52E35DB6C48F09F25C688F2A1 5.50286
11 080FB5666BAAC37BADC98E0BD2ACD09F1419A9CEB498CF65B521C27CD71A33D28B0607 F9969BAD7654705B96E744F8D0C090FF5265B8 5.19875
12 F6DB123C27CD71A33D2830605FA531DA97184705F96E7447890C080F75667BA2CB7DAEC 92BCD09D1518105FEA8CEF498EF65B121C17C 5.44334
13 0BF29CC89F1A1C101FEACCB76596F359911D9A13A2A30203F9539DE931DECB624B82F8A D5060C0DF5A6BBD2E37DAEC88F0BF25CE8AF1 5.63328
14 F5A63BB2C375AECA8E0BF2DCE88F1A1C121D74D8AF75B929C57C569A93A2A31203F953 9CEDB624584F92E746785060C0DF5A6BBD2C35 6.0094
15 1F6ACCF75586F359921C97A559B1362832219D69319ECB624384F8AEB467A506040FF4A53 75AECA8F0B729CE89F121C121EEA4CB7458 5.73209
16 E13E6BAD09E9458302FD298EF4A8D769B12173223C6860407BAB32DD965BED754C745D9 48A0C482FF54E73A4C77B2DC92E0BEABCD29D 5.82368
17 1C17E579B13E2C32213F5519CE8B15EAB525AEB467A5160C0BF4A63BD2A37DB6C48F09F 0F121C101EEA4CF74596F35D911C17E579B11 5.47779
18 E2C34203ED599EE8B1DEEB726392FCAB3424407F6A53BD2633DB6C4870DF15D68CF4A2 C04C7725A6EB5D951E17E5B9D13E3430243FD5 5.33406
19 18101FCA8CEF498EF65B925C17C571A13C29FAD35DE971BED3664685792E7447850E080 DBAAC379ACC90E4BD2BCD89B1618101FEA8CD 6.24242
20 E644F890C080FF5666BAAC379ACC90E4BD281418103FDA9CEF498DF6DB523C37CD71A3 3F077A931DD961BAD5654705B96E74478D0C09 5.65053
21 1BED3644685F92E7457850E080EF5263B92DC90E0BD2BCD89B1618101FEAACE74D8EF55 97C575A33D2830207FA531DA971BED3664585 5.524
22 E539911E2438203DD5996ECB2DE6BB3223A2C2745062417F2A33BD263BD96C48705F55E69 C181FEB4D77A5C6FB4D911E17E5B9515E140 5.65888
23 109FEAACE7458AF75A921C57E569A93E2830539DE951BED3664784F92E744795050C0DF4 2CB7DAEC98E8BF2BCD8971218111FEA8CF74 5.89291
24 EECB4DD6BB2A382DCB73227C4870407FA931BDD6E4A705F95E6A4F8A8C482FF54E73A4 C591E13E4B8D19E1418303FD69AEF4B8DF6BB0 5.90035
25 13E2830203FD519CE8B15EAB724382FCAD356040FF6A63B52E37DA6C48F09F25C688F0A 0FA4CB76586F35D931D176579912E2430203D 5.62867
26 EDB624585F9AE7467950E0C0DF4A6BBD2C358E0BB29CC89F121A101FEA8CF75586F35B9 1579A53E2930A07F9529DE971BEDB6A4384F8 5.79711
27 17E539912E2C34223ED519EE8B0DE6B726393427C526140FF2A73AD2633DB6D48F09F15D A1C141DEB4CF725A6EB55911E17E539D13E0 5.45249
28 E9B19ECB624382FAAF3427C5261407F6A538DA6C88D0AF25CA88F0A14141FEA4C772586 D1C17A579B1362C32213F5519CE9B1DEEB725 5.42528
29 1418101FDA94EF4B8DF6DB121C37CD75A33D07FA933DD969BED7654705B96E64478D0E0 9673A2C57AAD494E2BE2B4D49F1418901FCA8 5.59438
30 EA4CB74586FB59931D176579912E2434223DE9319EEB724B82F8AE34A7C5260407F2A738 DA6CC8D0AF2DCA8AF0A1C141FEA4C772586D 6.26907
31 3FD519CE9B1DEAB72538AFCAD352745062403B52A37DB6CC8B0BF25C688F2A0C101BE9 4D6F35D931D176539B12E2C30203FD519EE8B0 5.83321
32 C181FEB4C7725C6FB5D991A15E4B9511E341D599AEAB0DEEB324392FCAB3427C5060407 DD2637D96D48709F35D68CF4A0C0817ED4E75 5.57411
Table 6b
33 3C2870606FA531DC961B6D7664685F92E545080FB5466BA2C37BADC98E0BD2ACD09F161 8A9CEF498DF6DB121C37C575A13C28B0207F9 5.56542
34 C2FCD73A23CA870606FAD31DE971B6D36445E644B890D088FF5466BAAC77BADC90E4BF 281498103FCA94EB4B8CF65B523C37CD71A13D 5.61602
35 382F8AD352745462417F2A73BD3633D96E495C68CF2A1C181FEB4D77A5C6DB4D911A15E 4E2430223FD519EEAB0DE6B724382FCAB3625 5.46925
36 C6FB6D891E1BE2BAD19E9418302FDA98ED48B22382FCB73223C6860487FA932DD961BE D55F15A6A4E8A8C080FF54E77A6C77BADC92E1 5.46318
37 3BD2A35DA6C48F09F25C688F0A1C101BE94C6F359931D176539912E2C30223ED599AEAB 024382FAAE34A785261407F6A53BD2E33D96C 5.66141
38 C5064407FAA33DD363BD56A4A715F95A6A4C81FED4E76A5C6BB4D891E13E6B8D11E141 81996E8B0DF6BB22382ECAF3225C5868407FA8 6.49919
39 30203FB529D6971BECB6A4786F8AEB467A51F5263B92D37DAECA8E0B72DCC89F1218121 C7458AF75B921C17C579A93A2831203F9519C 5.45727
40 CE74D8CF65B125C17D579A53E2930203FB501B6D7664785792E7447850A0A0EF5A63B92C C98E0BF2BCD89B1418101FEA8CE7458EF758 6.37869
41 33DD561BDD6648725E9566C4F8A0C884FD54C67B2DA91E1BE2B8D19E9418302FDA98ED 48B2A3C2DCB73A23C4860407BA932DD161BED5 5.63232
42 CD09F1418101FEA8CF7458AF55B921C57C5428B0207FB539DA971BED3664584F92E74478 0F75267BB2C379AEC88E8BB2BCC897161A10 5.74245
43 375AAC88F0B729CE89F1A1C101EEACCB7659929C17E579A93A2A3120BFD519DE9B1DEC B5F92E3447950E080DF4A6BB92C36DAEC88D08 5.25927
44 C90E0BF2BCD09F1418109FAAACF7458AF5587CD75A13D28B0205FB531DA951BED366458 444F890C080F75267BA2CB79AEC88E0BF2BCD 5.43386
45 34278506040FF6A53BD2E33DB6D48709F35DA1C141FEA4CF76586EB5D951E16E5B9911E 13F5559CE8B15EAB72438AF8AF35274506040 5.40054
46 CAF3227C4860447DAA33DD561BDD6E48705C4F0A4C281FE54E77A4C6FB2DA91E1BE6BA D18203FD699EECB4DD6AB223C2DCA73A27C684 5.45618
47 203FD539DE9B1DECB724386F8AE34A785061A63B92E36DAEC88F0AF25CA88F0A1C141F E9586F759931C97A579B1362832213FD519CE9 6.40321
48 DEEB724382FCAB3426C5060427EAAB3DD16148F09F35C684F4A2C0817E94C77A546BB4D 8E539913E2438203FD5996E8B0DE6BB22382D 5.31582
49 23C2FCB73A23C6870407FA931DC969BED564956684D8A0C880FD5567BA6C57AAD494E2B D9E9458103FD29CEF4A8D769B322C2FC971A1 5.1445
50 DD165BCD664C745D95E644F8B0C088FF54647B2D892E1BEAB8D29F1418503FCA94EB4B8 C23C2FC973A23C28504077A933DC961BED764 6.44183
51 27C5462407FAA33BD363BDD6C49705F15C69C101BEB4D77A5C6DB5D911A15E4B9511E34 0D599EEAB0DE6B724392F4AB3627C5860407D 5.35096
52 D911E17E5B9515E3428203BD498EE4B4DD682F4AB3627C5060427EAAB3DD362BDD6E487 168CF0A2C181FED4C76A546FB4D991E13E6B9 5.42816
53 24382F8AE342785260407F2A73AD2633D96CF25CE88F0A14101DEA4C7725A6EB55911C15 1362830213FD519EE9B15EEB525382F8AF35 5.58372
54 DA6C88F0AF25CE8AF0A14141FEA4C7725A6D1C17A559A1362C32203F5559EE9B1DEEB52 5AEB467A506040BF4A63B52A35DB6CC8F09F1 5.50621
55 2FCAF3426C5060407EAA33DD363BD56E4A71684F4A2C081FE94E76A5C6BB4D891E17E4B 9438243DD5996E8B0DE6B326382FCA73627C5 5.29609
56 D19E14183037D69AEE4B0DB69B32342BC971860447FAB33DD561BCD6E48705F9566C4F8 9FE54A77A4C67B2DA90E1BE6BAD09E1418101 5.61786
57 2C379AEC88E0BB29CC8971618101FEACCD745B121C37D571A13C2930A07FB529D69719E D85792E7447850A080FF5A67B92C375AEC88C 5.27659
58 D2E37D96C48F09F15C68CF4A0C0817E94C75B55911E16E5B9D13E3430203FD4996E8B2D D382FCAD352745460417F2A339D363BD96E49 5.70925
59 2830205FB531DA971AED3624585F92E746790FF5667BA2C379AEC88E8BF2BCD897161A10 CEF49ECF65B125C37D579A53C2830203F951 5.51497
60 D6E4C705F95E684F8B0C884FF5567BA2C578E13E6BAD09E9458102FDA98EF4B8D769B12 173227C4870487BAB33DD161BED764C705F95 5.57367
61 2BCD09F1518905FCA8CEF4D8CF65B125C17C3CA870606FAD35DC961B6D7644685792E74 5080FF5667BAAC379ACC98E0BD2ACD09F1618 5.94074
62 D599AEAB0DEEB326382F4AB3626C5064427DD2633DB6D4870DF15C68CF4A2C1817E94E 75B55911E17E5B9D13E2438243FD599EE8B0DD 5.71983
63 7FAA739D263BD96E4970DF15E684F0A4C281772586FB5D991A15E5B9D11E3428283BD498 DE6B724382FCAB3626C5064407EAAB3DD161 5.96463
64 81FED4E76A546BB4D991613E6B8D11E14181996ECB2DE6B3263A2ECAF3625C4868407FA 8633DD6E4870DF55C694F8A4C281FE54E75A5 5.64715
Table 6c
65 7CD75A13D28B0607FA531DE951AED3624784447890C090F75267BA2CB79ACC88E8BF29C C18905FCA9CE74D8CF65B121C17D579A13C28 5.16399
66 8283FD699EECB0DD6BB22382DCA73A27C685AA339D362BD56A48715F95A6A4E8A0C080 FCA5C6BB6D991E13E4B9D11E5418303FD69AED 5.52101
67 78D0E080FF5A67B92C37DAEC88E0B729CC88109FAA8CE74D8AF55A929C17C569A13E28 31539DE951AED3624585F9AE74479506080DF4 5.34739
68 860407DAB335D561BDD6648725E95E684F88FED4E77A5C6FB6DA90E1BE6BAD19E941830 0EECB0DF6AB2A382DCB73223C4860487FA931 5.34108
69 7BADC90E0BEAB8D29F1418103FDA94EB498C23C2FC972A2BC68704077A931DC969BED5 6595E684D8A0C884FD5467BA6C57BAD490E2BC 5.89277
70 85F92E5447850E080EF5A63B92D37DAEC88CCD09B1419109FEA8CE7458AF55A929C57C5 528B0207FA531DE971AEDB624784F92E34679 5.64765
71 70DF15E694F8A0C080FE54A75A5C67B6DA91B9515E3438283BD498EE4B0DD6AB223C2D C8C5864407FAA33DD363BD56A4A715F15E6A4D 5.78193
72 8E0BF2BCC89F1218111F6A8CF7558EF35B91579A53E2830207F9529D69319ECB6A4784F8 78D0E0A0EF5A67BB2C37DAAC88E0B729CC89 5.6998
73 73227C6860407BAB33DD161BED664C705D958A0C082FE54673A4C77BAD892E0BEABCD2 9D03FD298EF4B0DF69B32342BC972A2BC68504 6.29239
74 8DF6DB122C27CD71A23CA870407FA531DE9464C705D95E644F8B0C088FB5566BAAC37B ADBEAB8D29F1498101FDA9CEB4B8DF65B121C0 5.55821
75 772586DB4D991A15E4B9D15E1438283FD498DEEB726382FCAB3426C5864427EAAB3DD36 048709F15C68CF4A2C0817ED4C76A546FB6D8 5.61434
76 897161A101F6A8CD75586F75B921C97A579830207FB529DE931BEDB6A4384F8AE3467A50 F5263BB2D375AECA8F0BF2DCE89F1218121D 5.29314
77 74D8EF55B929C17E579A13E2A3020BF9519DEDB664584F92E3467850E0C0DF4A63BD2E3 48E0BF2BCD89F161A101F6ACCD7558EF75B91 5.67251
78 8A8C082FF54677A6C77BAD890E1BE2B8D29C037D29AEE4B8DF69B22342FC972A2BC6850 5335D561BCD664C725F95E6C4F8A0C080FD54 5.54227
79 6040FF4A73BD2A37DA6C48F09F25C688F2A0EA4CF76596F359931D176579912E2434223D E931DECB624B82FAAE3427C5260407F2A738 5.41366
80 9E1458103FD298ED4A8D769B122C2FC971A00407BAB32DD965BED6644745D94E644F8B0 C54677A4C77B2D890E1BE2B8D29E1418503FC 5.57391
81 633D96E4870DF55E684F0A0C281FED4A75A4D911E15E4B9515E1428203BD498EECB0DD6 92FCAB3427C5860427EAAB39D363BDD6E4871 5.27701
82 9DE971BEDB6A4384F8AEB467A5060C0FF6A537DAACA8F0B72DCE89F1A1C121FEA4CB74 58929C57C569A93E2A30203F9539CE9B1DEEB5 5.76264
83 673A6C77AAD494E0BE2BCD09F1518105FEA98DF6DB322C2FC971A23C2870407FA535DE9 564C745D94E6C4B890D080FF5666BA2C779AC 5.89799
84 996ECB0DF6BB223A2FCA73625C4868447DA963BDD6C4970DF15E684F8A4C281FE54A77A 4D991A17E4B9D11E1428283FD499EE4B0DD69 6.02566
85 64C705F95E644F8B0C080FB5667BAAC379ADBEABCD29E1498503FCA9CEB498CF65B123 C0A2BC68504077A933DD961BAD7644785B94E4 5.71509
86 9A13E2A30203FD519CE9319ECB724386F8AC50E0C0DF4A63B92C36DAECC8D0BF2DCA8 AF11F6A8CD75586F35B921C97A559A13E2C3020 6.26365
87 6F359911C17E539912E2C34223FD599EEAB024B82FAAE34A785261407F6A53AD2E33D96C F25CE88F0A14141FEA4CF725A6FB5D911C15 5.5487
88 91617E6B9D19E54382037D298EF4B0DF6BB0CA73225C4868447DAA335D561BCD6E48725 D4F8A0C280FE54A75A4C6FB6DA91E13E2B8D0 5.7677
89 6C48F09F35CE8CF0A0C181FE94C77A586FB417E539913E2C30223ED599EEAB1DE6B7263 934A7C5060407F2A73BD2637DB6D48709F35D 5.61368
90 921C17E569A13A283120BF9539DE9319EEB5F9AE7447950E0C0FF5A63BD2C36DA6C88F0 88971218111FEACCD7558EF75B921C17E5799 5.43398
91 68CF0A0C1817E94E77A546BB6D891613E6B9438243DD599EECB0DF6B3223A2ECAF3627C 57F2A33BD2633DD6E49705F55E694F0A0C081 5.2348
92 969BAD7644705B96E64478D0E080F75265B8AD490E0BF2B4D49D1518905FCA8CEF4D8EF 5C27C971A33C2870407FA531DC971B6D76444 5.78478
93 6BB22382ECA73227C4860407FAA335D161BC70DF55C684F8A4C281FED4A75A4C6FB2D89 1B9D11E1428283FD499EE4B4DF6AB22382DC8 5.43634
94 95E684D8A0C884FD5467BA6C57AADC94E2BC9E9458102FD29CED4A8D769B123C27C971 A00487FAB33DD961BCD664C705F94E644F8B0C 5.33904
95 407F6A53AD2E37DB6D48F0DF35D68CF4A0C14CF765A6EB5D951C16E5B9D11E3430243F D4B1DEEB525382F8AD3427C5462407F2A339D0 5.50659
96 BE2BCD09E1418103FCA9CEF498DF65B121C0A23C68505077A933DC961BAD5644785B94E 50C880FD5567BA2C57AAD490E2BE2B4D49F14 5.68271
97 438203DD4996ECB2DF6BB22382ECA73625C57FAA739D363BDD6E4970DF55C694F8A0C2 807725C6DB5D991A15E4B9515E3428283BD698 5.2863
98 BD56E4A705F95A684E8A8C480FF54E77A4C591E17E6B9D11E14383037D298EF4B8DB6BB 1CAF3225C5860407FAB335D161BCD6E4C725D 5.65759
Table 6d
99 4785F96E7447890C080F75665BB2C379AEC92BCD09D1518901FEA9CEF4D8CF65B925C17 D3CA830606FAD31DE961BED7644685F92E745 5.6598
100 B9511E3438203FD699EE4B0DF6AB2A3C2DC8C5060407EAA33DD362BD56A48715F15A6A4 D81FED4E77A5C6FB6D891613E6B8D19E54180 5.21517
101 447890E090F75667BB2C37DACC88E0BB29CC18101FEA8CEF498EF75B121C37C579A13E2 8FAD31DC961B6D3644685F92E74478D0A080D 6.29655
102 BA2C779ADC90E0BF2ACD09B1619109FAAACCF6DB523C27C571A33D2830207FA531DA95 194705B96E6447890C090F75267BA2C37DACC9 5.41681
103 4F0A0C080FE54A77A4C6FB6DA90E1BE6B8D18283FD699EE4B4DD6AB223C2FCA73A27C6 85AAB39D163BD56E4A705F95A684F8A0C480FC 5.47569
104 B1DEEB724382FCAF342745460407FAA739D06CC8F09F25C688F0A0C181BE94C772586FB 5176539913E2C30203FD519AE8B0DEEB72638 5.71759
105 4C7765A6EB55951C17E5B9D11E3438243FD4B15EAB72538AF8AD342745462417F2A339D1 6CC8F09F35C688F0A0C181FE94D772586DB5 5.80455
106 B223C2FCB73A23C4860407BA932DD961BCD45F95E6A4E8A0C082FF54E77A6C67B2DC90 E1D19E5438303FD69AEE4B8DB69B223C2FCB70 5.88159
107 48709F15C684F4A2C1817E94C76A546BB4D8E539911E2430243DD499EECB2DE6B322382 D2745062417FAA73BD263BD96C48705F15C69 5.79589
108 B624384F9AEB46785060C0FF6A63B52A37D80BF29CC89F1A18101FEA4CB76596F35D911 C9A93E283020BFD539DE9B19ECB624B86F8AD 5.33859
109 4B0DF69B32342BCB72A2BC2870507FA931DCD6E48725E956684F8B0C880FD55673A6C57 8E1BE2BAD19E9458103FDA98EF4B8DF6DB120 5.9872
110 B55911C17E5B9913E2430203DD5996E8B2DD38AFCAD342745462417FAA739D363BD96E4 95C688F2A1C101BE94C772586DB5D911E17E4 5.31546
111 5F95E684E8A8C482FE54677A6C77B2DC90E1D11E54182037D29AEF4B0DB69B22342BCB7 0860447DAA335D561BCD6E48725F9566C4F89 5.40294
112 A1C141DEB4CF76586FB5D911C16E5B9911E13FD519EE9B1DEEB525382FCAD3527450624 03BD2E37DB6C48B09F25C688F2A0C101BEB4D 5.81172
113 5C68CF2A0C181BEB4D77A586DB5D991A15E4E2430223ED519EEAB1DE6B726382FCAF36 2540FF2A53BD2E33D96C4870DF15C684F0A0C1 5.59191
114 A23C68704077AD33DC961BAD5654705B94E40C884FD54673A6C77AADC94E2BE2B4D49F1 4FDA9CEF4A8D76DB122C2FC971A23CA830604 5.56389
115 58EF759931C17E579B1362C30213F5519EE9B6A4786F8AE3467A5060C0BF4A63B52A35D8 0BF2DCC89F1A18121EEA4CB74586FB5D911C 5.15097
116 A63B92E36DAECC8D0AF25CE88F0A1C141FE9586F35B931C97A559A1362C30203F5559EE 8B6A4386F9AE3467A516040BF6A73BD2A37D9 5.61595
117 5B121C37C579A53C2830A07FB539D69319EC85F96E5447850A080FF5263B92D375AEC88C CD89F1418109FEA8CF74D8EF75A921C57E54 5.32662
118 A546FB4D891613E4B8D11E14382037D29AED6B3223A2ECA73225C5868447DAB33DD163B C705F15C694F8A4C280FED4E77A4C6FB2D890 5.54017
119 50E080DF5A6BB92E37DA6C88D0BF2DCE88F01F6ACCD7558EF75B931C97A579A13628322 09DE9319ECB624784F9AEB467A5160C0FF6A5 5.46826
120 AEB42785060C0BF4A73BD2E35DA6CC8F09F0F1A1C101FEA4CF74586F359911D17E53991 120BF9519CE9B19EEB624382FAAF34A785061 5.81874
121 539DA951AEDB664584F9AE7447850E0C0DF42CB79ACC98E8BF2BCC8971218111F6A8CD 745B125C37D571A13C2830A03FB529DE931BEC 5.47071
122 ADC90E2BE2B4D49F1418905FEA9CEF498CF4C27CD73A23C2830407FAD31DC961BED764 45E6C4B8B0C088FB5667BAAC37BACC90E0BF29 6.12696
123 571A13C2830207FB529DE9319ECB6A4784F978D0E080EF5267BB2C375AACA8F0BF29CC8 9101FEAACF74D8AF75B921C57C569A93E2830 5.86346
124 A9CEB498CF65B523C27C571A13C28B0605F8969BAD5644705F96E744F8D0C090F75267B8 AD494E2BF2B4D49F1418105FEA9CE74D8EF5 5.84626
125 54E73A6C77B2D892E0BEAB8D09E1498103FC4B0DF6BB323C2BCB73A23C2870407FA933 DCD6648705E956684D8A0C880FD54673A2C778 6.26524
126 AA339D163BDD6E4A715F15A6A4E8A8C482FDA5C6BB6D991617E4B8D11E14183037D69A ED6BB26382FCAF3625C5868447FAA33DD163BD 6.103
Number N when transmitting antenna tBe 2 and counting of the IFFT/FFT that in ofdm communication system, uses operation be 512 (that is, N t=2, N FFT=512) time, can represent R (r) by following equation 7, and, can represent T (k) and q by the hexadecimal number shown in table 7 and table 8a and 8b IDcell[m].
Figure S05807074720060912D000281
Table 7
Residential quarter ID Sequence papr Residential quarter ID Sequence papr Residential quarter ID Sequence papr
0 C88B5B 4.67601 43 F3D2C6 4.93286 85 B286FB 5.2203
1 4B943B 5.01945 44 0BFE87 5.03341 86 36016D 5.00459
2 26A2CA 4.9099 45 92AA64 4.93443 87 98D31F 4.85287
3 ABF43A 4.9298 46 A5D580 5.18021 88 6A87B3 4.80097
4 F653DD 5.58288 47 6D6DFD 4.94058 89 958B99 5.40979
5 686FDB 5.08845 48 6A578D 5.58274 90 8AB689 4.89558
6 0D2D4F 5.49959 49 967EE4 5.18235 91 570A5C 4.75712
7 E4BEB2 5.03402 50 CE4755 6.35302 92 47A9A6 5.42678
8 C68129 5.41883 51 2D6ECE 5.92368 93 4B2F30 5.47629
9 6C86BB 5.41345 52 6BA1CF 6.12984 94 0D6033 5.36666
10 0211D9 5.25745 53 019E02 6.09087 95 3F7DAA 4.73588
11 4A0178 4.60192 54 A06B8B 4.90168 96 E64518 5.68267
12 71E762 5.20474 55 9CBA18 5.48837 97 F94B7D 4.92173
13 3EBA79 5.1286 56 05FD60 5.16162 98 78D213 5.38737
14 8CF2B6 4.94086 57 FC2322 4.95813 99 9EDE1D 5.05499
15 F052BB 4.73214 58 F0898A 5.74311 100 8E3B36 5.76876
16 36BF3C 5.22147 59 F22469 5.32756 101 74AF80 5.10266
17 56684C 5.74529 60 57673A 6.33084 102 CC8769 4.89204
18 654D89 5.24514 61 1A38DB 5.56632 103 265829 5.3906
19 2781F3 4.89117 62 A69433 4.90576 104 7CF001 5.44668
20 46876A 4.62728 63 9B80BB 4.82736 105 B5D0CE 5.14106
21 CE53D0 4.94685 64 6B75F8 4.66086 106 43277F 5.24521
22 523974 4.87706 65 DF32CD 5.28631 107 015C21 4.93279
23 4A0453 5.02621 66 D1F692 4.86675 108 A4AB8B 5.01596
24 47F9ED 5.91721 67 E6FCC8 5.65351 109 B3A938 5.15091
25 BB2C96 4.83723 68 08DF3D 4.79648 110 3333D3 4.78207
26 48B142 5.21914 69 39CFC0 4.95539 111 AFA03D 5.52105
27 FFDA6B 5.52578 70 EC8BAD 5.95318 112 88F995 5.11364
28 8F8DC4 4.95493 71 16B9AC 5.12127 113 E1668B 5.77986
29 1A1037 5.06145 72 6E6D24 5.88171 114 660486 5.54529
30 50F345 5.39428 73 B2027C 5.22276 115 950A62 5.40358
31 9C2ABE 5.15445 74 E05272 5.72503 116 8C5ADE 4.8725
32 97191F 4.88407 75 859C89 5.65769 117 E5A8B8 4.92944
33 61FCD0 5.82153 76 6624DD 4.98579 118 B829A5 6.05407
34 6F8969 6.25241 77 F2D404 5.27575 119 F307EB 5.82622
35 156F56 5.42931 78 8B81D9 5.26581 120 B17886 5.21061
36 BC8D17 5.08773 79 5C69D7 4.97194 121 D84D1D 4.76129
37 F3092A 5.05832 80 645838 5.86814 122 EF6206 5.37892
38 A41DBD 4.75378 81 8DEFA5 4.94176 123 4DBF2A 5.23858
39 6EA1E4 4.83662 82 22059A 5.76969 124 99AE0A 5.42723
40 6A29F7 5.19888 83 70A052 5.26498 125 B72333 5.34308
41 462826 4.79626 84 50E6D6 5.65313 126 39157D 5.3781
42 5FB555 4.97374
Table 8a
Residential quarter ID Sequence papr
0 FED4E75A4C6FB2D890E1BE2B8D09E9418301EE4B4DD6BB2A382FCB 4.67601
1 037D698EE4B8DB6BB323C2BC973A23C68504335D163BDD6E48725F 5.01945
2 FD298EF4A8D76DB322C2FC973A23C2830604DD965BCD664C705F94 4.9099
3 07FA933DC969BAD7654785F96E74478D0C08673A2C77BADC90E2BE 4.9298
4 F9AE746795060C0FF4A63BD2C37DA6C88F0989F1618111FEACCD75 5.58288
5 0407FAB32DD961BCD6644745F94E6C4F8B0D54E77A4C77BAD892E1 5.08845
6 FA531DC961BED7644785792E74478D0E080DBA2C779ACC98E4BF2B 5.49959
7 0FF5667BA2C37DACC88E8BB2BCD89F161A10CEF498EF75B121C37C 5.03402
8 F1A1C101EEA4CF76586FB59911C176539911203F9539CE9B19ECB7 5.41883
9 0C084FF5467BA6C57AADC90E0BE2B4D49F14FDA98EF4B8DF69B323 5.41345
10 F25CA88F0A14101FEA4C772586FB55911C1513E2C30213FD519CE9 5.25745
11 080FF5466BAAC37BACC90E0BD2ACD09B1419A94EF4B8DF6DB121C2 4.60192
12 F65B523C37C571A13D28B0607FA531DE97194705F96E6447890E08 5.20474
13 0B729CE89F1A1C121EEACCB76596FB59931C9A13E2A3120BF9519D 5.1286
14 F5A63B92C37DAEC88E0BF2DCE89F1218121C74D8AF75B921C57E56 4.94086
15 1FEACCF75586F359921C17E559B1362832209DE931BEDB6A4386F9 4.73214
16 E13E2BAD19E1458302FDA98EF4B8DF6DB32173223C6870487FA932 5.22147
17 1C17E559B1362C32203F5559EE8B1DEAB524AE346785060C0FF4A6 5.74529
18 E2434223ED519EE8B1DE6B724382FCAF342540FF2A53AD2E33D96D 5.24514
19 18101FEA8CE74D8EF75B921C17C571A13C29FAD35DE971B6D36647 4.89117
20 E644F890C080FF5666BAAC379ACC90E4BF291418503FCA9CEB4B8C 4.62728
21 1BED7644685F96E7447850E080FF5263BB2DC98E4BD2BCD09B1418 4.94685
22 E539D11E3430203FD4996E8B2DF6BB22382D2745462417F2A739D2 4.87706
23 101FEA8CE74D8AF75A921C17C569A13E2830531DE951BED3624785 5.02621
24 EE4B4DD6AB223C2FCB73A27C6870487BA931BDD6E4A705F95E684F 5.91721
25 13E2832213FD519EE9B15EAB72438AFCAD3460C0BF4A73B52E37DA 4.83723
26 ED3664584F9AE3447850E080FF5A63B92C358E0BF29CC897121A10 5.21914
27 17E579B13E2C34223FD599EE8B1DEEB326383427C526040FF2A73B 5.52578
28 E9B19ECB624B86FAAF34A78506040FF6A539DAECC8D0AF25CE88F0 4.95493
29 1418101FDA9CEB4B8CF65B121C37C571A13C077A933DD961BED765 5.06145
30 EA4CF74596F359911C17E579B13E2430223DE931DECB624386F8AF 5.39428
31 3FD519CE9B1DEEB524382F8AF3427C5062403BD2A37DB6CC8F0BF2 5.15445
32 C181BE94D7725C6FB5D911A15E5B9D11E141D519AE8B1DEEB72639 4.88407
33 3C2870606FA531DC971BED7664785F96E544088FF5467BA2C379AC 5.82153
34 C27CD73A23CA870607FAD31DC961BED36445E644F8B0C088FB5467 6.25241
35 382F8AD352745460417F2A73BD263BDD6E495C68CF0A1C101FEB4C 5.42931
36 C6FB2DA91E1BE6B8D09E9418102FDA9CED49B22382DCB73227C687 5.08773
37 3BD2E37DB6C48B0BF35C688F0A0C181BE94D6F359931C17E539B12 5.05832
38 C5860427EAA33DD162BD56A48715F95E684D81FE94E77A5C6FB4D9 4.75378
39 30207FB529DE971BECB6A4386F8AE3427851F5A67BB2C375AEC88E 4.83662
40 CE74D8EF65B921C37C571A13E2830A03F9511BED7664785796E745 5.19888
41 335D561BCD664C725E956684F8A0C880FD54C67B2DA90E13E6BAD0 4.79626
42 CD09F1419109FEAACF74D8AF75B921C57C552830605FB531DE951B 4.97374
43 37DAECA8F0B729CE89F1A1C101FEA4CB7658929C57C569A13E2A30 4.93286
44 C90E0BD2ACD89B1619109FEAACF74D8EF7587CD71A13C2830607FB 5.03341
45 34A785061407F2A73AD2E33DB6C48F09F35CA14141FEA4C776586E 4.93443
46 CAF3227C4860447DAB33DD561BDD664C705D4F8A0C080FE54A75A4 5.18021
47 203FD539CE9B1DECB724386FAAE34A7C5061A6BBD2E37DAECC8D0B 4.94058
48 DE6B726382FCAB3626C5064407FAA33DD36148F09F15C68CF4A0C1 5.58274
49 23C2BC973A23C68704077AD33DD969BED76495E6C4F8A0C084FD54 5.18235
50 DD965BCD664C745F94E644F890C080FF56657B2DC90E1BE2BCD09F 6.35302
51 2745062407FAA739D3633DD6E4870DF55E68C181FE94C77A5C6FB4 5.92368
52 D911E17E4B9D11E3438283BD698EE4B0DD692FCAF3426C5864427F 6.12984
53 24382F8AE34278506140FF2A53BD2E37DB6CF25CA88F0A14101FEA 6.09087
54 DAEC88F0AF25CA88F0A14141FEA4CF725A6D1C97A559A13E283221 4.90168
55 2FCAB3427C5864407EAAB39D363BDD6A4A70684F0A0C181FE94C76 5.48837
56 D11E14182037D698EF4B8DF6BB323C2FC971860447FAA335D161BC 5.16162
57 2CB7DAEC98E8BF29CC897121A101F6A8CF755B121C37C571A13E28 4.95813
58 D2E37DB6D48709F15C68CF0A0C081FE94C75B5D911C16E5B9913E2 5.74311
59 28B0607FB531DA971AED3624784F92E744780F75667BA2CB79ACC9 5.32756
60 D664C705F9566C4F8B0C084FF54673A6C779E13E2BAD19E9418302 6.33084
61 2B4D09D1518901FEA8CE7498EF75B921C17C3CA870407FAD31DE97 5.56632
62 D599AEAB0DE6B726382FCAB3427C5064407CD2633DB6D48709F35D 4.90576
63 7FAA339D363BD96E4970DF15C684F0A0C08077A586FB5D991A17E5 4.82736
64 817ED4E76A5C6BB6D991617E6B9D11E5418199EECB2DF6BB22382E 4.66086
65 7CD75A13D28B0607FB531DA971BED362478444F8D0C080FF5665BB 5.28631
Table 8b
66 8283FD499EE4B0DD6BB2A3C2FCB73227C684AAB39D163BD56A4A70 4.86675
67 78D0E0A0EF5267BB2C37DAECA8F0BF2DCC88109FEA8CE74D8AF55A 5.65351
68 860407DAA33DD161BCD6E4C705F95E6C4F89FE54A77A5C6FB6D891 4.79648
69 7B2D892E1BEAB8D09F1498501FCA9CEF4B8D23C2FC972A23C28504 4.95539
70 85F96E74478D0E080EF5A63B92C37DAACA8DCD89B1618109FEA8CF 5.95318
71 705F15C694F0A4C280FED4A77A5C6FB2D891B9D11E3428283FD498 5.12127
72 8E0BF2BCC89F161A101F6ACCF7458EF75991571A13E2830207F952 5.88171
73 73A23C6870407BAB32DD161BCD6644705F948A0C482FF54E77A4C6 5.22276
74 8DF6DB322C27C971A23C2870407FA531DE94644745F95E644B8B0C 5.72503
75 77A586DB4D911E15E5B9D11E1438283FD498DEEB324382FCAB3427 5.65769
76 897161A101F6ACCF74586F35B921C17E559830A07F9539DE9719ED 4.98579
77 74D8EF75B921C17E569A93E2831203FD519CED3624584F92E74478 5.27575
78 8A8C080FE54E73A6C77BAD890E0BE2B8D09D03FD698EF4B8DB69B3 5.26581
79 6040FF4A73BD2E35DA6C48F0BF25CE88F0A1EACCF74596F35D931D 4.97194
80 9E1458302FD29CED4A8D76DB123C2FC971A00407BAB33DD961BCD6 5.86814
81 63BD96C4870DF55C694F8A4C280FED4E77A5D991A17E4B9515E143 4.94176
82 9D6931BECB624386F8AE34278506040FF4A537DAAC88F0BF29CE88 5.76969
83 673A6C77BAD490E0BE2BCD09F1418101FCA88D76DB123C27C973A2 5.26498
84 996ECB0DF6B322382ECAF3627C4860447FA863BDD6C49705F55E68 5.65313
85 64C705F95E644B8B0C088FB5466BA2C77BACBEABCD29F1498103FD 5.2203
86 9A13A2A31203FD539CE9319ECB624382F8AD5060C0FF4A6BBD2C37 5.00459
87 6FB59911D17E539912E2C34203FD519AEAB124382F8AF34A7C5261 4.85287
88 91617E6B8D19E1438203FD298EE4B0DF6BB1CAF3227C5860407FAB 4.80097
89 6CC8B09F35C68CF0A1C181BE94C77A586FB517E539913E2C30203F 5.40979
90 929C17C569A93A2A3020BF9539DE931DEEB4F9AE3447850E080DF5 4.89558
91 684F4A0C1817ED4E77A546BB4D891E13E6B8430243DD599EECB0DE 4.75712
92 961BED5644705F96E744F890E080FF5265B9ADC90E2BE2B4D49F14 5.42678
93 6B326382ECAF3227C5860407FAA33DD563BD705F15E694F0A0C080 5.47629
94 956684D8A0C884FD55673A6C77AAD490E0BC9E1418303FD298EF4B 5.36666
95 407F2A73BD2E37DB6D4870DF35D68CF4A0C14CF725A6EB5D911E16 4.73588
96 BEABCD29E1418503FCA94EF498CF65B521C1A23C2850507FA931DC 5.68267
97 438243FD599EE8B0DF6B326382ECAF3227C57F2A73BD363BDD6C49 4.92173
98 BD56E4A715F95A684E8A8C480FF54673A6C491613E4B9D11E14383 5.38737
99 4785B94E744F8D0E080FF5665BB2CB7DAEC82B4D09D1518905FCA9 5.05499
100 B9D11E1428283FD698EE4B0DF6BB2A382FC9C5060427FAA33DD362 5.76876
101 4478D0E090F75665BA2CB79AEC88E8BF2BCD18901FCA8CE7498CF6 5.10266
102 BAAC779ACC98E4BD2ACD89B1418101FEAACDF65B523C27CD71A13D 4.89204
103 4F0A0C280FE54E77A4C67B6D891E1BE2B8D08203BD698EECB0DD6B 5.3906
104 B15EEB72538AFCAD3427C5462417F2A339D06C48B09F25C688F0A1 5.44668
105 4CF725A6FB55951C17E5B9D11E3430203DD4B1DEEB52438AFCAF34 5.14106
106 B223C2DCA73223C6870407BAB32DD165BED55F15E6A4F8A8C482FF 5.24521
107 48709F15C684F0A0C1817ED4C77A5C6FB4D8E539913E2430203DD5 4.93279
108 B6A4386F8AE346785060C0BF6A63BD2A37D90BF29CC88F1A18121F 5.01596
109 4B8DB6BB32342BCB73A2BC2870407FA931DDD6648725F95E684D8A 5.15091
110 B55911E17E539913E3430203FD5996E8B2DD38AFCAD35274506241 4.78207
111 5F95A6A4E8A8C482FF54E73A6C67B2D890E0D11E1438303FD698EF 5.52105
112 A1C101DEA4CF72586EB5D951E17E5B9911E13FD519CE9B15EEB525 5.11364
113 5CE8CF2A0C101BE94D7725C6FB4D911E17E4E2C30203ED599AEAB1 5.77986
114 A23C68704077AD33DC961BAD5644705F94E40C880FD54673A6C77A 5.54529
115 58EF359931C17E559B1362830203FD519EE8B624786F8AE3427A50 5.40358
116 A6BB92C36DAECC8D0AF25CE88F1A1C101FE858EF759931C97E579A 4.8725
117 5B925C37C571A53C2930A03FB529DE9319EC85F92E74578D0A080E 4.92944
118 A5C6BB6D991E13E4B8D11E1438203FD298ED6BB223A2ECA73625C5 6.05407
119 50E0C0FF5A63B92E37DA6C88D0AF25CE8AF11FEACCF7458EF35B93 5.82622
120 AEB427A516040BF4A73B52E37DB6CC8B09F0F1A18101EEA4CF7658 5.21061
121 539DE951BEDB624584F92E7447850E0C0DF52C379ACC98E8BF29CD 4.76129
122 ADC94E2BE2BCD49F1518105FEA8CE7498EF4C27C971A23C2870606 5.37892
123 571A53C2830A07F9539DE931BEDB6A4786F97850A0A0EF5A63BB2C 5.23858
124 A9CEB498DF6DB121C37CD71A33C28B0607F8961BAD5644785B96E6 5.42723
125 54E73A6C77B2DC92E1BE2B8D29E1418103FD4B0DB6BB32342BCB73 5.34308
126 AA339D363BDD6A48715F15A684F8A0C480FDA546FB6D991E17E4B9 5.3781
Number N when transmitting antenna tBe 3 and counting of the IFFT/FFT that in ofdm communication system, uses operation be 2048 (that is, N t=3, N FFT=2048) time, can represent R (r) by following equation 8, and, can represent T (k) and q by the hexadecimal number shown in table 9 and table 10a to 10d IDcell[m].
Figure S05807074720060912D000311
Figure S05807074720060912D000312
Table 9
Residential quarter ID Sequence papr Residential quarter ID Sequence papr Residential quarter ID Sequence papr
0 EBB5219015A2CF69 5.60481 43 33D3A9D1BB823ECF 5.61324 85 03C3974B6E111058 6.10257
1 E7577012119C2F4F 5.8025 44 36F8E824FB016379 5.53523 86 E1959F9D35447BAC 5.64685
2 94641A95D3892C4C 5.39292 45 02AFFAEFB723B2A4 5.6231 87 933549D2096A322F 5.89711
3 5605C4FD0295FA2D 5.70729 46 801426AEF9A6A5B9 5.78793 88 F13CEADB80EED2A D 6.30465
4 888E813B80653270 6.10319 47 35DBBBFE4BD3BAFD 5.80191 89 7B98C279EB0A4646 6.06922
5 0B89E336263C9B47 5.67799 48 B81F330CB835F8D5 5.83396 90 39A9BAE248C76E99 5.62153
6 D02AEC72AA4281DE 5.95384 49 ABB0820EB58B1C1F 5.61285 91 C23060852F7114C0 5.67005
7 840A86AB95735147 6.34571 50 3A6BA5A0FA06E5F2 6.11278 92 80CC9CEE7A780885 5.53147
8 70DDEEADB853EFD3 6.15491 51 42EF0C2E4EB95EC4 6.02193 93 C714F7AF79A08A7E 5.76285
9 2A30262668215D10 5.36612 52 85D4C32BEA88C3EE 5.48754 94 84C665021AEFA304 5.78511
10 3946313945569C2D 5.64591 53 5AA332E1BF1BCAC9 5.64628 95 04D180B450A1AC42 5.4789
11 F3A1D436C3335470 5.41957 54 16E626D3EC6652FB 5.71122 96 7F037D18D5E976C2 5.73751
12 06F12B55575C91BC 6.05684 55 CBE6AA0BCE5FAA02 5.57369 97 F9B1FE82309652AC 5.86339
13 5D1F19936F14DCAD 5.84532 56 B65B0A53D4E9992A 5.65488 98 7E6678BC9E8741B9 6.23575
14 04071D77D7F9A845 5.61247 57 00DAB2CCA5D49E63 5.57148 99 F93C8F167E2ACF4E 5.90959
15 497BB95882E4EEAB 5.6825 58 85748563C4F0A429 5.6702 100 558A22F54AD95EDD 5.69264
16 6412AB106D4D9A28 5.92933 59 98BA0BF6BBBD3361 5.84405 101 FB63DFF5745D862D 5.87696
17 7DF8E9AFE6C144FB 5.60962 60 8F797CAB40B4D574 6.05648 102 525BE5F24FBE4B35 5.75721
18 57E378362038C702 6.34889 61 AECECD569D866D16 6.04214 103 107FD75A05526625 5.65658
19 3062CAC92903466F 5.58868 62 E74C6A661AABFBF9 5.67473 104 B4CAF64A0A876CE9 5.8741
20 0830B23AD7B527D0 5.59669 63 AFBF1FF4E46B7EF3 5.79021 105 013830891D01203F 5.65109
21 27D31A5FF122C9AF 5.68495 64 E8BC2F963DC3B2B2 5.75122 106 2AABE5C3E581F43E 5.5524
22 3F8D7282F8A55AA0 5.89226 65 FF647D9DCB1C197B 5.6339 107 07B814E82987B246 5.96707
23 0577DCD47B2A9880 5.69177 66 E13FDE868A0B285A 5.68188 108 0D585FA19DA3EF6F 5.70668
24 494535D2183E1926 5.7183 67 FDB2D14DAD31C90C 5.71447 109 11A8416C59B13AC7 5.89308
25 DD67204C7744C1BE 5.63368 68 88FDEEE45D696402 5.38298 110 3AA7C3E1D8173A06 5.68576
26 8B25DD9FD8299E13 5.84895 69 CBF0781E4924FF3C 5.62064 111 E52CFF8D410728B1 5.74131
27 BC975163654F3B50 5.75655 70 CC89609F74991315 5.88678 112 FF4FBAC747F1B6A1 5.75276
28 93514684AE5B2963 5.55524 71 B577961BE45EA101 6.06286 113 939EE73168ED4C82 5.677
29 609EE16E059C8767 6.46135 72 05AB8E2E7E815CDA 5.79215 114 F2D9CA26BBD7E0B4 5.84899
30 1085286A62ABABBB 6.03684 73 776AB333EBD0D162 6.00548 115 1017CD88943EB8CB 5.58448
31 E8461C82A2EDE3C2 6.03297 74 910E866EDC218A13 5.96018 116 1048528B06C62235 5.68438
32 F10C200C0A9E51A3 5.72795 75 495C54826C00A631 5.74533 117 05C2D808853DE26D 5.51423
33 4C34030B53AB1008 5.95601 76 014D2CBF069404A3 5.49484 118 EC83A9206C61798A 5.99338
34 E0D676AC906B414C 5.84918 77 07C190874A47EE57 5.62467 119 D8C59BA2C56F312A 5.6595
35 33EFF510D0879101 6.29841 78 995EEF2F3F93BFB7 5.68453 120 B11A7330D4688023 5.81244
36 0AAA2E53DFD976A1 5.69201 79 7DC995D53F521A15 5.85155 121 BE74B49A67943688 5.63205
37 AE20E9552F8ACBB9 6.11009 80 2A0042A7ADEDE1FF 5.90403 122 FA432B05366B8852 5.76478
38 091A43A3363B0B54 5.5762 81 7EE84B4717C738B6 5.28346 123 81BDFB717AEFA474 6.03504
39 1F3F86733DB3B67F 5.34036 82 F8052186C6213917 5.93926 124 D9E20071558716DA 5.72503
40 EDDD4EC6D2ED0CA2 5.74128 83 935FE55981908464 6.02626 125 BD2ED0EB96F3FCD5 5.96824
41 2D68F8549B535245 6.00089 84 69694DB3D2430639 6.14314 126 C3D51B62C949FCCE 5.63674
42 E6AE5858E3984A960 5.51124
Table 10a
Residential quarter ID Sequence papr
0 FED4E77A4C6FB2DA91E1BE2BAD19E1458101EE4B0DF6AB22382DCB73A23C4870407BA930BD5 6A48715F15E684F8A8C082FE54673A6C4C2FCD71A23CA870607FA535DE961BED36445 5.60481
1 03FD69AEE4B0DF6BB32342FC973A23C68705335D563BDD6648705E956684D8B0C080FF54C67B 2D891E13E2B8D19E9418103FDA9CED484705B96E644F8D0E090F75665BA2CB7DAEC9 5.8025
2 FDA98ED4B8D76DB122C27CD73A23C2870404DD161BCD764C705F94E6C4B890D080FF54657BA DC90E1BE2B8D29F1498101FCA9CEB498D85792E74478D0E080EF5267B92C37DAEC88C 5.39292
3 077AD31DD961BED7644705B94E64478D0C0967BA6C57AAD494E0BE2BCD49F1518905FCA98D7 69B122C27C973A23CA830407FA535DC958E8BF2BCD89F121A101F6A8CF7458EF75991 5.70729
4 F9AE3447850E080DF4A6BB92C36DAECC8F0889F1218101F6A8CD75586F35B931C97A579930A03 F9529D69319ECB624786F8AE34678514C7725A6FB55911E16E539D13E3430203DD4 6.10319
5 0407BA932DD961BED764C705D94E6C4B890D54E77A6C67B2D892E1BE2B8D29F1418503FC4B0 DB6BB22342FCB72A23C2870507FAD31DCC98E0BD2BCD89B1619101FEA8CE7458EF759 5.67799
6 FAD35DC971B6D3644685792E74478D0A0A0CBAAC77BACC98E4BD2ACD09F1619101FAAACCF6 DB123C27CD71A33C2830605FA531DA97180BF29CC88F1218101FEACCF74596FB5D931C 5.95384
7 0FF5265BA2C37DACC88E0BB29CC89F121A10CEF498CF65B125C37C579A13E2830A03FB511BE D3644785796E5457850E0A0FF5263BB2D1C17E559B1362830213F5559CE8B15EEB725 6.34571
8 F121C121FEA4CB74586FB5D911D17E57991120BFD539CE9B1DEEB624B82FAAE34A7C5061A6B B92E37DAEC88D0AF25CE88F1A14101FE9DEEB726382FCAF3627C5864407FAA339D361 6.15491
9 0C080FF5467BA2C77AAD490E2BF2B4D09D14FD298EF4A8D76DB322C27C973A23C2870604DD1 65BED664C705D94E644B8B0C080FB54655B125C17D579A53C2930203F9539D69319EC 5.36612
10 F25CA8AF1A1C101DEB4C776586EB55951E141362832213F5519CE9B15EAB72538AF8AD356040F F4A63B52E35DB6C48F09F35C68CF2A099EE8B0DF6BB26382ECA73227C4868447DA9 5.64591
11 088FF5667BA2C37BADC98E0BF2ACD09B1419A9CEF498DF65B521C27C571A33D2830607F8969B ED5644705B96E7447890E090F75267B9921C57C579A13E2830203FD539DE9319ECB4 5.41957
12 F65B121C27C575A33C28B0607FB531DA95194705B96E644F890E090F75665BB2C37DACC92B4D4 9D1518105FEA9CE74D8CF75B925C17C50E080DF5A63B92C37DAEC88F0BF2DCE88F0 6.05684
13 0B72DCC89F1A1C101FEA4CB74596FB5D931D9A13A283120BF9519DE9B19ECB724382FAAD5060 C0FF4A6BBD2E37DA6C88D0BF25CE88F0D599EE8B1DEEB724382FCAB3626C5864407D 5.84532
14 F5263B92C375AEC88E0B729CC88F121C121D7458AF55B929C57C579A13E2A31203FD539DEDB6 64585F92E7467950E0C0FF5A6BB92C3517E539B12E2C30203ED519EE8B0DE6B72439 5.61247
15 1F6ACCD7458EF359931C17E579B13E2832219DE931BEDB6A4384F9AE346785160C0BF4A437DA AC88E0B729CE88F1A1C121EEA4CF745838AFCAF3427C5462407FAA33BD263BD96E49 5.6825
16 E13E6BAD09E1458102FD298ED4B8D769B32073A23C6860487BAB33DD161BCD7644705D948A0C 482FE54E77A4C77B2DC90E0BEABCD09DFAD31DC971BED3664685792E74478D0A080C 5.92933
17 1C17E579B13E2C30213FD559EE9B1DEAB524AEB467A5060C0BF4A73BD2A37DA6CC8F0BF1F1A 1C121EEA4CF76586FB5D911C1765399117F2A739D2633DD6C4870DF55E694F8A0C281 5.60962
18 E2434203FD519EEAB1DEEB726382F4AB3625407F6A73BD2E33D96C48709F35D684F4A2C04C77 25A6EB55911C16E539913E3438203DD4BDD6E48705F15E6A4F8A0C080FE54673A6C4 6.34889
19 18101FEA9CE7498CF65B125C37C571A13E28FAD35DC961BED3664685F96E54478D0A080DBA2C 37BACC98E0BD2BCD09B1418101FAAACDB624784F8AE3467A506040FF6A63BD2E37D9 5.58868
20 E644B890C088FB5466BA2C37BADC90E0BD281498103FDA94EB4B8CF65B123C37CD71A33C07F AD31DD961BED7654785B96E74478D0C097458AF75A921C57E579A93E2831203F9519C 5.59669
21 1B6D3664685796E74578D0E080FF5263BB2DC90E0BD2BCD89B1618101FEA8CF74D8EF7597CD7 5A33D2830205FB531DA971AED3624784F1A1C101EEACCB74596FB59931C17E579B11 5.68495
22 E539913E3438243FD599EE8B0DE6BB26382D2745462417F2A33BD263BD96C48705F15E68C181F EB4D77A586DB4D991A17E4B9515E141335D561BDD6E48725E95E684F8A0C080FD54 5.89226
23 101FAA8CE7458EF55B921C57E579A13E2A31539DE951BEDB664584F9AE744795060C0DF42C37 DAEC98E8BB2BCD897121A101FEA8CF7424B82F8AF34A78506040FF2A53AD2633D96C 5.69177
24 EE4B4DD6AB2A382DCB73227C4860407FA931BD56A4A715F15E684F8A8C480FF54673A6C49161 3E4B9D19E14182037D29AEF4B8DF6BB0E644B890D088FB5467BA2C37BACC90E4BF28 5.7183
25 13E2C30213FD559CE9B15EEB724382FCAF356040BF6A63B52A35DA6C48F09F25CE8CF0A0EA4 CF76596F35D931D176579912E2434203C63BDD6C48705F15C694F8A0C281FED4E77A4 5.63368
26 EDB624584F9AE34679506080FF4A63BD2C358E8BF29CD89F1618111FEA8CD7558EF75B91579A5 3C2930A03F9529D6931BECB6A4384F9A1C101DEB4CF765A6EB55911C17E539913E1 5.84895
27 17E539B13E2C34203ED599AE8B1DE6B726393427C5061407F2A53BD2637DB6C48709F35DA1414 1FEA4C776586FB55951C16E5B9D13E1AA339D363BDD6A4A715F15E684F8A0C080FC 5.75655
28 E9B19ECB724382FAAF3427C5061407F2A539DA6CC8D0AF25CE8AF0A1C101DEA4C776586C1C9 7A579A13E2C32203F5559CE9B1DEAB725684F0A2C081FE94C77A546FB6D891613E6B9 5.55524
29 1418503FCA94EB498CF6DB121C37CD75A33C07FAD33DC961BAD5654705F96E644F8D0E08673A 2C57AAD494E0BF2BCD09D1518905FCA8EDB624584F92E746795060C0FF4A63BD2E35 6.46135
30 EA4CB74596F359911C17E539912E2434203DE9319EEB624B82F8AE3427C526040FF2A738DA6CC 8F0AF25CA8AF0A1C101FEA4CF725A6D2FCAB3626C5860427FAAB39D363BDD6A4A71 6.03684
31 3FD559EE8B1DEAB524382FCAD342745462403B52A35DB6CC8F09F25CE88F0A0C101BEB4C6FB 59931C176539B12E2C34223ED599EE8B170DF55E684F0A0C281FED4E75A4C67B2DA90 6.03297
32 C181FEB4D772586DB5D911A15E4B9D15E140D519AEAB0DE6B324382F4AB3426C5864407CD263 3D96C48F09F35C68CF0A0C181FED4E74B223C2DCB73223C4870487BAB32DD161BED5 5.72795
Table 10b
33 3C2870406FAD35DC961B6D3664785796E544080FB5466BA2C37BADC90E0BD2ACD89B1619A94E F498DF65B123C37CD71A33C28B0207F9375AAC88F0B729CC88F1218101EEACCB7458 5.95601
34 C2FCD73A23C2830406FAD35DC971B6D76644E644F8B0D080FF5666BAAC37BACC98E4BD28149 8101FDA94EB498CF65B523C27CD71A33DF5267B92C375AAC88F0B72DCC88F1A1C101C 5.84918
35 382F8AF352745062417FAA73BD263BDD6E495CE8CF2A1C101FE94D772586DB5D911A15E4E2C3 4203FD519AE8B0DEEB324382F4AF3625FED4A75A5C67B2D891E13E2B8D09E1418101 6.29841
36 C67B2D890E1BE2BAD09E9418302FDA98EF48B22382FCA73A27C6860407FA933DD161BED55F95 E684F8A8C482FF54E77A4C77BAD890E13C2870607FA535DE961BED3664685792E545 5.69201
37 3BD2A37DA6CC8F0BF25C688F2A0C101BE94C6FB5D931C17E539913E2434203FD519EE8B12438 2FAAE34A7C526140FF2A53AD2E33DB6CB9D15E1428283BD699EECB0DF6BB2A382DC9 6.11009
38 C5060407EAAB39D163BD56A48715F95A6A4C817ED4C76A546BB6D991E13E6B8D11E14381996E 8B2DF6B3263A2ECA73227C5868407FA97B2D890E0BEAB8D29F1418501FDA94EF498C 5.5762
39 30203F9539DE971BEDB624386F9AEB467A51F5A63B92C375AECA8E0B72DCE89F1218121D7458 AF75B929C57C579A93A2A31203F9539D6CC8B0BF35C68CF2A0C101FEB4D77A5C6FB5 5.34036
40 CEF4D8EF65B925C17D579A53C2930A07F9511B6D7644685F96E74478D0E080EF5267BB2CC98E 4BD2BCD09B1618109FEAACE74D8EF559AE342785060C0FF4A63BD2A37DA6C48B0BF0 5.74128
41 335D163BCD6E4C705F9566C4F8A0C880FD54C6FB6DA91E1BE2B8D09E1458103FD29CED48B2A 382DCB73A23C6870407FA933DD161BED52B4D49D1518101FEA8CE74D8CF65B125C17D 6.00089
42 CD89F1618101FEAACE74D8AF75A929C57E542830605FB539DA951AED3664585F9AE746780F752 67BB2CB79ACC98E8BB29CC897161810E9B19EEB624B82F8AF3427C5260407F2A538 5.51124
43 375AACA8F0B729CE89F1A1C101FEA4CB7659929C17E569A93A283120BFD519DE9319ECB5F9AE 3467950E080FF5A6BB92C36DA6C88F08E2430223FD599EEAB0DEEB724382FCAF3625 5.61324
44 C90E0BF2BCD09F1618109FEAACF74D8AF5587CD75A33C28B0205FA531DA971AED366458444F8 D0E090FF5267BB2C379ACC88E0BB29CD203FD539CE9319EEB724386FAAF34A785061 5.53523
45 342785060407F2A73AD2E33DB6C48F0DF35DA1C141FEB4CF725A6EB5D951E16E5B9D13E13FD5 19EE9B15EEB725382F8AF34274506241A5C6BB6D991613E6B8D19E14382037D698EC 5.6231
46 CAF3225C4860407DAA335D161BDD664C705C4F0A0C280FE54E77A4C6FB2DA90E1BE6BAD0828 3FD699EECB0DD6BB2A382FCA73227C68467BA2C77AAD494E0BF2BCD09F1518901FCA9 5.78793
47 203F9539DE931DECB724B86F8AF34A785261A6BB92E37DAEC88F0BF2DCE8AF1A1C141FE8586 F759921C97A579B13E2C30213F5519EE948F09F35D68CF0A2C081FED4E77A5C6FB4D9 5.80191
48 DEEB326392FCAB3426C5060407FAAB3DD36148709F35D684F0A2C1817E94C76A5C6FB4D8E5B9 913E3438203DD4996E8B2DF6B326382D8A8C482FF54E73A4C67BADC90E1BE2BCD09D 5.83396
49 23C2BCB72A2BC2870507FA933DD961BAD56495E684D8A0C080FF54673A2C57AADC94E2BC9E9 418303FD29CED4B8DF69B122C2FC973A10F75265BB2CB7DACC88E0BB29CD89F161A11 5.61285
50 DD161 BED764C705F94E644F8B0C088FB56657BAD892E0BE2BCD09F1498103FCA94EB498C23C 2FCB73A2BC28704077A931DC961BED764CD89F1618101FEA8CF74D8EF75B921C17E54 6.11278
51 2745460407F2A33BD263BDD6E4870DF55E69C101BE94C77A5C6DB4D911A17E4B9D15E340D519 EE8B0DEEB726382FCAB3627C5860407DC67B6D891E1BE6BAD09E9458102FD29CED48 6.02193
52 D991A15E4B9515E1438283FD499EE4B4DD682FCAF3426C5060427FAA339D362BDD6A4A7168CF 4A2C081FE94E76A5C6BB4D891E13E4B80487FA932DD161BED764C745F94E6C4F8B0C 5.48754
53 24386F8AF34A78526040FF2A73AD2633DB6DF25CA8AF1A14101FEA4CF765A6EB55911C1513E28 32213FD559EE9B15EAB52538AF8AF3581FED4C76A5C6BB6D891E17E4B8D19E14181 5.64628
54 DA6C88D0BF25CE8AF0A1C141FEA4C7765A6C1C17A579A1362C32203FD559CE9B15EAB725AEB 467A5060C0FF4A63B52E37DA6C48F0BF0430243DD5996E8B2DE6BB263A2FCAF3227C5 5.71122
55 2FCAF3426C5860427FAAB3DD362BD56E4A7068CF0A2C081FE94E76A546BB4D891E13E6B94382 43DD499EECB2DE6B326382FCAF3627C554E73A6C67BAD892E0BE2B8D09E1418103FC 5.57369
56 D19E14383037D69AEE4B0DF69B323C2BCB71860407DAA33DD163BCD664C705F956684F89FED4 E75A5C67B6D890E1BE6BAD09E9418101969BAD5654785B94E7447890E080FF5267B8 5.65488
57 2C379ACC88E0BB29CC89F1618111FEA8CF745B921C37D571A13E2830A07F9529DE9719EC85F9 2E7447850E080FF5A67B92D375AEC88C13E2830213FD559EE8B15EEB724382F8AF35 5.57148
58 D2E33D96C4870DF15D684F4A2C1817ED4C74B5D911C16E539D11E3430243FD4996E8B2DD38AF CAD342745460407FAA73BD3633D96C48D19E14382037D698EE4B0DB6BB223C2BC971 5.6702
59 28B0205FB539DA951AEDB624785F9AE346780F75265BA2CB79AEC98E8BF2BCD897161A10CEF4 98EF75B921C37D579A13E2930A07F951DA6C88F0BF25CA8AF1A14141FEA4C772586D 5.84405
60 D6E48705E95E6C4F8B0C084FF5567BA2C579E13E6BAD19E9458102FDA98EF4A8DF69B3217322 7C4860407BA932DD961BED7644745D9418905FCA9CE74D8CF75B125C37D571A53C28 6.05648
61 2BCD09F1418905FEA8CEF4D8CF65B925C37C3CA870406FAD35DC971B6D7644785796E744088F B5467BAAC779ADC98E0BD2ACD09F16189D6971BECB6A4784F9AE34278516040FF6A4 6.04214
62 D599EEAB0DE6B726392F4AF3426C5864407CD2637DB6C48F09F35C684F4A2C0817ED4E74B559 11C17E5B9913E2438203FD499EE8B2DD5F95E6A4F8A8C082FF54E77A6C77BAD890E1 5.67473
63 7FAA33BD263BDD6E4970DF15E694F8A4C281772586DB5D991E17E5B9D15E3438203FD498DEEB 726382F4AF3426C5064427EAAB39D361E13E6BAD19E9458302FDA9CEF4B8D769B321 5.79021
64 81FED4E76A5C6BB4D891E13E6B9D19E54180996E8B2DE6BB263A2FCAF3225C5860447FA8633D 96E4970DF55C694F8A4C080FE54A77A523C2BCB73A23C2870407FA933DD961BAD764 5.75122
Table 10c
65 7CD75A33D28B0607FB531DE971AED36645844478D0E090FF5665BB2CB79ACC98E8BF29CD1890 5FCA8CEF498EF75B121C17D579A53C28A63B92C37DAEC88D0BF25CE8AF1A1C101FE9 5.6339
66 8283FD698EE4B0DD6BB22382FCB73A27C685AAB3DD163BDD6E4A705F95A684E8A0C482FCA5C 6BB4D891E13E6B8D11E1418203FD29AED644705F94E6C4B890C080FF5467BAAC37BAC 5.68188
67 78D0E0A0FF5A67B92D37DAACA8F0B729CE88109FEA8CF7458AF55B921C57C569A93E2831539D A971AEDB664585F92E34679506080DF56FB5D911C17E539913E2430203ED599EE8B0 5.71447
68 868407DAA33DD161BCD6E4C725F95E6C4D89FED4E77A4C6FB6DA90E1BE6BAD09E1458100EE4 B4DD6BB2A3C2DCB73227C6860487BA931AD494E2BE2B4D49D1418101FCA8CE7498EF4 5.38298
69 7BADC90E0BEAB8D29F1498503FDA94EB498C2342FCB73A2BC28504077A931DD969BED7649566 C4D8A0C880FD55673A2C77AAD494E0BC28B0607FB539DE971BED3624785F9AE74478 5.62064
70 85F96E54478D0E080EF5A63B92C37DAAC88DCD09F1618101FAA8CE74D8AF55B929C57E552830 607FB531DE951AEDB624585F9AE34479EA4CB74596F359931D176539913E2434203D 5.88678
71 70DF15E694F0A4C081FE54E77A5C67B6DA91B9D11E1438203FD698EE4B0DD6BB2A382FC9C586 4427EAA33DD162BD56E48715F95E6A4CFDA98EF4A8D769B123C27C971A23C2830405 6.06286
72 8E0BB29CC8971618111FEA8CF7458EF35B91579A13C2830A07FB529D6931BECB6A4786F87850E 0A0FF5A67BB2C37DAAC88E0B729CC893F5559CE9B1DEEB52438AFCAD3527C506240 5.79215
73 73227C6870407FAB33DD165BED664C705F948A8C082FF54673A6C77B2D892E1BE2B8D29D03FD 69AEE4B8DB6BB323C2FC973A23C28504BAAC779ADC90E0BD2BCD09F1618101FAAACC 6.00548
74 8DF69B123C27C971A33C2830406FAD35DE9464C705D94E644F8B0C080FF5666BAAC77BACBEA BCD09F1498501FCA94EB4B8CF65B121C178D0A080EF5A63BB2C375AAC88F0B729CE89 5.96018
75 7725C6DB4D991A15E5B9515E1438283FD498DE6B724392F4AF3426C5860407EAA339D3604870D F35C68CF4A0C0817E94C76A546BB4D873A23C6860407FAB32DD161BED7644705D95 5.74533
76 8971218101F6A8CD75586F759921C97E559930203FB529DE9719ECB6A4386F9AEB467A51F5263B 92C375AECA8E0BF29CC89F121C101CB15EAB524382FCAD3427C5062407F2A33BD1 5.49484
77 7458AF55A921C57E579A93E2830203F9519DEDB624585F92E3447850E080DF4A63BD2E358E0BF 29CC89F121A101F6ACCD74586F75B9134A7C526040FF6A73AD2637D96D4870DF35D 5.62467
78 8A8C080FF54E73A4C77B2DC90E1BEABCD29C03FD69AEE4B8DF6BB32342BCB72A2BC68705335 D163BDD6E4C725F95E684D8B0C080FF55F6DB123C37CD75A33D28B0207FB531DE9719 5.68453
79 6040FF6A73BD2E35DB6CC8F09F25CE88F0A1EACCB74596F35D911D17E579913E2434203DE931 9EEB724B86FAAF3427C5061407F2A738D911A15E5B9D11E3428203BD499EE4B4DD69 5.85155
80 9E1418302FDA98EF4A8D769B122C27C971A00407FA932DD161BED664C705F94E644F8B0D54E7 3A6C67BADC90E1BEABCD29E1498501FD1BED7664685792E54578D0E0A0FF5A67BB2D 5.90403
81 633DD6E4970DF55E684F8A4C280FED4A75A4D911E15E4B9D11E3438203FD498EE4B4DF692F4A B3427C5064427FAAB3DD162BD56E4A719E1418303FDA98ED4A8DF69B323C27CD73A0 5.28346
82 9DE971BEDB6A4384F8AE34278506040FF4A5375AACA8E0B729CC89F1A18101EEA4CF7658929C 57C569A13E2A30203F9539CE9319ECB55C688F2A1C181BE94D772586DB5D911E17E5 5.93926
83 67BA2C57BAD490E2BF2B4D49D1518905FEA98DF6DB322C27CD71A33C2870407FAD31DC9564C 705D94E644B890D088FB5467BA2C379AC579A13C2830207F9529D6971BECB624784F8 6.02626
84 996ECB2DE6BB22382FCA73627C4868407DA9633DD6C4870DF55C694F8A0C281FE54A77A5D991 E15E5B9511E3428203FD498EE4B0DF69956684D8A0C084FF54673A2C77BADC90E0BD 6.14314
85 644705D94E644B8B0D088FF5466BA2C37BADBEAB8D09F1418503FDA94EF498CF6DB123C1A23 C6870407FAD33DC961BAD5654705B94E5101FAA8CF7458AF55A921C57C579A93A2830 6.10257
86 9A93E2A30203F9519DE9B19ECB724386F8AD50E080DF5A6BBD2E37DAEC88D0BF2DCE88F11F6 A8CF75586F759931C17E559A1362C3020D2637DB6D48F09F35D68CF0A2C081FED4C74 5.64685
87 6FB59911D176539B13E2430223FD519EE8B124386F8AE34A78506140FF6A53BD2633DB6CF25CA 88F0A1C101DEB4C7765A6EB5D911E14C5060427FAA339D362BD56A4A705F95E6A4D 5.89711
88 91E17E6B9D11E14183037D29AEF4B8DF69B0CAF3627C4868407FAA33DD561BDD6E48725D4F8A 0C080FE54A75A4C6FB6DA90E1BE6BAD007FAD31DD961BAD7644785B96E644F8D0C09 6.30465
89 6C48F0BF35CE88F2A1C181BE94D77A586DB417E579912E2430223ED519EEAB1DEEB3243934A7 C526040FF2A73BD2633D96C48F09F35C8203FD498EE4B4DF6AB223C2DCA73227C684 6.06922
90 921C17E579A93A283120BF9539CE9B19ECB5F9AE3467950E080FF4A6BBD2E36DA6C88F0889716 18101FEA8CD7458EF759921C17E5799407F6A73AD2E37DB6C48F09F15D68CF0A0C1 5.62153
91 68CF4A0C0817E94E76A546BB6D991613E4B8430243FD4996E8B0DE6BB22382ECA73625C57F2A 33BD263BDD6E49705F55E694F0A0C0814B0DB69B32342FC972A2BC68504077A931DC 5.67005
92 969BAD5644705B94E644F8D0C080FF5665B8ADC90E0BF2BCD49D1418905FEA8CEF4D8EF4C27 CD73A33CA830606FA535DE971BED364448971218101FEA8CD7458EF359921C17E5599 5.53147
93 6BB26382ECA73627C5860407DAB335D561BC70DF55E694F0A4C281FED4A77A4C6FB6DA91B951 5E3438283BD499EECB0DF6AB22382DC80C880FD5467BA2C77AAD494E2BF2BCD49F14 5.76285
94 95E684D8A0C084FD5467BA6C57AAD494E2BC9E1458302FD29CED4B8D769B122C27C973A00407 BA933DD961BED664C745F94E6C4F8B0DCEF498EF65B121C37D571A13C2830207F950 5.78511
95 407F2A53AD2637D96C48F0DF15D684F0A0C14CF72586EB55911C16E5B9913E3430243DD4B15E EB525382F8AD3427C5062407F2A339D191E13E6B8D19E54182037D698EE4B0DB6BB0 5.4789
96 BE2BCD29F1498503FDA94EB498CF65B123C1A23C6870507FAD31DD961BAD5654785B94E40C88 4FD55673A6C57BADC94E2BE2BCD09D15531DE971BED3664784F9AE74478506080FF4 5.73751
Table 10d
97 438243FD599EE8B0DF6BB223A2FCA73225C57FAA73BD363BDD6E4870DF15C684F0A0C2807725 86FB5D911A15E4B9D11E1438203FD698D664C705F956684F8A0C880FF5467BA6C578 5.86339
98 BD56E4A715F95E6A4E8A0C482FE54677A6C491617E6B9D19E1418203FD29AEF4B8DF69B0CAF3 225C5868447FAA33DD161BCD664C725D1418501FCA94EB498DF6DB123C37CD71A13D 6.23575
99 4785F96E744F890C090F75267BB2CB7DACC82BCD09D1418905FEA9CE7498CF75B921C37D3C28 70607FAD35DE961B6D3664685F92E7441FEACCD7458EF75B931C17E559A13E2C3220 5.90959
100 B9515E1438203FD499EECB0DD6AB2A382FC8C5060427EAA339D362BDD6E4A715F15E684D817E D4C76A5C6BB6D891E17E4B9D19E14181DD165BCD764C745F94E6C4F890D088FF5465 5.69264
101 44F8D0E090FF5267BB2C37DAEC88E0BB2BCD18905FCA9CEF4D8EF75B925C37D571A53C29FA5 35DE971B6D7644685796E54578D0E080D58EF359921C17E579A1362832203FD559CE9 5.87696
102 BA2C779ADC90E0BF2ACD09F1419109FAAACDF6DB523C27C575A13D28B0607FB531DA9718470 5F94E644F8D0E090FF5267BB2CB7DAEC89A13E283020BF9539DE9319EEB724386F8AD 5.75721
103 4F0A0C081FE54A75A4C67B6DA91E1BE6BAD18283FD499EE4B4DF6BB223C2DCB73A23C684AA3 39D162BD56E48715F15E684F8A0C082FC8D76DB322C27CD73A23C2830606FA535DC95 5.65658
104 B1DEAB725382FCAD3427C5460407FAA33BD06CC8F0BF35C68CF2A0C101FE94C77A586FB4176 539912E2C30223ED599AE8B0DE6B726394F0A4C280FED4E75A4C6FB6DA90E1BE2B8D1 5.8741
105 4C772586EB55911C17E539913E3438203DD4B15EAB725382F8AD3427C5060407FAA339D16C48B 09F35CE8CF0A1C101BE94C772586DB5CA73227C4860407DAA335D163BDD6E4C725D 5.65109
106 B22382FCA73A23C6860487BAB32DD961BED55F95E6A4E8A0C480FF54E77A4C67B2D892E1D19E 54382037D698EF4B8DB69B22342BC971088FF5667BA2C779ACC90E0BF2BCD89F1618 5.5524
107 48709F15C684F4A2C181FE94E77A5C6BB4D8E539911E3430243DD499EECB2DE6BB22382C2745 062407FAA339D363BD96C48705F55E6903FD29AEF4B0DB6BB22342FC972A23C68704 5.96707
108 B624384F8AEB4678516040FF4A73BD2A35D80B72DCC89F1A1C121FEACCB76586F359911D9A93 A283120BFD519DE9B19EEB624382FAADC181FEB4C77A5C6FB5D911E17E4B9D15E341 5.70668
109 4B0DB69B32342BC973A2BC2870407FA931DCD664C705E956684D8B0C084FF5467BA6C578E13E 6B8D19E9418103FDA98EF4B8D769B121447890E090FF5267BA2CB7DACC88E0BF2BCD 5.89308
110 B55911E17E5B9913E2438203FD4996ECB2DD38AFCAD342745062417FAA73BD2633D96C495CE8 CF0A1C181BE94C772586DB5D911E17E5860407FAB33DD163BCD6648705E9566C4F88 5.68576
111 5F95E6A4E8A0C480FF54673A6C67BADC90E0D19E5438303FD69AEF4B8DB69B223C2FC9718604 47DAA335D161BDD6648705E9566C4F89A94EB4B8CF6DB121C27CD71A33D2830205F9 5.74131
112 A1C141FEB4CF765A6FB55951C16E5B9D13E13FD519EE9B1DEAB72438AFCAD342745462413B52 E35DA6C48F0BF35CE8CF2A1C101BE94D6BB223A2FCA73627C4868407FAA335D161BD 5.75276
113 5CE88F0A1C101BEB4D77A586DB5D991E17E4E2C34223ED519EEAB1DE6B326392F4AB3425407F 6A73AD2E33D96C48F0DF35C68CF4A0C1EE4B4DD6AB2A3C2DCA73A23C4860407BAB30 5.677
114 A2BC68705077A933DC969BED5654785B94E50C884FD5467BA2C77AAD490E2BE2B4D49F14FDA9 8EF4B8DF69B323C2FCD71A33C28706052CB7DAEC88E0BB29CC89F121A111F6ACCD74 5.84899
115 586F359931C17A559A1362830213F5559EE9B6A4784F8AEB46785160C0BF4A63BD2A35D80BF29 CC89F121C101EEA4CB76596FB5D931C27C5062417FAA339D263BDD6C4870DF15E69 5.58448
116 A63B92C37DA6C88D0AF25CE88F0A1C101DE8586F759931C17A579A13E2830203FD519EE9B624 384F8AE3467A5060C0FF4A63B52E37D8E539913E2430203FD4996E8B2DF6B326382D 5.68438
117 5B121C17C571A53C2930A07F9529D6931BEC85F96E54578D0A080EF5263B92C37DAAC88CCD89 B1418101FEA8CF7458AF75B929C57C5560C0FF6A63B52A37DA6C48F0BF25CE8CF0A1 5.51423
118 A5C6FB6D891E17E4B8D19E14182037D29AED6BB223A2ECAF3225C5860407FAA335D161BC705F 55E684F8A4C080FE54E77A4C67B2D891A23C6870507FA931DD969BAD5644785B96E4 5.99338
119 50E0C0DF5A6BB92C36DAECC8D0AF25CE88F11FEA8CD7558EF35B931C97A579A1362832209DE 9719ECB624784F9AE3467A5060C0FF6A5B55911E17E539911E3430203FD499EE8B2DC 5.6595
120 AEB427A516040BF4A73B52A35DB6CC8B0BF0F121C121FEA4CB76596F359931D17653991020BF D519DE931DECB624386FAAE34A78506077A586DB4D911A15E4B9511E3428203BD699 5.81244
121 539DA971BEDB664784F92E746795060C0DF42CB79AEC98E0BF29CC89F1218111FEA8CF745B12 5C37C571A53E2930A03F9539D69719ECF25CA8AF1A14141FEA4CF72586EB5D911C14 5.63205
122 ADC94E2BF2BCD09F1418105FCA8CE7498EF5C27C973A23CA830607FA531DC961B6D76445E644 B8B0D080FF5666BA2C77BACC98E0BF2930A03F9529DE9319ECB624784F9AE3427A50 5.76478
123 579A13C2830203F9539DE931BEDB6A4784F978D0E0A0FF5A63BB2D375AECA8F0B729CC89101F EAACF74D8AF75A929C57E569A93E2A313BD2A37DA6C48F09F25C68CF2A1C101FE94C 6.03504
124 A9CEF498DF6DB121C37CD75A33C2830207F8961BAD5644705B94E64478D0E090F75265B9AD49 4E0BF2B4D49D1518901FCA8CE74D8EF5F92E344795060C0FF4A6BBD2C37DAEC88F08 5.72503
125 54E73A6C77BADC90E1BE2B8D29E1498503FC4B8DF69B32342BC972A2BC6870407FA933DDD6E 48705F9566C4F8A0C884FF55673A2C7797CD75A33D28B0605FA539DE951BED3664585 5.96824
126 AAB3DD162BD56A4A715F95E684F8A0C480FDA546BB4D991E13E6B9D11E54382037D29AEC6BB 26382ECAF3225C5860447DAA33DD161BDBEABCD29F1498501FCA9CEF498CF6DB523C0 5.63674
Number N when transmitting antenna tBe 3 and counting of the IFFT/FFT that in ofdm communication system, uses operation be 1024 (that is, N t=3, N FFT=1024) time, can represent R (r) by following equation 9, and, can represent T (k) and q by the hexadecimal number shown in table 11 and table 12a and 12b IDcell[m].
Figure S05807074720060912D000362
Table 11
Residential quarter ID Sequence papr Residential quarter ID Sequence papr Residential quarter ID Sequence papr
0 CB8FEAC7 5.15583 43 85D9863D 4.80846 85 948EFBB2 5.57596
1 06F43328 5.62342 44 32B7E693 4.66558 86 C1917FF7 5.48329
2 AFED6295 6.22365 45 3F09AA6E 5.26735 87 6C9AE67E 4.93469
3 3E322540 5.26289 46 8087F514 5.12159 88 44BFEAC7 5.54454
4 D2593855 5.19138 47 7CA91C83 5.28859 89 565B8F5E 5.89093
5 FA1F55C8 5.05749 48 2EE7B95F 5.27919 90 A8F39A23 4.67016
6 0D610CCC 5.57522 49 72D518D7 5.17632 91 269FE877 4.88909
7 38373635 5.01025 50 B22A330D 6.8988 92 13EAF0DF 4.91822
8 C7B4744C 5.01551 51 2A84826E 5.28768 93 624FDBA7 4.997
9 6C90FCBB 5.20449 52 6A786C7F 5.83993 94 9CF725BA 5.13808
10 8122195F 5.04695 53 04020217 6.1875 95 D0FDA9AC 5.03832
11 0AA54C3F 4.66825 54 64E34E15 5.03925 96 F8806BAD 5.15283
12 94520024 4.84099 55 E2CA18D3 5.30496 97 AD29F883 4.95856
13 281008C9 5.29972 56 37AC5222 5.2167 98 CCB14BB9 4.83304
14 1C4B2890 5.25349 57 7011A0E9 4.86805 99 FE9E4FBA 5.31628
15 905AEC6F 4.84371 58 90841BE9 5.32789 100 1A345FA7 5.13454
16 BD30B2CD 5.44488 59 B2C87A9D 6.12947 101 E12EF826 5.34722
17 69E8C548 5.37924 60 F56D3C21 6.3528 102 DC6A6A85 5.07414
18 E6CA997C 4.68891 61 9DC9D0A2 5.47964 103 2E7DDFA4 5.20743
19 26A6D0C0 4.93526 62 B2853B2F 5.22007 104 6D79E1F4 5.22863
20 628666E5 4.4603 63 BBC475D3 5.53568 105 4FDCB0E0 5.22455
21 EE5304A7 4.97386 64 AE4A4E9B 5.59729 106 53076335 5.35733
22 48CB3622 5.08221 65 9933A60C 5.25657 107 025C0A04 5.74473
23 DFA0D85E 5.00963 66 F1978F10 4.7959 108 24190046 4.48846
24 0B906505 5.36358 67 6C1DCD04 5.10028 109 733AE2B4 5.30588
25 392C146F 4.93658 68 2515AE3B 5.04345 110 29A991FE 4.82382
26 6AB8723D 5.64086 69 0874401E 4.67421 111 D5E8E325 5.23798
27 D2034CC0 5.28929 70 AC11ED65 5.9294 112 F94B8091 4.77719
28 9BD1CBA9 5.17126 71 96211791 5.1407 113 09EB2797 5.51662
29 B4D7CB69 5.56246 72 69AFE10C 5.64556 114 538A66AA 5.86963
30 A9ED8CD3 5.289 73 B3D51D76 5.29334 115 D49EFACF 4.88564
31 7F0397C9 5.49132 74 8113FF9E 5.09747 116 2E5E8F59 5.24587
32 1782D4F5 4.90867 75 1D9EFBDD 5.18707 117 D2250855 5.11869
33 41C19746 5.29604 76 234549EE 4.78454 118 50031D89 5.26554
34 6F63CFD4 6.46788 77 927475FD 5.39462 119 D3FC03A0 5.03861
35 C7D92076 5.21648 78 B1404944 4.95295 120 9148DD11 5.15572
36 3A995F69 5.28823 79 552815A4 6.2202 121 FC0DD67A 5.1763
37 BD19FAC6 5.25253 80 470610E6 5.62302 122 B3620135 4.73865
38 345AEECD 5.28582 81 7EEF9D4B 4.88997 123 9B9DD357 5.48933
39 2F2F9452 4.68278 82 68645A2C 6.07151 124 BFCBF0BE 5.34988
40 2D186366 5.15683 83 4435E7A5 5.63064 125 371AB31A 5.35378
41 342FF0D6 5.12173 84 C8E58BB3 6.80605 126 38101882 5.49554
42 449E81E3 4.86028
Table 12a
Residential quarter ID Sequence papr
0 FED4E75A4C6FB2DA91E1BE2B8D09E9458301EECB4DF6AB2A382FCA73A27C4860407FAB31 5.15583
1 037D298EE4B0DF6BB223C2FCB73A23C68504335D163BDD6648725F956684F8A0C880FD54 5.62342
2 FDA98EF4A8DF6DB323C2FCD73A23CA870405DD165BED6644705F94E6C4B890D080FF5465 6.22365
3 077A933DD969BED7644705B96E7447890E08673A2C77AAD494E0BF2B4D49D1418101FCA8 5.26289
4 F9AE74479506080FF4A63BD2C37DAEC88D09897121A111FEA8CD74586F759931C17E5599 5.19138
5 0487FAB33DD961BED6644705D95E6C4F8B0D54677A4C77B2DC90E1BEABCD09E1498101FC 5.05749
6 FA531DC961BED7644785796E7447850A080DBA2C379ACC98E4BD2ACD89F1418109FEA8CC 5.57522
7 0F75267BB2CB79ACC88E0BB2BCD897161A11CE7498EF75B125C37C571A13E2930207F951 5.01025
8 F1A1C101EEA4CF76596FB59931D176579910203FD539DE931DECB624386F8AE34A7C5060 5.01551
9 0C084FF5467BA6C57AADC90E0BF2B4D09D14FDA9CEF4B8DF6DB122C2FC973A33CA830605 5.20449
10 F2DCA88F0A14101DEB4C7725A6EB55911E141362830213FD519CE9B15EEB52538AFCAF35 5.04695
11 080FB5466BAAC37BACC98E0BF2ACD09F1419A94EF498CF6DB521C27C571A33D28B0607F9 4.66825
12 F6DB121C37C575A13C2830605FB531DA97184705B94E6447890C080F75267BA2C37DACC8 4.84099
13 0B729CE88F1A18101EEA4CB74596F359911C9A13A283020BF9519CE9B1DECB624B82F8AD 5.29972
14 F5263B92D37DAEC88E0B72DCC88F1A18121D7458AF75A929C17C569A93A2831203F9519C 5.25349
15 1FEA8CD75586F359921C17E559B13E2832209DE971BECB6A4784F8AE3467A5060C0FF6A5 4.84371
16 E1BE2BAD19E9458103FD298EF4B8D769B12073A23C6870407BAB32DD965BCD664C745D95 5.44488
17 1C17E579A13E2830213FD559EE8B1DEAB524AEB4678506040FF4A73B52E35DA6CC8B09F0 5.37924
18 E2C34223ED519EEAB0DEEB724382FCAB362440FF2A53BD2E33D96D4870DF35D68CF4A0C0 4.68891
19 18101FEA8CE74D8EF65B921C37C571A53E28FAD35DC971B6D3644685F96E5447850A080C 4.93526
20 E644F8B0C080FB5666BAAC379ACC90E4BF281418503FCA94EF4B8CF6DB523C27C575A13D 4.4603
21 1BED7664685F96E7447850E080FF5263BB2DC90E0BD2ACD09F1418109FAAACE7458EF759 4.97386
22 E539D11E2438203DD499EECB0DE6BB223A2D2745062417F2A73BD2633D96E48705F15E68 5.08221
23 109FEA8CF74D8EF75B929C17E569A13A2830539DE951BEDB624584F92E7447950E0C0FF4 5.00963
24 EE4B0DD6AB2A382FCB73A23C4870407BA930BD56E4A705F15E684F8A0C080FE54677A4C5 5.36358
25 1362832213FD519CE9B15EAB72438AFCAD346040BF4A73B52E35DA6C48F0BF25CE8CF2A1 4.93658
26 ED3664784F9AE3467850E080FF5A6BB92C348E0BF2BCD897121A101F6A8CF7558EF75991 5.64086
27 17E579913E2430223ED519AE8B0DE6B326393427C506040FF6A53AD2E37D96C48709F15C 5.28929
28 E9B19ECB724B82FAAF34A7C5061407F2A539DAECC8D0AF2DCA8AF1A1C101FEA4CF72586D 5.17126
29 1498103FDA94EF498CF6DB521C37C575A33D07FAD31DC969BAD7654705F96E644F890C09 5.56246
30 EACCB76586FB59911D17E579B12E2C34203DE9B19ECB624B86F8AE34A7C5061407F2A739 5.289
31 3F5559EE9B1DEEB725382F8AD342745062413BD2A35DB6C48F0BF35CE8CF0A0C181BE94D 5.49132
32 C101BE94D7725C6FB5D991A15E4B9511E340D599EE8B1DE6B724382FCAF3627C5064407D 4.90867
33 3C2870406FA531DC971BED7644685792E545088FB5467BA2C77BADC90E4BD2ACD09F1618 5.29604
34 C27CD73A23CA870607FA535DE961B6D36645E6C4F890C088FF5667BAAC779ADC90E4BD28 6.46788
35 38AFCAD342745462417FAA739D363BD96C495C688F2A0C101BE94C7725C6FB5D911E17E4 5.21648
36 C67B2DA91E1BE2BAD09E9418103FDA98ED49B223C2DCB73A27C6870407FAB32DD961BCD5 5.28823
37 3BD2A37DB6CC8F09F35C688F0A1C181BE94D6FB5D931D17E539B12E2C34203ED519EEAB0 5.25253
38 C5060427FAA33DD162BD56E48715F95A6A4C81FED4E76A5C6FB6D891E17E4B8D19E54181 5.28582
39 30203FB529DE971BEDB624386F8AEB467A51F5A63B92D375AEC88E0B72DCC89F1218121C 4.68278
40 CE7498EF65B925C17D571A13C293CA03F9501B6D7664685792E7457850E0A0EF5267BB2C 5.15683
41 335D163BDD664C705E956684F8A0C884FF55C6FB6DA91E13E2B8D09E9458103FD29CEF48 5.12173
42 CD09F1418101FEA8CE74D8AF55B929C57E5428B0205FA531DA951BEDB664784F92E34679 4.86028
43 37DAAC88E0B72DCC89F1A1C101FEACCB7459929C17C569A13E2A30203F9539DE9B1DECB5 4.80846
44 C90E0BF2BCD09B1618109FAAACF7458EF7597CD75A33C2830607FA539DA951BED3624785 4.66558
45 34278526140FF6A73BD2633D96C48F09F15DA1C101FEA4CF725A6EB55951E16E5B9D13E0 5.26735
46 CAF3225C4860407DAA33DD161BCD664C725D4F8A4C281FE54E75A5C67B2D891E13E6B8D0 5.12159
47 203FD539DE9B1DECB624B82FAAE34A785061A63B92C37DAECC8D0AF2DCA88F0A14101FE9 5.28859
48 DE6B326382FCAF3626C5864427EAA33DD36148F09F35D68CF0A0C1817ED4C77A5C6FB6D9 5.27919
49 2342FCB73A23C2870407FAD31DD961BED565956684D8B0C880FD5467BA6C57BAC494E2BD 5.17632
50 DD961BED7644705F94E644B8B0C088FB56647B2D892E1BE2B8D29F1418101FCA9CEF498D 6.8988
51 2745062407FAA33BD263BD96C48705F55C68C181BE94C772586FB4D911E17E4B9D15E340 5.28768
52 D911E17E4B9D11E3428203FD699EECB0DD682F4AF3626C5864407EAA33DD363BDD6E4A71 5.83993
53 24382F8AE3427C5060407F2A53AD2633DB6CF25CA88F0A14101FEA4C772586FB55951E15 6.1875
54 DA6CC8F0AF25CE88F0A1C141FEA4C7725A6D1C17E559A13E2C32203F5519CE9B15EEB525 5.03925
55 2FCAF3626C5060427EAAB3DD162BDD6A4A70684F0A0C181FE94C76A5C6FB4D991613E6B9 5.30496
56 D11E14383037D69AEF4B8DB6BB223C2FC970860447DAB335D163BCD6648725E956684F88 5.2167
57 2C37DAEC98E0BB29CC8971218111F6A8CD755B921C37C571A13C2830A07FB529DE9319ED 4.86805
58 D2E33D96D48709F15C68CF0A0C0817ED4C74B55911C17E5B9913E3438243FD499EE8B0DD 5.32789
59 28B0207FB531DA971AEDB664584F9AE344780F75667BB2CB79AEC88E8BB29CD89F161811 6.12947
60 D6E4C725F9566C4D8B0C084FF5467BA6C579E13E2BAD19E9458102FD298EF4A8D769B121 6.3528
61 2BCD09D1518905FCA9CEF4D8CF65B921C17D3CA870407FA531DC961BED3664685792E744 5.47964
62 D599AEAB1DE6B326382FCAB3426C5064407DD2633DB6D48F09F35D684F0A2C081FED4E75 5.22007
63 7FAA33BD363BD96E4970DF55C684F0A4C0807725C6FB5D911E15E5B9D15E1438203BD699 5.53568
64 81FE94E76A5C6FB6D891617E4B8D19E14380996ECB0DE6BB263A2ECAF3225C5868407FA9 5.59729
65 7CD71A13D28B0205FB531DA971BED362478544F890E080F75667BA2C379ACC88E8BF29CC 5.25657
Table 12b
66 8283FD699EE4B0DD6BB2A382DCB73227C685AAB39D162BDD6E4A715F15A684F8A0C080FC 4.7959
67 7850E0A0EF5A67B92C375AAC88F0BF2DCC89109FEA8CE74D8EF55B921C17C569A13E2830 5.10028
68 860407FAA335D561BDD6648705F9566C4D89FED4A77A4C6FB6DA90E13E2BAD19E9418301 5.04345
69 7B2D890E0BEAB8D09E1418503FDA94EF498C2342FC972A23C28504077A931DD969BED764 4.67421
70 85F92E74478D0E080EF5263B92D375AAC88DCD89F1618109FEA8CF7458EF75A921C57C55 5.9294
71 70DF15C694F0A4C280FE54A77A4C67B2D891B9511E1438203FD699EECB0DD6BB22382DC9 5.1407
72 8E0BF2BCC89F1218111FEA8CF7458EF75B91579A53E2830203F9539D69319ECB6A4784F8 5.64556
73 73A23C6870407BAB33DD965BCD7644745D958A0C080FF54E77A4C77B2DC92E1BE2BCD29C 5.29334
74 8DF69B122C27C971A33C2830407FA531DE9564C745F95E6C4F8B0D088FB5467BAAC77BAC 5.09747
75 772586DB5D991E15E5B9D11E1438283FD698DEEB726392FCAB3627C5864407FAAB3DD161 5.18707
76 897121A101F6A8CF75586F759921C17E559930207F9529DE9319EDB6A4786F8AEB467A50 4.78454
77 74D8AF55B921C17E569A13E2A31203FD519CED3664785F92E7447950E0C0FF5A6BBD2C35 5.39462
78 8A8C082FF54673A4C77B2DC90E0BE2B8D09C037D698EE4B8DB69B32342FC972A23C68504 4.95295
79 6040FF4A73B52E35DB6C48B0BF25CE88F0A0EA4CB74596F35D911D17E539B12E2434203C 6.2202
80 9E1458102FD29CEF4B8D769B122C27CD73A00407BA933DD161BCD664C745F94E644F8B0C 5.62302
81 633DD6E4970DF55E684F8A4C280FED4E77A5D991A15E5B9D15E1438203FD498EECB0DF69 4.88997
82 9D6971BECB6A4384F8AE3467A506040FF4A4375AEC88F0BF29CE88F1218121EEACCF7458 6.07151
83 673A6C57AAD494E0BE2B4D09F1518105FCA98DF6DB322C27CD73A33CA830606FA535DC95 5.63064
84 99EECB0DE6BB22382ECAF3627C4860447DA963BD96C4870DF15E694F8A0C281FE54A77A5 6.80605
85 64C705D95E644F890C088FB5466BAAC77BACBEABCD29F1498103FDA9CEB4B8DF65B123C0 5.57596
86 9A93E2830203F9519DE9B19ECB724382F8AD5060C0FF5A6BBD2E37DAECC8F0BF25CE8AF1 5.48329
87 6F35D931C17E579912E2C30203FD599AEAB024B86FAAE3427C5260407F6A73BD2E37DB6C 4.93469
88 91617E4B8D11E5418203FD29AEF4B8DF6BB1CAF3627C4868407FAA33DD561BCD664C725D 5.54454
89 6C48F09F35C68CF2A0C101FE94D77A586FB517E539912E2C34223FD519EE8B1DEEB72638 5.89093
90 929C17E569A93A283020BFD539DE9319EEB5F9AE3447950E080FF4A63B92E36DA6C88F09 4.67016
91 684F0A2C0817ED4E76A5C6BB4D991E17E6B9438243FD499EE8B0DE6B3263A2FCA73627C5 4.88909
92 961BAD5654705B96E744F8D0E080FF5267B8ADC94E2BF2B4D09D1418905FCA9CEF4D8EF5 4.91822
93 6B3263A2ECA73227C4860447DAA33DD563BD70DF55C694F8A0C281FED4A77A4C67B6DA91 4.997
94 95E684D8B0C884FD5467BA6C77BAD494E2BD9E1418302FD29CED4B8DF69B323C2FC973A0 5.13808
95 40FF6A53BD2633D96C48F0DF35D68CF4A0C14CF725A6EB5D911C17E5B9913E2438243DD4 5.03832
96 BEABCD29F1498101FCA9CEB498CF65B121C0A23C6870407FA933DD969BAD7644785F94E5 5.15283
97 438203FD499EECB0DF6B3223A2ECAF3225C57FAA73BD363BD96C4870DF15C684F0A0C281 4.95856
98 BDD6E48705F95E684E8A8C082FF54673A4C591617E4B8D19E1438303FD29AEF4B8DB69B1 4.83304
99 4785F96E744F8D0E080FF5265BB2CB7DAEC82B4D49D1418905FEA9CEF498EF75B921C37C 5.31628
100 B9511E1438283BD698EE4B0DF6BB223C2DC8C5064407FAAB3DD363BDD6A4A705F15E6A4D 5.13454
101 44F8D0E080F75265BB2C379AEC88E8BF2BCC18905FEA9CEF498CF65B121C37C571A53E28 5.34722
102 BAAC779ADC98E4BD2ACD09F1618109FAAACCF65B523C27CD71A33C28B0205FA531DE9519 5.07414
103 4F0A0C280FED4E77A4C67B6DA91E1BE6B8D18283FD499EECB4DF6BB2A382FCA73227C484 5.20743
104 B15EEB72438AFCAD352745462417FAA339D16CC8F0BF25C688F0A1C181FEB4D7725C6DB4 5.22863
105 4C776586EB5D951E17E5B9D11E3438243DD4B1DEAB725382F8AD3427C5462407F2A339D0 5.22455
106 B223C2DCB73223C6870407BA932DD165BED55F15E6A4E8A0C082FF54673A6C77B2DC90E1 5.35733
107 48709F15C684F0A2C0817ED4C77A5C6FB4D8E539911E2438203FD4996E8B0DE6B326382C 5.74473
108 B624386F8AE34678506040BF4A73BD2A35D90B729CC88F1218101EEA4CF74586F35D931C 4.48846
109 4B0DF6BB32342BCB73A23C2870507FA933DCD6E4C725E956684F8A0C880FF55673A6C578 5.30588
110 B55911E16E5B9911E3438203FD499EE8B0DD38AF8AD352745060417FAA73BD363BDD6E48 4.82382
111 5F95E684F8A0C480FF54E77A6C67BAD890E0D19E54382037D29AEF4B0DB6BB22342FC971 5.23798
112 A1C141FEB4CF72586FB55951C16E5B9913E13FD519CE8B15EAB52438AF8AD35274506041 4.77719
113 5C688F0A0C181BE94D77A5C6FB4D991A17E5E2430223ED519EEAB1DEEB324392F4AF3625 5.51662
114 A23C68505077A933DD969BAD5644785B96E40C084FF54673A6C77AADC90E2BE2BCD09F14 5.86963
115 58EF759931C17E559A13E2830213FD559EE8B6A4786F9AEB427A5060C0FF4A63BD2E37D9 4.88564
116 A63B92E36DAECC8F0AF25CE88F1A1C141FE858EF359921C97E579B1362C30213FD519CE9 5.24587
117 5B925C17D571A13E2830203FB529D69719ED85792E54478D0A080EF5267B92D375AEC88D 5.11869
118 A546FB4D991613E4B8D11E14182037D29AED6B322382FCAF3625C5868407DAA33DD161BD 5.26554
119 50E0C0DF5A63B92E37DAECC8F0BF2DCE88F01F6A8CD74586F35B931C97A579A136283020 5.03861
120 AEB4278516040BF4A73B52E35DA6CC8B09F0F1A1C101FEACCF74596F359911D176539911 5.15572
121 539DE971BEDB664584F92E3447850E0C0DF52CB7DACC98E0BF2BCC897161A111FEA8CF74 5.1763
122 ADC90E2BF2B4D09F1518105FEA8CE7498EF4C27C971A23C2830407FA531DE971B6D76445 4.73865
123 579A13C2930A03FB539DE9319EDB6A4784F978D0E080FF5263BB2D375AEC88F0B72DCE89 5.48933
124 A9CEB4B8DF6DB523C37CD75A13C28B0207F9969BED7654705B94E644F890E090FF5667B8 5.34988
125 54673A6C77B2DC92E1BE2B8D09F1498103FC4B8DB6BB32342BCB73A23C2850507FA933DC 5.35378
126 AA339D363BDD6A48705F15A684F8A0C080FCA546BB4D991E13E4B8D19E14182037D29AEC 5.49554
Number N when transmitting antenna tBe 3 and counting of the IFFT/FFT that in ofdm communication system, uses operation be 512 (that is, N t=3, N FFT=512) time, can represent R (r) by following equation 10, and, can represent T (k) and q by the hexadecimal number shown in table 13 and table 14a and 14b IDcell[m].
Figure S05807074720060912D000392
Table 13
Residential quarter ID Sequence papr Residential quarter ID Sequence papr Residential quarter ID Sequence papr
0 2197 4.19373 43 5BD6 4.45284 85 9445 3.88229
1 0D7A 4.52301 44 3657 4.20409 86 4860 4.76487
2 AF7B 4.60134 45 8A40 4.61712 87 E905 4.24911
3 8D7D 4.43697 46 F79D 4.56916 88 5966 5.02129
4 5659 4.45478 47 346D 4.60012 89 FCA6 4.52957
5 786B 4.44368 48 6015 4.76798 90 1465 4.22799
6 58E5 4.71563 49 9696 6.17153 91 0572 4.58851
7 B43C 4.95923 50 EAE1 4.52968 92 23EB 4.65141
8 E01B 4.62147 51 162E 4.36476 93 9B0B 3.93818
9 AFBE 4.86292 52 4A4B 5.8336 94 467C 4.71579
10 5B33 4.48154 53 0493 4.53168 95 5BC9 4.39535
11 6326 4.65913 54 ADA1 4.63721 96 AECA 4.6301
12 B0FE 4.47246 55 C51E 4.59395 97 AF75 4.54999
13 7D50 4.57845 56 8B63 5.42257 98 E589 4.65198
14 1EF6 4.17626 57 5508 4.3453 99 72A0 5.45701
15 8264 4.64049 58 8887 4.54333 100 B70A 4.59467
16 33D9 4.55088 59 FE8D 3.99562 101 2B4E 4.1115
17 6C9F 4.52818 60 9F63 4.19506 102 8B35 4.76813
18 A76F 4.39514 61 00BA 4.50001 103 6841 4.41251
19 7A2A 5.06253 62 E7D1 4.41194 104 6290 4.75626
20 0488 4.70612 63 43B9 4.23605 105 7A62 4.43697
21 C25A 4.70319 64 CB61 4.69086 106 6550 4.23136
22 5779 4.44569 65 72DD 4.38892 107 11D8 4.49253
23 5F30 4.76144 66 C7A7 4.69706 108 0C67 4.14239
24 47D5 4.72732 67 7F9D 5.03396 109 6741 4.90459
25 89AF 4.66002 68 2AED 4.30871 110 F128 4.7665
26 E2A7 4.37136 69 E134 4.65157 111 9167 4.61706
27 F14E 4.40459 70 AD8D 5.89058 112 B2C1 4.80371
28 A963 4.44538 71 5065 4.48793 113 EDB3 4.27782
29 17B6 3.73691 72 3AA7 4.3173 114 4A74 4.58645
30 20BD 4.62356 73 F642 4.75911 115 1085 4.17758
31 9F2B 4.70725 74 C521 4.71632 116 1BD8 4.4536
32 A71A 5.22983 75 2D84 4.87128 117 64E8 4.18647
33 FCDD 5.40854 76 A335 4.33797 118 7538 5.1831
34 F309 4.48828 77 FC46 4.83393 119 FB16 4.33093
35 2260 4.97653 78 0907 4.70575 120 C5FB 4.43481
36 985D 4.3215 79 D71A 4.6364 121 5C8C 4.34469
37 BF8D 4.80015 80 C174 5.21763 122 EB32 4.3743
38 6345 4.47419 81 2583 4.36862 123 1531 4.46991
39 EE35 4.72718 82 F65F 4.64336 124 792F 4.39589
40 C2C8 4.33645 83 7CA0 4.89679 125 8461 4.42202
41 8DCA 4.72911 84 EDA5 4.86511 126 B8D0 4.53339
42 65EB 4.67972
Table 14a
Residential quarter ID Sequence papr
0 FE54A77A4C67B2D891E1BE2B8D19E1458301 4.19373
1 037D298EE4B8DF69B32342FCB73A2BC28704 4.52301
2 FDA98EF4A8DF6DB323C27CD73A33CA830605 4.60134
3 07FA931DC969BED5654705F96E744F8D0C09 4.43697
4 F92E744795060C0FF4A63BD2C37DAEC88D09 4.45478
5 0407FAB33DD961BCD6644745F94E6C4B8B0D 4.44368
6 FA535DC971BED3644685F96E7447850E080D 4.71563
7 0FF5267BB2C37DACC88E0BB2BCD89F161810 4.95923
8 F1A1C121EEA4CB74586F359911D17E539B11 4.62147
9 0C880FF5467BA6C77BADC90E2BF2BCD49F14 4.86292
10 F25CE88F1A1C101FEB4C7725A6FB55911E15 4.48154
11 080FF5666BA2C37BADC90E0BF2ACD09F1618 4.65913
12 F6DB123C37C571A13C28B0607FB539DE9718 4.47246
13 0B72DCE89F1A1C101FEA4CF74596F359911C 4.57845
14 F5263B92D37DAECA8E0BF2DCE89F121C121C 4.17626
15 1FEA8CD74586F35B921C17E579A1362C3020 4.64049
16 E13E2BAD19E1418303FDA9CED4B8DF69B121 4.55088
17 1C17E579A13E2C30203FD519CE9B1DEEB725 4.52818
18 E2C30223ED519EEAB1DE6B726382FCAF3625 4.39514
19 18105FEA9CEF498EF65B121C37C579A13E28 5.06253
20 E644B890C080FF5466BAAC379ACC98E0BD28 4.70612
21 1BED7644685792E7447850E080FF5A63BB2C 4.70319
22 E539D11E3430243FD5996ECB2DF6BB22382D 4.44569
23 101FEA8CF74D8EF75B921C17E579A13A2830 4.76144
24 EE4B4DD6AB223C2FCB73A27C4870407FA931 4.72732
25 13E2830203FD519CE9B1DEAB72438AFCAF35 4.66002
26 EDB664784F92E3467850E080FF4A63BD2E35 4.37136
27 17E579B13E2430203FD519EE8B0DEEB72638 4.40459
28 E9B19EEB624B82F8AF3427C5260407F2A739 4.44538
29 1418101FDA94EF4B8DF6DB123C37C575A33C 3.73691
30 EA4CB76586F359911C17E539B13E2C34203D 4.62356
31 3FD519CE9B1DEEB725382F8AF3427C506241 4.70725
32 C181BEB4C7725C6FB5D911A15E5B9D11E340 5.22983
33 3CA870607FAD35DC961BED7644785F96E545 5.40854
34 C2FCD73A33C2830607FA531DC961BED36445 4.48828
35 382F8AF342745062407F2A73BD2633D96C48 4.97653
36 C6FB2D891E1BE2B8D09E1458103FDA9CED49 4.3215
37 3BD2A37DB6CC8F0BF35CE88F0A0C181FE94D 4.80015
38 C5064427EAA339D363BD56E48705F15E684D 4.47419
39 30A07FB529DE971BECB624386F9AE3467851 4.72718
40 CEF4D8CF65B121C37C579A53C2830A03F950 4.33645
41 33DD161BCD6E4C705F95E6C4D8A0C880FF54 4.72911
42 CD09F1618101FEA8CF74D8EF75A929C17E55 4.67972
43 375AEC88F0BF29CE89F1A1C101FEA4CF7658 4.45284
44 C90E0BF2BCD09F1618101FEA8CF7458EF759 4.20409
45 34A78506040FF2A73AD2637D96C48709F15C 4.61712
46 CAF3627C5860447FAB33DD161BDD6E4C705D 4.56916
47 203F9539DE931DECB624386FAAE34A7C5061 4.60012
48 DE6B726382F4AB3426C5060407FAA33DD161 4.76798
49 23C2BC973A23C6870407FA931DD961BED764 6.17153
50 DD965BED664C705F94E6C4F8B0C080FB5465 4.52968
51 2745060417F2A73BD2633D96E4870DF55E68 4.36476
52 D911E15E4B9D11E3428203FD498EECB0DF69 5.8336
53 24382F8AE3427C506040FF2A53BD2633DB6D 4.53168
54 DAEC88F0AF2DCE88F1A1C101FEA4C772586D 4.63721
55 2FCAF3426C5064407FAA339D163BDD6E4A70 4.59395
56 D19E1418203FD29AEF4B0DF6BB22342BCB71 5.42257
57 2C37DACC98E0BF29CD8971218101FEA8CD74 4.3453
58 D2E33D96C48F09F15C68CF0A0C0817ED4E75 4.54333
59 28B0607FB539DE971AEDB624584F9AE74479 3.99562
60 D6E48705F95E6C4F8B0C084FF54673A2C779 4.19506
61 2B4D09D1418101FCA8CEF498EF75B921C37C 4.50001
62 D599EEAB0DE6B726392FCAF3427C5060407D 4.41194
63 7F2A739D2633D96E4970DF15E694F8A0C081 4.23605
64 81FED4C76A5C6BB6D991617E6B8D11E14181 4.69086
65 7C575A33D2830207FA539DE951BEDB664585 4.38892
Table 14b
66 8283FD498EE4B4DF6BB2A382FCA73227C685 4.69706
67 7850E0A0FF5A67BB2D37DAAC88F0BF2DCC89 5.03396
68 860407FAA33DD163BCD6E4C725E95E6C4D89 4.30871
69 7BADC92E0BE2B8D09F1418103FDA94EF498C 4.65157
70 85F92E74478D0E080FF5A63B92C37DAEC88D 5.89058
71 705F55C694F0A0C080FE54E77A4C67B6D891 4.48793
72 8E0BB2BCD89F121A101FEA8CF74586F75B91 4.3173
73 73A27C6870407FAB32DD165BCD6644705F94 4.75911
74 8DF6DB122C27CD71A33C2830606FA531DC95 4.71632
75 772586FB4D991E15E5B9D11E1428203FD498 4.87128
76 89F121A101F6A8CF75586F35B931C17E5599 4.33797
77 74D8EF75B929C57C569A13E2830203FD539C 4.83393
78 8A0C080FE54E73A4C77B2D890E0BE2BCD29D 4.70575
79 60C0FF4A73B52E37DB6C48B09F35CE88F2A0 4.6364
80 9E9458102FD298ED4B8D76DB323C27CD71A0 5.21763
81 633D96E48705F55C694F8A0C080FE54A77A5 4.36862
82 9DE971BEDB624786F8AE346785160C0FF6A5 4.64336
83 673A6C77BADC94E0BE2BCD09F1418101FCA8 4.89679
84 99EECB2DE6BB26382FCAF3227C4860447DA9 4.86511
85 64C705D95E644F890C080FF5466BA2C779AD 3.88229
86 9A13E283020BF9519CE931DEEB624382F8AC 4.76487
87 6FB5D931C17E539913E2430203ED519EE8B1 4.24911
88 91617E4B9D19E14183037D69AEE4B0DF6BB0 5.02129
89 6CC8F0BF35CE8CF0A0C181BEB4C7725C6FB4 4.52957
90 921C17C579A13E2830203FD539CE931DECB5 4.22799
91 684F0A0C0817ED4C77A546FB6D991613E6B8 4.58851
92 961BAD7644705B96E744F8D0E080FF5267B9 4.65141
93 6BB22382FCAF3227C5860407DAA33DD163BD 3.93818
94 9566C4D8A0C084FF54673A6C77BADC94E0BC 4.71579
95 407F6A53BD2E33DB6D48F0DF15C68CF0A0C1 4.39535
96 BEAB8D29E1498503FCA9CEF498CF6DB123C0 4.6301
97 438203FD499EECB2DF6B3263A2FCA73625C5 4.54999
98 BDD6E4A705F15E684F8A8C080FE54E73A4C5 4.65198
99 4705F96E7447890E080FF5267BA2C379ACC8 5.45701
100 B9D11E3438203FD699EE4B0DD6AB2A382FC8 4.59467
101 447890E080FF5267BB2C37DACC88E8BF2BCC 4.1115
102 BAAC379ACC98E0BF2BCD09B1619101FEA8CD 4.76813
103 4F0A4C280FED4A75A4C67B6D890E13E2B8D1 4.41251
104 B15EEB724382F8AF3427C5060417F2A339D0 4.75626
105 4C7765A6FB5D911E16E539D13E2430203FD4 4.43697
106 B223C2FCA73227C4870407FA933DD161BCD4 4.23136
107 48709F15D684F0A0C181FED4C77A5C6BB4D8 4.49253
108 B624384F8AEB4678506040FF6A63B52E37D9 4.14239
109 4B0DF6BB22342FCB73A23C68504077A931DD 4.90459
110 B5D951E17E539911E3430203FD499EE8B0DC 4.7665
111 5F95A684F8A0C080FF54677A6C67B2DC92E1 4.61706
112 A1C101FEB4C7725A6EB5D951C16E539911E1 4.80371
113 5CE8CF2A0C181FE94D77A586FB5D911A17E5 4.27782
114 A23C6850407FA933DC961BED7654705F94E4 4.58645
115 586F359931C17A559A13E2830203F5559CE9 4.17758
116 A63B92C37DAEC88F0BF2DCE88F1A1C101DE8 4.4536
117 5B125C37C571A53C2830A07FB529DE9319EC 4.18647
118 A546FB6D991617E4B9D11E1438303FD298EC 5.1831
119 50E0C0FF5A6BB92E37DA6C88D0BF25CE8AF0 4.33093
120 AEB4678506040FF4A73BD2E37DB6CC8B0BF1 4.43481
121 531DE951BEDB664584F9AE3447850E0C0DF4 4.34469
122 ADC94E2BE2BCD09F1518101FEA9CE7498EF4 4.3743
123 571A13C2930207F9539D6931BEDB624384F9 4.46991
124 A94EF4B8DF6DB121C37C571A33C28B0607F9 4.39589
125 54E73A4C67B2DC90E0BE2BCD29E1418101FD 4.42202
126 AAB39D363BDD6A48705F95E684F8A0C080FC 4.53339
As according to above-mentioned middle understand, the invention provides for transmitting/receive the solution of pilot signal, it can be by identifying residential quarter ID and sector ID with Walsh hadamard matrix and walsh code in ofdm communication system, increased thus discernible residential quarter ID in the ofdm communication system and the number of sector ID.In addition, the invention provides such solution, it can transmit/receive pilot signal by reduce sequence and Walsh hadamard matrix and walsh code with PAPR, has reduced thus the PAPR of pilot signal.In addition, the invention provides for transmitting/receive the solution of pilot signal, it can be by identifying transmitting antenna and residential quarter ID with Walsh hadamard matrix and walsh code in not needing the ofdm communication system of sector identification, increased thus discernible residential quarter ID in the ofdm communication system and the number of discernible transmitting antenna ID.
Although by illustrating and described the present invention with reference to certain preferred embodiment of the present invention, but those skilled in the art is to be understood that, can make therein the change on various forms and the details, and can not deviate from such as the spirit and scope of the present invention by the claims definition.

Claims (35)

1. method that is used in communication system pilot frequency code element being sent to from base station BS subscriber station SS, this communication system comprises the base station of location adjacent one another are, the method may further comprise the steps:
Transmit first group of subcarrier in the frequency domain of pilot frequency code element, this first group of subcarrier represents the First ray based on the identifier of base station; And
Transmission together with first group of subcarrier in the frequency domain of pilot frequency code element transmits second group of subcarrier, and this second group of subcarrier represents be used to second sequence of the peak value that reduces pilot frequency code element to average power ratio PAPR.
2. the method for claim 1, wherein, by using the Walsh hadamard matrix to generate the First ray of described identifier based on the base station, every row in this Walsh hadamard matrix comprises walsh code, particular row in this Walsh hadamard matrix corresponding to the described identifier of described base station, and be interleaved according to predetermined interleaving scheme, when transmitting first group of subcarrier, the signal map that will interweave to predetermined subcarrier to form first group of subcarrier.
3. method as claimed in claim 2, wherein, by the First ray of the described identifier based on the base station of following equation definition:
Figure FFW00000065049600011
Wherein, R (r) represents described First ray, H 128Represent 128 rank Walsh hadamard matrixs, and
Figure FFW00000065049600013
Represent 128 rank Walsh hadamard matrix H 128Row interweave ID CellThe described identifier that represents described base station, N RRepresent the length for the second sequence of the PAPR that reduces pilot frequency code element,
Figure FFW00000065049600014
N tThe number of expression transmitting antenna, and N UsedThe number of the subcarrier of empty data is not inserted in expression.
4. method as claimed in claim 2, wherein, described predetermined interleaving scheme is one of following:
Figure FFW00000065049600021
Wherein, l has from 0 to 127 value.
5. method as claimed in claim 2, wherein, in the communication system that does not need sector identification, walsh code is complete 1 walsh code, this complete 1 walsh code all have a value 1.
6. the method for claim 1, wherein pre-determined the second sequence of described PAPR be used to reducing pilot frequency code element, and this sequence is corresponding to the described identifier of described base station.
7. the pilot frequency code element that is the method for claim 1, wherein comprised first group of carrier wave and second group of subcarrier by following equation definition:
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein,
Figure FFW00000065049600024
The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier,
Figure FFW00000065049600025
Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600026
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system,
And
Figure FFW00000065049600027
Be expressed as:
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence And sequence In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Figure FFW00000065049600034
Wherein, work as N t2 and N FFTBe at 2048 o'clock, described
Figure FFW00000065049600035
Have the value that is defined by following equation:
Figure FFW00000065049600036
Figure FFW00000065049600037
Described
Figure FFW00000065049600038
With described
Figure FFW00000065049600039
Have the value by hexadecimal number definition as shown in the table:
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600042
With described
Figure FFW00000065049600043
Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
8. the pilot frequency code element that is the method for claim 1, wherein comprised first group of carrier wave and second group of subcarrier by following equation definition:
Figure FFW00000065049600044
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein, The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier,
Figure FFW00000065049600047
Represent described the second sequence, m represents the operation index of described the second sequence, Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system,
And Be expressed as:
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW00000065049600052
And sequence
Figure FFW00000065049600053
In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Figure FFW00000065049600054
Wherein, work as N t2 and N FFTBe at 1024 o'clock, described
Figure FFW00000065049600055
Have the value by following equation definition:
Figure FFW00000065049600056
Described
Figure FFW00000065049600058
With described
Figure FFW00000065049600059
Have the value by hexadecimal number definition as shown in the table:
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600062
With described Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
9. the pilot frequency code element that is the method for claim 1, wherein comprised first group of carrier wave and second group of subcarrier by following equation definition:
Figure FFW00000065049600064
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein,
Figure FFW00000065049600066
The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier,
Figure FFW00000065049600067
Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600068
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system,
And
Figure FFW00000065049600069
Be expressed as:
Figure FFW000000650496000610
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence And sequence
Figure FFW00000065049600072
In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Wherein, work as N t2 and N FFTBe at 512 o'clock, described Have the value that is defined by following equation:
And, described
Figure FFW00000065049600077
With described
Figure FFW00000065049600078
Have the value by hexadecimal number definition as shown in the table:
Figure FFW00000065049600079
Figure FFW00000065049600081
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600082
With described Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
10. the pilot frequency code element that is the method for claim 1, wherein comprised first group of carrier wave and second group of subcarrier by following equation definition:
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein, The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier,
Figure FFW00000065049600087
Represent described the second sequence, m represents the operation index of described the second sequence, Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system,
And Be expressed as:
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW000000650496000811
And sequence In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Figure FFW00000065049600091
Wherein, work as N t3 and N FFTBe at 2048 o'clock, described Have the value by following equation definition:
And, described
Figure FFW00000065049600094
With described
Figure FFW00000065049600095
Have the value by hexadecimal number definition as shown in the table:
Figure FFW00000065049600096
Figure FFW00000065049600101
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600102
With described
Figure FFW00000065049600103
Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
11. the method for claim 1, wherein comprised the pilot frequency code element of first group of carrier wave and second group of subcarrier by following equation definition:
Figure FFW00000065049600104
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein, The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier,
Figure FFW00000065049600107
Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600108
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system,
And
Figure FFW00000065049600109
Be expressed as:
Figure FFW000000650496001010
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW000000650496001011
And sequence
Figure FFW000000650496001012
In each so that also according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Wherein, work as N t3 and N FFTBe at 1024 o'clock, described
Figure FFW000000650496001014
Have the value by following equation definition:
And, described With described
Figure FFW00000065049600114
Have the value by hexadecimal number definition as shown in the table:
Figure FFW00000065049600115
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600121
With described Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
12. the method for claim 1, wherein comprised the pilot frequency code element of first group of carrier wave and second group of subcarrier by following equation definition:
Figure FFW00000065049600123
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein,
Figure FFW00000065049600125
The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier,
Figure FFW00000065049600126
Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600127
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system,
And
Figure FFW00000065049600128
Be expressed as:
Figure FFW00000065049600129
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence And sequence
Figure FFW000000650496001211
In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Wherein, work as N t3 and N FFTBe at 512 o'clock, described Have the value by following equation definition:
Figure FFW000000650496001214
And, described
Figure FFW000000650496001216
With described
Figure FFW000000650496001217
Have the value by hexadecimal number definition as shown in the table:
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600132
With described Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
13. an equipment that is used in communication system pilot frequency code element being sent to from base station BS subscriber station SS, this communication system comprises the base station of location adjacent one another are, and this equipment comprises:
Transmitter, be used for transmitting first group of subcarrier at the frequency domain of pilot frequency code element, this first group of subcarrier represents the First ray based on the identifier of base station, and transmitting second group of subcarrier together with the transmission of first group of subcarrier in this frequency domain, this second group of subcarrier represents be used to second sequence of the peak value that reduces pilot frequency code element to average power ratio PAPR.
14. equipment as claimed in claim 13 also comprises:
Selector, by using predetermined Walsh hadamard matrix to generate described First ray, the every row that should be scheduled to the Walsh hadamard matrix comprises walsh code, select the particular row in the predetermined Walsh hadamard matrix corresponding with the described identifier of described base station, and selected row is repeated pre-determined number;
Duplicator, walsh code walsh code, corresponding with sector marker that is used for setting in advance repeats pre-determined number;
A plurality of interleavers are used for according to predetermined interleaving scheme the every row in the predetermined Walsh hadamard matrix being interweaved;
A plurality of adders are used for each row that has interweaved of predetermined Walsh hadamard matrix and the walsh code of repetition are carried out XOR (XOR).
15. equipment as claimed in claim 13, wherein, transmitter also comprises:
Contrary fast fourier transform IFFT unit, be used for empty data be inserted among N the subcarrier, the subcarrier corresponding with DC component and inter-carrier interference elimination component, element in the pilot frequency code element is inserted in M the subcarrier in N the subcarrier, except the subcarrier that has wherein inserted empty data, and the signal that comprises a pilot frequency code element element and M subcarrier is carried out IFFT; And
The radio frequency processor is used for the signal after RF processes and transmit the IFFT processing.
16. equipment as claimed in claim 13 wherein, has pre-determined described the second sequence corresponding to the described identifier of described base station.
17. equipment as claimed in claim 13, wherein, described base station takies a plurality of residential quarters, and when not needing sector when difference in the communication system, walsh code is complete 1 walsh code, this complete 1 walsh code all have a value 1.
18. equipment as claimed in claim 17 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein, The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier, Represent described the second sequence, m represents the operation index of described the second sequence, Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described By following the Representation Equation:
Figure FFW00000065049600151
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW00000065049600152
And sequence
Figure FFW00000065049600153
In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Wherein, work as N t2 and N FFTBe at 2048 o'clock, described
Figure FFW00000065049600155
Have the value by following equation definition:
Figure FFW00000065049600156
Figure FFW00000065049600157
Described
Figure FFW00000065049600158
With described Have the value by hexadecimal number definition as shown in the table:
Figure FFW000000650496001510
Figure FFW00000065049600161
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described With described Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
19. equipment as claimed in claim 17 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
Figure FFW00000065049600164
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein,
Figure FFW00000065049600166
The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier, Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600168
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described
Figure FFW00000065049600169
By following the Representation Equation:
Figure FFW00000065049600171
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence And sequence In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Wherein, work as N t2 and N FFTBe at 1024 o'clock, described Have the value by following equation definition:
And, described
Figure FFW00000065049600178
With described
Figure FFW00000065049600179
Have the value by hexadecimal number definition as shown in the table:
Figure FFW000000650496001710
Figure FFW00000065049600181
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600182
With described Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
20. equipment as claimed in claim 17 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein, The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier,
Figure FFW00000065049600187
Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600188
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described By following the Representation Equation:
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW00000065049600192
And sequence In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Wherein, work as N t2 and N FFTBe at 512 o'clock, described
Figure FFW00000065049600195
Have the value by following equation definition:
Figure FFW00000065049600196
Figure FFW00000065049600197
And, described
Figure FFW00000065049600198
With described Have the value by hexadecimal number definition as shown in the table:
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600202
With described
Figure FFW00000065049600203
Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
21. equipment as claimed in claim 17 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein,
Figure FFW00000065049600206
The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier,
Figure FFW00000065049600207
Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600208
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described
Figure FFW00000065049600209
By following the Representation Equation:
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW00000065049600212
And sequence
Figure FFW00000065049600213
In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Figure FFW00000065049600214
Wherein, work as N t3 and N FFTBe at 2048 o'clock, described
Figure FFW00000065049600215
Have the value by following equation definition:
Figure FFW00000065049600216
And, described
Figure FFW00000065049600218
With described
Figure FFW00000065049600219
Have the value by hexadecimal number definition as shown in the table:
Figure FFW000000650496002110
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600222
With described Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
22. equipment as claimed in claim 17 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein,
Figure FFW00000065049600226
The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier, Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600228
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described
Figure FFW00000065049600229
By following the Representation Equation:
Figure FFW00000065049600231
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence And sequence
Figure FFW00000065049600233
In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Figure FFW00000065049600234
Wherein, work as N t3 and N FFTBe at 1024 o'clock, described
Figure FFW00000065049600235
Have the value by following equation definition:
Figure FFW00000065049600237
And, described With described
Figure FFW00000065049600239
Have the value by hexadecimal number definition as shown in the table:
Figure FFW000000650496002310
Figure FFW00000065049600241
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600242
With described
Figure FFW00000065049600243
Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
23. equipment as claimed in claim 17 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein,
Figure FFW00000065049600246
The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier, Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600248
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described
Figure FFW00000065049600249
By following the Representation Equation:
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW00000065049600251
And sequence In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Figure FFW00000065049600253
Wherein, work as N t3 and N FFTBe at 512 o'clock, described Have the value by following equation definition:
Figure FFW00000065049600255
Figure FFW00000065049600256
And, described
Figure FFW00000065049600257
With described Have the value by hexadecimal number definition as shown in the table:
Figure FFW00000065049600259
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600261
With described
Figure FFW00000065049600262
Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
24. method with the pilot frequency code element of channel estimating obtained synchronously that be used for to generate is used for communication system, a plurality of residential quarters that this communication system comprises a plurality of base stations of location adjacent one another are, taken by the base station and at the subscriber station of moving between cells, this pilot frequency code element comprises a plurality of subcarriers, and the method may further comprise the steps:
Generate First ray, with in the middle of the subcarrier that this First ray is mapped to pilot frequency code element, for first group of subcarrier identifying the base station; And
Generate the second sequence, with the second sequence mapping in the middle of the subcarrier of pilot frequency code element, be used for reducing the peak value of pilot frequency code element to second group of subcarrier of average power ratio PAPR.
25. method as claimed in claim 24 is further comprising the steps of:
First ray and the second sequence mapping are arrived corresponding subcarrier;
The subcarrier of mapping is carried out contrary fast fourier transform IFFT, and transmit the subcarrier after IFFT processes.
26. method as claimed in claim 24 wherein, defines First ray by following equation:
Figure FFW00000065049600263
Figure FFW00000065049600264
Wherein, R (r) represents described First ray, H 128Represent 128 rank Walsh hadamard matrixs, and
Figure FFW00000065049600265
Represent 128 rank Walsh hadamard matrix H 128Row interweave ID CellThe described identifier that represents described base station, N RRepresent the length for the second sequence of the PAPR that reduces pilot frequency code element,
Figure FFW00000065049600266
N tThe number of expression transmitting antenna, and N UsedThe number of the subcarrier of empty data is not inserted in expression.
27. method as claimed in claim 24, wherein, by using the Walsh hadamard matrix to generate the sequence that is used for the identification base station, every row in this Walsh hadamard matrix comprises walsh code, particular row in this Walsh hadamard matrix corresponding to the described identifier of described base station, and be interleaved according to predetermined interleaving scheme, when transmitting first group of subcarrier, the signal map that will interweave is to predetermined subcarrier, to form first group of subcarrier.
28. method as claimed in claim 27, wherein, described predetermined interleaving scheme is one of following:
Figure FFW00000065049600271
Wherein, l has from 0 to 127 value.
29. method as claimed in claim 27, wherein, in the communication system that does not need sector identification, walsh code is for all having complete 1 walsh code of value 1.
30. method as claimed in claim 24 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
Figure FFW00000065049600272
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein,
Figure FFW00000065049600274
The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier,
Figure FFW00000065049600275
Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600276
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described By following the Representation Equation:
Figure FFW00000065049600278
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW00000065049600281
And sequence
Figure FFW00000065049600282
In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Figure FFW00000065049600283
Wherein, work as N tBe 2 and N FFTBe at 2048 o'clock, described Have the value by following equation definition:
Figure FFW00000065049600285
And, described
Figure FFW00000065049600287
With described
Figure FFW00000065049600288
Have the value by hexadecimal number definition as shown in the table:
Figure FFW00000065049600289
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described With described
Figure FFW00000065049600293
Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
31. method as claimed in claim 24 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
Figure FFW00000065049600294
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein,
Figure FFW00000065049600296
The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier,
Figure FFW00000065049600297
Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600298
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described By following the Representation Equation:
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW000000650496002911
And sequence
Figure FFW000000650496002912
In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Figure FFW00000065049600301
Wherein, work as N t2 and N FFTBe at 1024 o'clock, described
Figure FFW00000065049600302
Have the value by following equation definition:
Figure FFW00000065049600304
And, described
Figure FFW00000065049600305
With described
Figure FFW00000065049600306
Have the value by hexadecimal number definition as shown in the table:
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600312
With described
Figure FFW00000065049600313
Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
32. method as claimed in claim 24 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein, The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier, Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600318
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described
Figure FFW00000065049600319
By following the Representation Equation:
Figure FFW000000650496003110
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW000000650496003111
And sequence
Figure FFW000000650496003112
In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Figure FFW000000650496003113
Wherein, work as N t2 and N FFTBe at 512 o'clock, described Have the value by following equation definition:
Figure FFW00000065049600321
And, described
Figure FFW00000065049600323
With described
Figure FFW00000065049600324
Have the value by hexadecimal number definition as shown in the table:
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600332
With described
Figure FFW00000065049600333
Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
33. method as claimed in claim 24 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
Figure FFW00000065049600334
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein, The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier, Represent described the second sequence, m represents the operation index of described the second sequence, Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described By following the Representation Equation:
Figure FFW000000650496003310
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW000000650496003311
And sequence
Figure FFW000000650496003312
In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Wherein, work as N t3 and N FFTBe at 2048 o'clock, described
Figure FFW000000650496003314
Have the value by following equation definition:
Figure FFW000000650496003315
And, described
Figure FFW000000650496003317
With described
Figure FFW000000650496003318
Have the value by hexadecimal number definition as shown in the table:
Figure FFW00000065049600341
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described With described
Figure FFW00000065049600343
Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
34. method as claimed in claim 24 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
Figure FFW00000065049600351
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein,
Figure FFW00000065049600353
The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier, Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600355
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described
Figure FFW00000065049600356
By following the Representation Equation:
Figure FFW00000065049600357
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW00000065049600358
And sequence
Figure FFW00000065049600359
In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Wherein, work as N t3 and N FFTBe at 1024 o'clock, described Have the value by following equation definition:
Figure FFW000000650496003512
And, described
Figure FFW000000650496003514
With described Have the value by hexadecimal number definition as shown in the table:
Figure FFW00000065049600361
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described With described
Figure FFW00000065049600363
Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
35. method as claimed in claim 24 wherein, is comprised the pilot frequency code element of first group of subcarrier and second group of subcarrier by following equation definition:
Figure FFW00000065049600364
ID cell∈{0,1,...,126},n=0,1,...N t k ∈ { - N FFT 2 , - N FFT 2 + 1 , . . . , N FFT 2 - 1 }
Wherein, The expression pilot frequency code element, ID CellRepresent the described identifier of described base station, n represents the transmitting antenna identifier, Represent described the second sequence, m represents the operation index of described the second sequence,
Figure FFW00000065049600373
Represent operation the second sequence the m time, k represents sub-carrier indices, N UsedThe number of the subcarrier of empty data, N are not inserted in expression tThe number of expression transmitting antenna, N FFTBe illustrated in counting of the contrary fast fourier transform IFFT/ fast fourier transform FFT operation used in the described communication system, and described
Figure FFW00000065049600374
By following the Representation Equation:
Wherein, according to the number N of transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, come defined nucleotide sequence
Figure FFW00000065049600376
And sequence In each so that also
Number N according to transmitting antenna t, and the counting of the IFFT/FFT that in described communication system, uses operation, define
Figure FFW00000065049600378
Wherein, work as N t3 and N FFTBe at 512 o'clock, described
Figure FFW00000065049600379
Have the value by following equation definition:
Figure FFW000000650496003710
Figure FFW000000650496003711
And, described With described
Figure FFW000000650496003713
Have the value by hexadecimal number definition as shown in the table:
Figure FFW000000650496003714
Wherein, in this table, " residential quarter ID " represents ID Cell, " sequence " expression is described
Figure FFW00000065049600382
With described
Figure FFW00000065049600383
Hexadecimal numerical value, and " papr " expression predetermined PARP corresponding with this hexadecimal numerical value.
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