JP3954906B2 - Data distribution system and method, receiving apparatus and method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data distribution system and method, and a receiving apparatus and method for scrambling the data when transmitting data such as newspapers, books, and magazines via a satellite, for example.
[0002]
[Prior art]
For example, in pay television broadcasting (or music broadcasting) using a broadcasting satellite, a program is scrambled and distributed in order to prevent non-subscriber programs from being intercepted. A person who wants to watch a program can receive a scramble key (decryption key) for unscrambling by signing a reception contract with the program provider. The program can be viewed.
[0003]
Currently, there are so-called core tech (COATEC) system, sky port (SKYPORT) system, and the like as scramble systems that are put into practical use in pay television broadcasting using broadcasting satellites.
[0004]
Recently, as a data broadcasting system that electronically distributes data such as newspapers (newspaper data), for example, newspaper data is inserted into a satellite data channel and transmitted via a satellite. It has been. In this case, for example, in a data receiving apparatus in each home (contractor side) that has contracted the distribution of newspaper data, a signal from the satellite is received, and the newspaper data inserted into the data channel is taken out. The newspaper data is recorded on a recording medium such as a magnetic disk or a magneto-optical disk, and is read from there as necessary. The read data is displayed on, for example, a display or printed out, so that the contractor can see the newspaper.
[0005]
[Problems to be solved by the invention]
By the way, the above-described scramble system is for television broadcasting or the like for mainly viewing a program in real time, and when this is applied to the above-described data broadcasting system, there are the following problems. there were.
[0006]
In other words, according to the scramble method described above, it is only possible to select whether the program transmission is scrambled or non-scrambled, so only a uniform service is provided to all subscribers. Can not do it. That is, a certain contractor cannot view predetermined special newspaper data, and other contractors cannot disable viewing of the special newspaper data.
[0007]
As a result, the contractor pays a so-called reception fee regardless of whether or not to view the broadcasted newspaper data. Therefore, from the contractor's side, the reception fee is paid not only for the newspaper data that the contractor needs but also for the newspaper data that is not necessary, which causes unfairness. This hinders the increase in the number of subscribers and further reduces the profits of the information provider.
[0008]
In the above-described scramble system, a scramble key is required to unscramble the program when the program is received. The scramble key is transmitted along with the program. For this reason, for example, newspaper data (scrambled) received before the contract is recorded on the recording medium, and after the contract is signed, the scramble key is obtained and the newspaper recorded on the recording medium. Unscrambled data cannot be viewed.
[0009]
The present invention has been made in view of such circumstances, and enables scrambling and descrambling suitable for a data broadcasting system, thereby providing various forms of services. To do.
[0010]
[Means for Solving the Problems]
  In the data distribution system of the present invention, the transmission device isData for a search screen on which predetermined content data and a heading of content data are displayed are related to each other so that the content data can be used from the heading.First encryption means for performing first encryption on the content data of the distribution data using the first key information, content data subjected to the first encryption, andSearch screenData, content data andSearch screenSecond encryption means for performing second encryption using second key information common to data, second key information, first encryption, and second encryption A multiplexing unit that multiplexes the distribution data; and a transmission unit that transmits the multiplexed data multiplexed by the multiplexing unit. The reception device receives the multiplexed data transmitted by the transmission unit of the transmission device. Receiving means for receiving, separating means for separating the second key information and the distribution data from the multiplexed data received by the receiving means, and the second encryption of the distribution data is released using the second key information First releasing means, recording means for recording the distribution data whose second encryption has been released by the first releasing means on the recording medium, and content data of the distribution data recorded on the recording medium by the recording means Get first key information when is used , Using the first key information acquired, characterized in that it comprises a second canceling means for canceling the first cipher made to the content data.
[0012]
  The data distribution method of the present invention includes:Data for a search screen on which predetermined content data and a heading of content data are displayed are related to each other so that the content data can be used from the heading.A first encryption step for performing a first encryption on the content data of the distribution data using the first key information, a content data subjected to the first encryption, andSearch screenData, content data andSearch screenSecond encryption step for performing second encryption using second key information common to data, second key information, first encryption, and second encryption are performed A multiplexing step for multiplexing the distribution data; a transmission step for transmitting the multiplexed data multiplexed in the processing of the multiplexing step; a reception step for receiving the multiplexed data transmitted by the transmission step; A separation step for separating the second key information and the distribution data from the multiplexed data received in the processing of the step, and a first release for releasing the second encryption of the distribution data using the second key information Step, a recording step for recording the distribution data whose second encryption is canceled by the first cancellation step on a recording medium, and content data of the distribution data recorded on the recording medium by the processing of the recording step are used. When, acquires first key information by using the first key information acquired, characterized in that it comprises a second release step of releasing the first cipher made to the content data.
[0013]
  In the data distribution system and method of the present invention,Data for a search screen on which predetermined content data and a heading of content data are displayed are related to each other so that the content data can be used from the heading.Content data of the distribution data is subjected to the first encryption using the first key information, the content data subjected to the first encryption, andSearch screen dataContent data andSearch screenSecond encryption is performed using second key information common to the data, and the second key information is multiplexed with the first encryption and the distribution data subjected to the second encryption. The multiplexed data is transmitted, the transmitted multiplexed data is received, the second key information and the distribution data are separated from the received multiplexed data, and the second encryption of the distribution data is performed. Is released using the second key information, the distribution data released from the second encryption is recorded on the recording medium, and the content data of the distribution data recorded on the recording medium is used. The first key information is acquired, and the first encryption applied to the content data is released using the acquired first key information.
[0014]
  The receiving device of the present invention includes: content data that is transmitted from the transmitting device and that has been subjected to the first encryption based on the first key information and the second encryption based on the second key information; Encryption was appliedSearch screenReceiving means for receiving multiplexed data in which distribution data composed of data and second key information are multiplexed, and separating means for separating the second key information and distribution data from the multiplexed data received by the receiving means And a first release means for releasing the second encryption of the distribution data by using the second key information, and the distribution data for which the second encryption has been released by the first release means, And when the content data of the distribution data recorded on the recording medium by the recording means is used, the first key information is acquired, and the acquired first key information is used to store the content data. And a second release means for releasing the applied first encryption.
[0015]
  The reception method of the present invention includes a content data that is transmitted from a transmission device and that has been subjected to first encryption based on first key information and second encryption based on second key information; Encryption was appliedSearch screenA reception step for receiving multiplexed data in which distribution data composed of data and second key information are multiplexed, and separating the second key information and distribution data from the multiplexed data received in the processing of the reception step The separation data, the first decryption step for canceling the second encryption of the distribution data using the second key information, and the distribution data for which the second encryption has been canceled in the processing of the first cancellation step When the content data of the distribution data recorded on the recording medium in the recording step and the recording step is used, the first key information is acquired, and the acquired first key information is And a second releasing step for releasing the first encryption applied to the content data.
[0016]
  In the receiving apparatus and method of the present invention, the content data transmitted from the transmitting apparatus and subjected to the first encryption based on the first key information and the second encryption based on the second key information; Second encryption was appliedSearch screenMultiplexed data in which distribution data composed of data and second key information are multiplexed is received, the second key information and distribution data are separated from the received multiplexed data, and the second encryption of the distribution data is performed. Is released using the second key information, the distribution data released from the second encryption is recorded on the recording medium, and the content data of the distribution data recorded on the recording medium is used. The first key information is acquired, and the first encryption applied to the content data is released using the acquired first key information.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a configuration example of a data broadcasting system to which the present invention is applied. For example, a newspaper company as an information provider has a large computer 1. The large computer 1 stores a paper database. This paper database includes article information for printing on newspapers, layout information, and the like. The data of this database is transmitted to the workstation 2 as necessary, and edited there.
[0022]
That is, the data in the database is edited into article data in a format that can be easily searched on the receiver (contractor) side, for example, for each page. For example, by this editing, a screen for search is created in which the layout is kept as it is, and the paper surface is reduced as it is so that only the headline can be seen. Further, the search screen (heading) is related to the article describing the details so that the corresponding article can be displayed from the heading. In this way, the data edited in a form that can be easily searched on the receiver side is transmitted to the broadcast station 3 via, for example, a terrestrial data line.
[0023]
The data (newspaper data) transmitted to the broadcasting station 3 is inserted into a satellite data channel, for example, as will be described later, and is transmitted to the receiver side via the satellite (broadcast satellite (BS) or communication satellite (CS)) 4. (For example, it is transmitted to a receiver (contractor) in each home).
[0024]
2 and 3 show the detailed configuration of the broadcasting station 3. FIG. Newspaper data transmitted from a newspaper company as an information provider is temporarily stored in the information storage unit 26 in predetermined information units (information 1, 2,..., N) as shown in FIG. That is, the newspaper data is temporarily stored in the information storage unit 26 in units of, for example, one page, a comprehensive page, a business situation page, a local page, and a radio / TV program column.
[0025]
The newspaper data of a predetermined information unit stored in the information storage unit 26 is supplied to the information unit scramble processing unit 27. In the information unit scramble processing unit 27, a predetermined scramble key (this is a scramble key for selectively scrambling newspaper data in a predetermined information unit, hereinafter referred to as an information unit scramble key as appropriate). The newspaper data of a predetermined information unit is selectively scrambled.
[0026]
That is, in the information unit scramble processing unit 27, some of the unit newspaper data stored in the information storage unit 26 such as one page, general page, business situation, local page, radio / TV program column (for example, , Commercial and local newspaper data) or all of them are selected, and only the selected newspaper data is scrambled using an information unit scramble key (this scramble is the data scramble shown in FIG. 3 described later). It is applied in the same manner as in the case of the bra 14).
[0027]
Here, newspaper data of a predetermined information unit to be scrambled by the information unit scramble processing unit 27 is preset (selected) by an information provider, for example. The information unit scramble key is transmitted from an information provider together with newspaper data. Further, the same information unit scramble key can be used for the newspaper data to be scrambled by the information unit scramble processing unit 27, or the same data unit scramble key can be used. ing.
[0028]
The newspaper data of a predetermined information unit selectively scrambled as described above is serialized (arranged in series) and output to the data scrambler 14 of FIG.
[0029]
In the data scrambler 14, the newspaper data is scrambled corresponding to the pseudo-random sequence output from the PN (PseudoNoise) generator 13 and output to the independent data channel multiplexing circuit 12. The pseudo-random sequence generated by the PN generator 13 corresponds to a scramble key input thereto (this is a scramble key for scrambling the entire newspaper data, hereinafter referred to as a transmission channel scramble key as appropriate). Is set.
[0030]
Here, from the newspaper company as an information provider, in addition to the newspaper data and the information unit scramble key described above, common information including transmission channel scramble key, data identifier (for identifying newspaper data), etc., and data Data such as a unique receiving device ID and contract contents set for each data receiving device such as the receiving device 6 (FIG. 1) is transmitted.
[0031]
The transmission channel scramble key, common information, receiving device ID, and contract content are supplied to the encryption circuit 11 (the transmission channel scramble key is also supplied to the PN generator 13) and encrypted there. The encrypted data is supplied to the independent data channel multiplexing circuit 12 as related information.
[0032]
The independent data channel multiplexing circuit 12 multiplexes the scrambled newspaper data supplied from the data scrambler 14 and the related information supplied from the encryption circuit 11 and outputs the multiplexed data to the digital channel signal multiplexing circuit 15.
[0033]
The digital channel signal multiplexing circuit 15 also receives an audio signal (at least a part of which is an audio signal accompanying a video signal described later) transmitted as a digital channel signal. The digital channel signal multiplexing circuit 15 multiplexes the input audio signal (digital audio signal) and the data supplied from the independent data channel multiplexing circuit 12 and supplies the multiplexed data to the 4-phase DPSK modulator 16.
[0034]
The four-phase DPSK modulator 16 performs four-phase DPSK modulation on the input data and outputs it to the video signal / digital channel signal multiplexing circuit 17. The video signal / digital channel signal multiplexing circuit 17 also receives a video signal to be broadcast at the broadcasting station 3. The audio signal input to the digital channel signal multiplexing circuit 15 is a digital signal, whereas the video signal input to the video signal / digital channel signal multiplexing circuit 17 is an analog signal.
[0035]
The video signal / digital channel signal multiplexing circuit 17 frequency-multiplexes the input video signal and the signal supplied from the four-phase DPSK modulator 16 and outputs the result to the FM modulator 18. The FM modulator 18 FM modulates a predetermined carrier with the input signal and outputs the result to the up-converter 19. The up-converter 19 converts the frequency of the input FM signal into a signal in a frequency band on the order of gigahertz (for example, Ku band or Ka band). The FM signal output from the up-converter 19 is amplified by the power amplifier 20 and then supplied to the transmission antenna 21 from which it is transmitted to the satellite 4 (FIG. 1).
[0036]
FIG. 4 shows a format (A mode format) of 4-channel DPSK-modulated digital channel data. As shown in the figure, one frame of data is composed of data of a total of 2048 bits, 64 bits wide and 32 bits long. A frame synchronization signal, a control signal, and a range bit signal are arranged (recorded) in the first 2 bits × 32 bits range.
[0037]
Since one frame of data is transmitted in a time of 1 ms, the transmission rate is 2.048 Mbps.
[0038]
The frame synchronization signal is a signal for synchronizing each frame. As for the control signal, whether the mode is A mode or B mode, whether the television audio signal (audio signal accompanying the video signal) (arranged in audio 1 and 2) is a stereo signal, or monaural 1 Information indicating whether the signal is a channel signal or a monaural 2-channel signal is included. Further, the control signal is a stereo audio signal, whether the additional signal (arranged in audio 3 and 4) added in addition to the television audio is a mono 1 channel audio signal, or a mono 2 channel audio signal. Or information indicating whether the data is other than voice.
[0039]
As shown in FIG. 4, in the next 10 × 32 bit range after the first 2 × 32 bit range and the subsequent three 10 × 32 ranges, audio data of audio 1 to audio 4 are recorded ( (However, as described above, data other than the voice may be arranged in the voices 3 and 4 as described above). In each range of 10 × 32 bits, 32 samples of audio data are arranged. That is, the number of bits per sample is 10 bits.
[0040]
In the A mode, one channel of audio data is arranged in the 10 × 32 bit range. In the B mode, one channel of audio data is in the 20 × 32 bit range. To be placed. That is, in the B mode, higher quality audio data can be transmitted.
[0041]
Next to the audio 4 data, independent data channel data is arranged in a 15 × 32 bit range, and a horizontal error correction code is arranged in the last 7 × 32 bit range.
[0042]
The data of the independent data channel shown in FIG. 4 is transmitted in predetermined packet units. For example, one packet is composed of 288 bits, the first 16 bits are a header, substantial data is arranged in the subsequent 190 bits, and the error correction code of the packet is arranged in the last 82 bits. The header includes at least a service identification code and its error correction code (check bit), and the service identification code includes, for example, a code for identifying the above-described related information and newspaper data.
[0043]
In the independent data channel, related information output from the encryption circuit 11 shown in FIG. 3 and newspaper data output from the data scrambler 14 are allocated in units of packets, and the allocated data of the packet (the data) Is a related information or newspaper data), a service identification code is set.
[0044]
On the receiver side, the transmission channel scramble key of the information provider can be detected by monitoring packets of related information (transmission channel scramble key, common information, receiver ID, contract details, etc.) When the data receiving apparatus having the receiving apparatus ID included in the transmitted related information matches the contract content, it is possible to download information (newspaper data) provided by a predetermined information provider.
[0045]
Data as described above is transmitted from the broadcasting station 3 to the satellite 4 in FIG. 1, and further transmitted from the satellite 4 to, for example, a receiver (contractor) in each home. In each home, a signal transmitted from the satellite 4 is received by a receiving antenna (parabolic antenna) 5 and further converted into a predetermined intermediate frequency signal (IF signal). This IF signal is input to the data receiving device 6. The IF signal input to the data receiving device 6 is demodulated there and recorded on the recording medium 8 by the recording device 7.
[0046]
After the newspaper data is recorded on the recording medium 8, the contractor operates the user terminal 9 to read the newspaper data through the recording device 7 and the receiving device 6 and display it on the monitor 10a, or The printer 10b can print out. When the recording medium 8 is detachable, the recording medium 8 is directly attached to the user terminal 9 and the newspaper data recorded there is displayed on the monitor 10a or the printer 10b. Can be printed out.
[0047]
The receiving device 6 and the user terminal 9 can be configured integrally.
[0048]
Next, FIG. 5 and FIG. 6 show the detailed configuration of the data receiving device 6. The IF signal from the receiving antenna 5 is input to an FM demodulator 71 that constitutes a BS tuner. The FM demodulator 71 receives a BS tuner control signal from a channel button (not shown). The FM demodulator 71 demodulates the IF signal of the channel corresponding to the BS tuner control signal into a baseband signal and outputs it to the video signal / digital channel signal separation circuit 72. The video signal / digital channel signal separation circuit 72 separates the video signal and the digital channel signal from the input signal, and outputs the video signal to the monitor 10a via, for example, the user terminal 9 (FIG. 1) for display. Let
[0049]
On the other hand, the digital channel signal separated by the video signal / digital channel signal separation circuit 72 is input to the four-phase DPSK demodulator 73 and demodulated. The signal output from the 4-phase DPSK demodulator 73 is input to the digital channel signal separation circuit 74, where it is converted into an audio signal (a signal disposed in the audio 1 to 4 shown in FIG. 4) and an independent data channel signal. To be separated. When the audio signal corresponds to the video signal described above, the audio signal is output to a speaker (not shown).
[0050]
The digital channel signal separation circuit 74 outputs the separated independent data channel signal to the newspaper data / related information separation circuit 81 constituting the decoder. The newspaper data / related information separating circuit 81 separates newspaper data and related information from the input signal, outputs the newspaper data to the data descrambler 87, and outputs the related information to the decoding circuit 82.
[0051]
On the other hand, a unique receiving device ID assigned to the data receiving device 6 is stored in the memory 83 in advance. When the contract content of the receiving device ID that matches the receiving device ID stored in the memory 83 is input as related information, the decryption circuit 82 supplies the contract content to the contract condition comparison circuit 84, and the built-in memory 84A is stored. Also, the decryption circuit 82 decrypts the transmission channel scramble key transmitted as the related information and outputs it to the on / off switching circuit 85.
[0052]
After that, when the data identifier included in the above-described common information is decoded from the input related information, this data identifier is supplied from the decoding circuit 82 to the contract condition comparison circuit 84. The contract condition comparison circuit 84 compares the input data identifier with the contract contents already stored in the memory 84A. This contract content includes a data identifier of newspaper data contracted in advance. The contract condition comparison circuit 84 determines that the data identifier stored in the memory 84A matches the data identifier supplied from the decryption circuit 82, unless the contract fee is not paid and other prohibition conditions are included in the contract contents. Then, a control signal for switching the on / off switching circuit 85 to the on state is output. As a result, the transmission channel scramble key output from the decoding circuit 82 is supplied to the PN generator 86 via the on / off switching circuit 85.
[0053]
The PN generator 86 generates a pseudo random sequence corresponding to the input transmission channel scramble key. The data descrambler 87 descrambles and outputs the newspaper data supplied from the newspaper data / related information separation circuit 81 by using the pseudo random sequence supplied from the PN generator 86.
[0054]
That is, in the data descrambler 87, the scramble applied to the entire newspaper data is descrambled by the data scrambler 14 of FIG.
[0055]
Newspaper data output from the data descrambler 87 (which is in a state of being selectively scrambled in predetermined information units) is supplied to the recording device 7 and recorded (accumulated) in the recording medium 8. .
[0056]
Thereafter, when the user terminal 9 is operated so as to read newspaper data from the recording medium 8, as shown in FIG. 6, the recording device 7 reads the newspaper data recorded on the recording medium, and receives the receiving device. 6 is supplied to the information unit descrambling processing unit 31 constituting the 6 decoders.
[0057]
In the information unit descramble processing unit 31, the newspaper data is descrambled using the information unit scramble key (this descrambling is performed in the same manner as in the data descrambler 87 in FIG. 5). That is, in the information unit descrambling processor 31, the information unit scramble processor 27 shown in FIG. 2 descrambles the newspaper data selectively scrambled in predetermined information units.
[0058]
The information unit scramble key is transmitted together with, for example, the transmission channel scramble key described above, decoded by the decoding circuit 82 (FIG. 5), and supplied to the information unit scramble processing unit 31.
[0059]
The newspaper data descrambled by the information unit descrambling processing unit 31 is output to the monitor 10a or the printer 10b via the user terminal 9 (FIG. 1), and is displayed or printed out respectively.
[0060]
Next, FIG. 7 shows how newspaper data is scrambled and descrambled in the data broadcasting system as described above. In FIG. 7 (the same applies to FIGS. 8 and 9 to be described later), the slanting left slanted line indicates the portion scrambled by the information unit scramble processing unit 27 (FIG. 2), and the slanting right slanting line indicates the data scrambling. The portions scrambled by the bra 14 are shown.
[0061]
First, in the broadcasting station 3, as shown in FIG. 7A, newspaper data is stored in the information storage unit 26 of FIG. 2 in predetermined information units. The newspaper data of the predetermined information unit is selectively scrambled and further serialized and output by the information unit scramble processing unit 27 (FIG. 2) (FIG. 7B).
[0062]
Here, in FIG. 7B, for example, information 2 is selected from newspaper data (information 1, 2,..., N) in a predetermined information unit, and only the information 2 is scrambled. It shows a state.
[0063]
The selectively scrambled newspaper data is scrambled by the data scrambler 14 of FIG. 3 and transmitted to the receiver side via the satellite 4 as shown in FIG. .
[0064]
On the receiver side, as shown in FIG. 7 (d), newspaper data in the same state as that shown in FIG. 7 (c) is input to the data descrambler 87 (FIG. 5) of the data receiving device 6. . In the data descrambler 87, the scramble applied to the entire newspaper data is descrambled, and as a result, newspaper data in a state where only the information 2 is scrambled as shown in FIG. 7E is output.
[0065]
The newspaper data (FIG. 7 (e)) is supplied to the recording medium 8 through the recording device 7 and stored in a predetermined information unit as shown in FIG. 7 (f).
[0066]
When the newspaper data stored in the recording medium 8 is read from the data as described above and supplied to the information unit descrambling processing unit 31 (FIG. 6) via the recording device 7, The scramble applied by the unit scramble processing unit 27 (FIG. 2) is descrambled. That is, in this case, descrambling of information 2 among newspaper data (information 1, 2,..., N) in a predetermined information unit is performed.
[0067]
As a result, as shown in FIG. 7G, the original newspaper data of the predetermined information unit (newspaper data shown in FIG. 7A) is obtained.
[0068]
Therefore, a receiver who cannot receive both the transmission channel scramble key and the information unit scramble key cannot see the newspaper data at all, and can receive only the transmission channel scramble key (contractor). Can view newspaper data other than information 2. Further, a receiver (contractor) who can receive both the transmission channel scramble key and the information unit scramble key can view all the newspaper data.
[0069]
From the above, a receiver who does not wish to receive information 2 out of newspaper data of a predetermined information unit is not to make a reception contract for information 2 when making a reception contract for newspaper data. The information provider can receive only the transmission channel scramble key for the contractor who has not signed the reception contract for the information 2 (hereinafter referred to as a partial contractor as appropriate). The information unit scramble key cannot be received. Further, a receiver desiring to receive all newspaper data (hereinafter referred to as a whole contractor as appropriate) can receive both the transmission channel scramble key and the information unit scramble key.
[0070]
Then, the reception fee of the partial contractor is set lower than the reception fee of the entire contractor.
[0071]
By doing so, the contractor pays the reception fee only for the newspaper data that he / she needs, and as a result, it is possible to prevent the contractor from feeling unfair.
[0072]
Further, from the information provider side, it is possible to provide services in various forms according to the contractor's request, that is, for each contractor, it is possible to set receivable information (newspaper data), As a result, the number of subscribers can be increased and the profits can be improved.
[0073]
FIG. 8 shows a specific example of newspaper data scrambled as described above. In FIG. 8, one piece of newspaper data (in FIG. 8, it is composed of data for one page, total page, business conditions,..., Local page, .., radio / TV column). For example, scramble using the information unit scramble key (hereinafter referred to as “partial scramble” as appropriate) is applied to the business situation and the local area, and further scrambled using the transmission channel scramble key (hereinafter referred to as “appropriately”) It is called the whole scramble).
[0074]
In this case, the receiver can make a contract to receive the whole newspaper data or newspaper data excluding the business situation and the local side.
[0075]
Furthermore, it is possible to make a contract to receive newspaper data excluding only the business situation or newspaper data excluding the local side. This means that the information unit scramble key used for partial scramble for each commercial or local newspaper data is different as described above, and for those who have contracted to receive newspaper data excluding only the commercial situation, The transmission channel scramble key and the partial scramble key for the local area can be received. For those who have subscribed to receive newspaper data except for the local area only, the transmission channel scramble key and the partial scramble key for commercial conditions should be received. It is only necessary to make it possible to receive the information unit scramble key for unraveling (in this case, in order to unscramble the transmission channel scramble key and commercial and local scrambles for those who have subscribed to the entire newspaper data) If it is possible to receive the information unit scramble key of ).
[0076]
By setting the reception fee to, for example, the monthly pole, it is possible to charge the same fee as when collecting a subscription fee for a newspaper delivered by a newspaper delivery person.
[0077]
Next, FIG. 9 also shows a specific example of data scrambled as described above, similarly to FIG. FIG. 9 shows a state in which data such as one magazine is transmitted instead of newspaper data.
[0078]
In the figure, only a partial scramble is applied to, for example, the main part of one magazine data (in FIG. 9, the CM (commercial (advertisement)) of the magazine and the main part). Since the entire scramble is not applied, the recipient can see only the CM of the magazine regardless of whether or not he is a contractor. In addition, the contractor can view not only the CM of the magazine but also the main part.
[0079]
Therefore, in this case, an information provider of magazine data (for example, a publisher) can show the CM of the magazine to an unspecified number of recipients (both contractors and non-contractors). In order to see the main part of a magazine, an increase in the number of contractors or purchasers of the magazine is expected. Thus, sales of magazines can be improved.
[0080]
By the way, as described with reference to FIG. 7, the partial contractor cannot view the information 2 in the newspaper data recorded on the recording medium 8, but thereafter desires to view the information 2. Can be considered. However, as described above, when newspaper data (program) is received, a scramble key (information unit scramble key) for unscrambling (partial scramble) applied to the newspaper data is required. When the information unit scramble key is transmitted via the satellite 4, the information unit scramble key cannot be received before the contract, so the information 2 received before the contract and recorded in the recording medium 8 is Cannot descramble after signing a contract.
[0081]
Therefore, as indicated by a dotted line in FIG. 1, an information unit scramble key for releasing the partial scramble can be transmitted to the data receiving device 6 via a ground line such as a telephone line.
[0082]
In this case, the information unit descrambling processing unit 31 (FIG. 6) of the data receiving device 6 receives an information unit scramble key for releasing the partial scramble received on the recording medium 8 and received on the recording medium 8 before the contract. When it is received via the telephone line, the descrambling of information 2 is performed using it.
[0083]
Therefore, in this case, it is possible to acquire the information unit scramble key later and view the information 2 that was not contracted at the time of reception.
[0084]
The received information unit scramble key can be recorded in the recording medium 8 so that the information 2 can be viewed at any time after the contract.
[0085]
In addition to transmitting the information unit scramble key as described above, for example, as shown in FIG. 10, the information unit scramble key is stored in a storage medium (recording medium) such as an IC card 101 (others such as an optical card or a memory card). It is also possible to deliver it to the contractor. In this case, on the contractor side, a storage medium such as an IC card 101 in which the information unit scramble key is stored is set in the data receiving device, the information unit scramble key is read therefrom, and the information unit descramble processing unit 31 ( What is necessary is just to make it supply to FIG.
[0086]
Next, as described above, when the information unit scramble key is transmitted via a satellite line or a telephone line, the non-contractor may illegally obtain the information unit scramble key by eavesdropping or the like. Conceivable. In addition, when a storage medium such as an IC card 101 in which an information unit scramble key is stored is delivered, the non-contractor obtains the IC card 101 from the contractor, thereby illegally obtaining the information unit scramble key. It is possible to do.
[0087]
Therefore, in order to prevent such illegal acquisition of the information unit scramble key, the IC card 101 stores the receiving device ID in addition to the information unit scramble key, and reads the information unit scramble key therefrom. It is possible to permit only when the receiving device ID stored in the memory 83 (FIG. 5) of the data receiving device 6 matches the receiving device ID stored in the IC card 101.
[0088]
In this case, for example, as shown in FIG. 11, the data receiving device 6 is configured by providing an IC card interface device 111 in the configuration shown in FIG. 6. The IC card interface device 111 is an interface for accessing the IC card 101 such as reading an information unit scramble key stored therein from the IC card 101.
[0089]
Here, the IC card 101 includes a CPU 102, a ROM 103, and a RAM 104 as shown in FIG. In addition to the system program and application program, the ROM 103 receives the receiving device ID of the data receiving device of the contractor to whom the IC card 101 is delivered (in this case, the receiving device ID of the data receiving device 6 (in the memory 83 of FIG. 5). Stored)) and an information unit scramble key corresponding to the contract (an information unit scramble key for deciphering the partial scramble of newspaper data with a reception contract). The CPU 102 performs processing as described later in accordance with the system program and application program stored in the ROM 103. The RAM 104 stores data necessary for the operation of the CPU 102.
[0090]
In the ROM 103, an information unit scramble key (information unit scramble key (same for transmission channel scramble key)) required for a predetermined period (for example, one month) is used to prevent unauthorized reception of newspaper data (program). The IC card 101 transmits newspaper data to be partially scrambled by using an information unit scramble key stored in the ROM 103. Delivered before (eg mailed). In addition, when the contractor wishes to receive newspaper data outside the contract, the information unit scramble key for unscrambled the partial scramble of the newspaper data is stored by contacting the information provider to that effect. A new IC card is delivered from the information provider.
[0091]
Next, the operation will be described with reference to the flowchart of FIG. When the IC card 101 is mounted in the IC card interface device 111 and newspaper data that has been partially scrambled is input to the information unit descrambling processor 31, first, in step S1, the information unit descrambling processor 31 The CPU 102 of the IC card 101 is requested to output an information unit scramble key (information unit scramble key output request).
[0092]
At this time, the descrambling processing unit 31 simultaneously outputs the information ID attached to the inputted newspaper data of a predetermined information unit to the CPU 102.
[0093]
Here, newspaper data provided from a newspaper company as an information provider is preliminarily assigned with an information ID that can identify it for each predetermined information unit. On the other hand, the ROM 103 of the IC card 101 stores an information unit scramble key in association with an information ID attached to newspaper data of a predetermined information unit that can be partially scrambled using the key. In step S5 described later, the information unit scramble key associated with the information ID output from the descrambling processing unit 31 in step S1 is read from the ROM 103 by the CPU.
[0094]
When the CPU 102 receives the information ID together with the information unit scramble key output request from the descramble processing unit 31, the CPU 102 requests (receives) the receiver unit ID to be output to the information unit descrambling processing unit 31 in step S2. Device ID output request).
[0095]
When receiving the receiving device ID output request from the CPU 102, the information unit descrambling processor 31 reads the receiving device ID from the memory 83 shown in FIG. In step S3, the receiving device ID is transmitted from the information unit descrambling processing unit 31 to the CPU 102, and the process proceeds to step S4.
[0096]
In step S <b> 4, the CPU 102 determines whether or not the receiving device ID stored in the ROM 103 matches the receiving device ID transmitted from the information unit descrambling processing unit 31. If it is determined in step S4 that the receiving device ID stored in the ROM 103 does not match the receiving device ID transmitted from the information unit descrambling processing unit 31, step S5 is skipped and the process is terminated. .
[0097]
Therefore, for example, when a non-contractor obtains the IC card 101 from the contractor and sets it in its own data receiving device, the receiving device ID and the receiving device ID stored in the ROM 103 Therefore, the newspaper data that has been partially scrambled is not descrambled.
[0098]
On the other hand, if it is determined in step S4 that the receiving device ID stored in the ROM 103 matches the receiving device ID transmitted from the information unit descrambling processing unit 31, the process proceeds to step S5, as described above. The information unit scramble key associated with the information ID output by the information unit descrambling processing unit 31 in step S1 is read from the ROM 103 and output from the CPU 102 to the information unit descrambling processing unit 31 to complete the processing. .
[0099]
Therefore, in this case, the information unit descrambling processing unit 31 performs the descrambling of the partial scramble applied to the inputted newspaper data of the predetermined information unit as described above.
[0100]
As described above, when the receiving device ID is stored in the IC card 101 together with the information unit scramble key, unauthorized acquisition of the information unit scramble key due to eavesdropping can be prevented, and the contractor can It is possible to prevent the contractor from being illegally provided with the information unit scramble key.
[0101]
For example, when one household has a plurality of data receiving devices, an IC card storing the receiving device ID of each of the plurality of data receiving devices can be delivered to the household. In this case, even if the IC card is used in any of the plurality of data receiving apparatuses, the partial scrambling can be descrambled.
[0102]
Although the present invention has been described with respect to the case where the present invention is applied to a data broadcasting system that transmits newspaper data, magazine data, etc. via a satellite line, the present invention is not limited to newspaper data, magazine data, etc. The present invention can be applied to a system for transmitting object data, or multimedia data combining text data, image data, and audio data. Further, the present invention can be applied to a system (for example, CATV) that transmits data via a transmission line such as a cable network in addition to a satellite line.
[0103]
In the present embodiment, the newspaper data that has been unscrambled by the data receiving device 6 is once recorded on the recording medium 8 and then partially scrambled. However, the entire scramble and the partially scramble are also provided. It is also possible to record the newspaper data obtained by solving the above in the recording medium 8.
[0104]
Further, in this embodiment, the broadcasting station 3 performs partial scrambling on the newspaper data, and then performs overall scrambling. In addition to this, after performing overall scrambling, partial scrambling is performed. Is also possible. In this case, however, the data receiving device 6 needs to unscramble the entire scramble after unscrambled the partial scramble.
[0105]
In this embodiment, the newspaper data of a predetermined information unit is selectively partially scrambled. However, in addition, when the newspaper data is divided into predetermined blocks, the data is divided into blocks. , Can be selectively scrambled. That is, for example, when newspaper data is divided into file units, it is possible to selectively scramble the newspaper data in file units.
[0106]
Furthermore, in this embodiment, the newspaper data is subjected to full scrambling and partial scrambling only once. However, for newspaper data, the whole scrambling and partial scrambling are performed, for example, in a double or triple manner. It is also possible to make a call.
[0107]
【The invention's effect】
  According to the first aspect of the present invention and the second aspect of the invention, content data can be provided to the user in an easily searchable form, and the user can use content data corresponding to, for example, contract details.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration example of a data broadcasting system to which the present invention is applied.
2 is a block diagram showing a detailed configuration of a broadcasting station 3 in FIG.
3 is a block diagram showing a detailed configuration of the broadcasting station 3 of FIG.
4 is a diagram for explaining the format of digital channel data in the digital channel signal multiplexing circuit 15 of FIG. 3; FIG.
5 is a block diagram showing a detailed configuration of the data receiving device 6 of FIG.
6 is a block diagram showing a detailed configuration of the data receiving device 6 of FIG.
7 is a diagram for explaining scrambling and descrambling performed in the data broadcasting system of FIG. 1. FIG.
FIG. 8 is a diagram for explaining newspaper data scrambled by a broadcasting station 3;
FIG. 9 is a diagram for explaining magazine data scrambled by the broadcasting station 3;
10 is a diagram illustrating a data broadcasting system in which descrambling is performed using an IC card 101. FIG.
FIG. 11 is a block diagram showing a configuration of a data receiving device 6 that is descrambled using an IC card 101.
12 is a flowchart for explaining the operation of the data receiving device 6 when descrambling is performed using the IC card 101. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Large computer, 2 Workstation, 3 Broadcasting station, 4 Satellite, 5 Receiving antenna, 6 Data receiving device, 7 Recording device, 8 Recording medium, 9 User terminal, 10a Monitor, 10b Printer, 11 Encryption circuit, 12 Independent Data channel multiplexing circuit, 13 PN generator, 14 data scrambler, 15 digital channel signal multiplexing circuit, 16 4-phase DPSK modulator, 17 video signal / digital channel signal multiplexing circuit, 18 FM modulator, 19 upconverter , 20 power amplifier, 21 transmitting antenna, 26 information storage unit, 27 information unit scramble processing unit, 31 information unit descrambling processing unit, 71 FM demodulator, 72 video signal / digital channel signal separation circuit, 73 4-phase DPS Demodulator, 74 digital channel signal separation circuit, 81 newspaper data / related information separation circuit, 82 decoding circuit, 83 memory, 84 contract condition comparison circuit, 84A memory, 85 on / off switching circuit, 86 PN generator, 87 data desk Rambler, 101 IC card, 102 CPU, 103 ROM, 104 RAM, 111 IC card interface device

Claims (4)

In a data distribution system including a transmission device that transmits distribution data and a reception device that receives the distribution data transmitted from the transmission device,
The transmitter is
A search image on which predetermined content data and a heading of the content data are displayed
The content data can be used from the heading.
First encryption means for applying a first encryption to the content data of the distribution data configured by being associated with the first key information;
In the content data and the search screen data subjected to the first encryption,
Using the second key information common to the content data and the search screen data, the second
Second encryption means for performing encryption of
A multiplexing means for multiplexing the second key information and the first encrypted data and the distribution data subjected to the second encryption;
Transmission means for transmitting multiplexed data multiplexed by the multiplexing means,
The receiving device is:
Receiving means for receiving the multiplexed data transmitted by the transmitting means of the transmitting device;
Separating means for separating the second key information and the distribution data from the multiplexed data received by the receiving means;
First decryption means for canceling the second encryption of the distribution data using the second key information;
Recording means for recording the distribution data, the second encryption of which has been released by the first release means, on a recording medium;
When the content data of the distribution data recorded on the recording medium by the recording means is used, the first key information is acquired, and the acquired first key information is used.
A data distribution system comprising: a second cancellation unit that cancels the first encryption applied to the content data. In a data distribution method of a data distribution system comprising a transmission device that transmits distribution data and a reception device that receives the distribution data transmitted from the transmission device,
  The content data of the distribution data configured such that predetermined content data and search screen data on which the content data header is displayed are related to each other so that the content data can be used from the header. A first encryption step for performing a first encryption using the first key information;
  Second encryption is performed on the content data and the search screen data subjected to the first encryption by using second key information common to the content data and the search screen data. Applying a second encryption step;
  A multiplexing step of multiplexing the second key information and the first encrypted data and the distribution data subjected to the second encryption;
  A transmission step of transmitting multiplexed data multiplexed in the processing of the multiplexing step;
  A reception step of receiving the multiplexed data transmitted in the processing of the transmission step;
  A separation step of separating the second key information and the distribution data from the multiplexed data received in the processing of the reception step;
  A first release step of releasing the second encryption of the distribution data using the second key information;
  The distribution data for which the second encryption has been canceled in the processing of the first cancellation step is recorded. A recording step for recording on a recording medium;
  When the content data of the distribution data recorded on the recording medium is used in the process of the recording step, the first key information is acquired, and the content is acquired using the acquired first key information. A second release step for releasing the first encryption applied to the data;
  A data distribution method comprising: In a receiving apparatus for receiving distribution data configured such that predetermined content data and data for a search screen on which a heading of the content data is displayed are related so that the content data can be used from the heading ,
  The content data transmitted from the transmission device is subjected to first encryption based on the first key information and second encryption based on the second key information, and the data of the search screen is the first data. Receiving means for receiving multiplexed data in which the distribution data subjected to encryption of 2 and the second key information are multiplexed;
  Separating means for separating the second key information and the distribution data from the multiplexed data received by the receiving means;
  First release means for releasing the second encryption of the distribution data using the second key information;
  Recording means for recording the distribution data, the second encryption of which has been released by the first release means, on a recording medium;
  When the content data of the distribution data recorded on the recording medium by the recording unit is used, the first key information is acquired, and the acquired first key information is used to store the content data. Second release means for releasing the applied first encryption;
  A receiving apparatus comprising: A receiving device that receives distribution data configured such that predetermined content data and search screen data on which a heading of the content data is displayed are related to each other so that the content data can be used from the heading In the receiving method,
  The content data transmitted from the transmission device is subjected to first encryption based on the first key information and second encryption based on the second key information, and the data of the search screen is the first data. A receiving step of receiving multiplexed data in which the distribution data subjected to encryption of 2 and the second key information are multiplexed;
  A separation step of separating the second key information and the distribution data from the multiplexed data received in the processing of the reception step;
  A first release step of releasing the second encryption of the distribution data using the second key information;
  A recording step of recording the distribution data, the second encryption of which has been canceled in the processing of the first cancellation step, on a recording medium;
  When the content data of the distribution data recorded on the recording medium is used in the process of the recording step, the first key information is acquired, and the content is acquired using the acquired first key information. A second release step for releasing the first encryption applied to the data;
  A receiving method comprising:

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