JPH10191455A - Traffic control method for mobile communication system and base station equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a traffic control method of a mobile communication system and base station equipment which makes to correspond flexibly with the fluctuation in various conditions such as traffic priority class, when the services classified into plural priority classes coexist, and enable to satisfying the service requested in advance from a mobile station. SOLUTION: A base station provides plural queues 31, 32 classified into plural priority classes 1, 2 to a traffic control part 23, selects either of the queues based on a notice signal from a mobile station, stores the content of the notice signal to the queues, selects one queue through a switch 35 based on a threshold level corresponding to each of the queues and transmits a transmission designation signal to a mobile station that transmits the notice signal stored in the queues.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a plurality of base stations in a mobile communication system and a plurality of mobile stations communicating with the plurality of base stations using a code division multiple access (hereinafter abbreviated as CDMA) system. More specifically, the traffic control method and the base station apparatus between the mobile station, more specifically, a plurality of mobile stations appropriately access the base station at an arbitrary timing using a common channel, a mobile communication system in which a plurality of types of services are mixed The present invention relates to a traffic control method and a base station device.

[0002]

2. Description of the Related Art Conventionally, packet communication in a mobile communication system has been employed for transmitting control signals.
For example, in the Japanese digital car telephone system standard (RCR STD-27C), when a mobile station attempts to make a call, all mobile stations transmit a call signal on an access channel that can be used in common. Stipulated. However, when a plurality of mobile stations transmit call signals at the same time, a collision occurs and transmission efficiency is degraded.

The above example is based on TDMA (Time Division Multi).
iple Access) is an example of a mobile communication system, and FDMA (Ferquency Divisi) in which each channel is separated by frequency.
In the case of the on-multiple access mobile communication system and the CDMA mobile communication system in which each channel is separated by a code, the situation where the transmission efficiency is deteriorated due to collision is the same (for example, CDMA digital mobile communication system in the United States: TIA).
IS-95).

In view of such inconvenience due to the deterioration of transmission efficiency, Japanese Patent Application No. 7-325687 “Multi-access method and mobile station apparatus and base station apparatus in CDMA mobile communication system” uses a common channel as an access channel and a message. The mobile station reports the packet size, the number of radio channels to be used, and the timing to the base station via the access channel, and the base station specifies the radio channel to be used for the mobile station and the transmission timing via the broadcast channel. The mobile station indicates a multi-access method in which a packet is transmitted according to a radio channel and timing designated by the base station, and the mobile station apparatus and the base station apparatus.

On the other hand, in multimedia communication, it is desired to construct a flexible network capable of transmitting signals with high quality at a wide range of transmission rates from several kbps to several MBps. In such a network, traffic control when service types having a plurality of priorities coexist is very important.

[0006]

However, Japanese Patent Application No. 7-325687 entitled "Multi-access method and mobile station apparatus and base station apparatus in a CDMA mobile communication system" describes a multi-source traffic in which service types having a plurality of priorities coexist. If the wireless channel and timing used for the message channel are specified, even if the wireless channel has the capability to perform the service, the mobile station that is currently transmitting a large-sized packet will not be able to transmit. Until the end, the allowable delay that arrives thereafter is small, and small-sized packets cannot be transmitted. In other words, regardless of the packet size and the size of the permissible delay, there is a problem that the transmission delay becomes longer, which is not practically preferable.

[0007] The present invention has been made in view of the above,
Its purpose is to be able to flexibly cope with changes in various conditions such as traffic and priority classes when services that can be classified into multiple priority classes are mixed, and satisfy the service quality required by the mobile station in advance. It is an object of the present invention to provide a traffic control method and a base station device for a mobile communication system that can perform the traffic control.

[0008]

According to one aspect of the present invention, there is provided a mobile communication system in which a plurality of mobile stations appropriately access a base station at an arbitrary timing using a common channel. , The mobile station determines the packet size of the packet generated for the base station prior to transmission,
A traffic control method that broadcasts a number of radio channels to be used and an allowable delay, and, when the base station receives the broadcast signal, transmits a transmission designation signal that designates a radio channel to be used by the mobile station and a transmission timing. Provides a plurality of queues classified into a plurality of different priority classes, selects one of the plurality of queues based on the broadcast signal from the mobile station, and transmits the broadcast signal to the selected queue. The mobile station stores contents, selects one of the plurality of queues based on a predetermined threshold value corresponding to each queue, and transmits the notification signal in the selected queue. The gist of the present invention is to transmit a transmission designation signal to a station.

According to the present invention, the base station provides a plurality of queues classified into a plurality of priority classes, and selects one of the queues based on a broadcast signal from the mobile station. Then, the contents of the broadcast signal are stored in the queue, one queue is selected based on the threshold value corresponding to each queue, and the queue is transmitted to the mobile station that transmitted the broadcast signal in the queue. Send the specified signal.

The present invention described in claim 2 is the same as the claim 1.
In the described invention, the base station measures the waiting time of the packet held in each queue, and when transmitting the transmission designation signal to the mobile station, compares the threshold value and the measured waiting time for all the queues. If the measured waiting time is equal to or greater than the threshold, a transmission designation signal is transmitted to the mobile station that has transmitted the broadcast signal, and if the measured waiting time is smaller than the threshold, Is to transmit the transmission designation signal to the mobile station that has transmitted the head broadcast signal of the queue with the smallest allowable delay.

According to the second aspect of the present invention, the base station measures the waiting time of each packet, compares the measured waiting time with a threshold value, and determines whether the measured waiting time is longer than the threshold value. In this case, a transmission designation signal is transmitted to the mobile station that has transmitted the broadcast signal, and if the measured waiting time is smaller than the threshold value, the mobile station that transmitted the head broadcast signal of the queue with the smallest allowable delay is transmitted. Transmit the transmission designation signal to the station.

Further, the present invention according to claim 3 provides the invention according to claim 1.
In the described invention, when the base station transmits a transmission designation signal to the mobile station, if the number of usable radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the base station immediately transmits the radio channel used by the mobile station. If the number of available radio channels is less than the number of used radio channels reported by the mobile station, the base station waits as it is and obtains the number of radio channels reported by the mobile station. At this point, the gist is to transmit a radio channel used by the mobile station and a transmission designation signal instructing immediate transmission.

According to the third aspect of the present invention, when the number of usable radio channels is equal to or larger than the number of radio channels used by the mobile station, the base station immediately transmits the radio channel used by the mobile station. If the number of available radio channels is less than the number of used radio channels of the mobile station, the base station waits as it is, and when the number of radio channels reported by the mobile station is obtained, , And transmits a transmission designation signal for instructing immediate transmission with the wireless channel used by the mobile station.

According to a fourth aspect of the present invention, in the first aspect of the invention, when the base station transmits a transmission designation signal to the mobile station, the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station. In the case of, a transmission designation signal for instructing immediate transmission with the radio channel used by the mobile station is transmitted, and if the number of available radio channels is less than the number of used radio channels reported by the mobile station, the used radio channel is used. A switch is connected to the queue to which the broadcast signal to which the number of channels is equal to or less than the number of available radio channels belongs, and the mobile station that transmitted the broadcast signal is instructed to immediately transmit the radio channel used by the mobile station and the A transmission designation signal is transmitted, and then the switch is connected to the original queue, and the same processing is repeated.

According to the present invention, when the number of usable radio channels is equal to or more than the number of radio channels used by the mobile station, the base station immediately transmits the radio channel used by the mobile station. When the number of available radio channels is less than the number of used radio channels of the mobile station, the designated transmission transmission signal is transmitted, and the number of used radio channels is smaller than the number of available radio channels. A switch is connected, and a transmission designation signal for instructing the mobile station that has transmitted the broadcast signal to transmit the radio channel used by the mobile station immediately is transmitted.

The present invention described in claim 5 provides the present invention according to claim 4.
In the described invention, when the number of available radio channels is less than the number of used radio channels reported by the mobile station, the broadcast signal with the longest waiting time in the queue in order from the queue of the priority class with the smallest allowable delay A search for a broadcast signal in which the number of used radio channels is equal to or less than the number of available radio channels, and transmission for instructing the mobile station that has transmitted the broadcast signal that satisfies the condition to immediately transmit the radio channel used by the mobile station. The gist is that a designated signal is transmitted, a switch is connected to the original queue, and the same processing is repeated.

According to the fifth aspect of the present invention, when the number of usable radio channels is less than the number of radio channels used by the mobile station, the queues of the priority class having the smallest allowable delay are sequentially arranged in the queues. From the broadcast signal having the longest wait time, search for a broadcast signal in which the number of used radio channels is equal to or less than the number of usable radio channels, and immediately transmit the broadcast signal satisfying the condition to the A transmission designation signal for instructing transmission to be transmitted to the terminal.

Further, according to the present invention, in a mobile communication system in which a plurality of mobile stations access a base station at an arbitrary timing by using a common channel, the mobile station transmits to the base station prior to transmission. The base station notifies the packet size of the generated packet, the number of radio channels to be used, and the permissible delay, and upon receiving the notification signal, the base station transmits a transmission designation signal for designating a radio channel to be used by the mobile station and a transmission timing. In the system, the base station apparatus receives a plurality of queues classified into a plurality of different priority classes and the broadcast signal from a mobile station, and selects one of the plurality of queues based on the broadcast signal. Storage control means for controlling the contents of the notification signal to be stored in the selected queue; and a threshold based on a predetermined threshold corresponding to each queue. And selecting transmission means for selecting one of the plurality of queues and transmitting a transmission designation signal to the mobile station which has transmitted the broadcast signal in the selected queue. .

According to the present invention, the base station provides a plurality of queues classified into a plurality of priority classes, and selects one of the queues based on a broadcast signal from the mobile station. Then, the contents of the broadcast signal are stored in the queue, one queue is selected based on the threshold value corresponding to each queue, and the queue is transmitted to the mobile station that transmitted the broadcast signal in the queue. Send the specified signal.

According to a seventh aspect of the present invention, in the sixth aspect of the present invention, the base station apparatus measures a waiting time of a packet held in each queue, and transmits a transmission designation signal to the mobile station. In the meantime, comparing means for comparing the threshold value and the measured waiting time for all queues, as a result of the comparison by the comparing means, when the measured waiting time is equal to or more than the threshold value, A transmission designation signal is transmitted to the mobile station that has transmitted the notification signal,
Means for transmitting a transmission designation signal to the mobile station which has transmitted the head broadcast signal of the queue having the smallest allowable delay when the measured latency is smaller than the threshold. .

According to the present invention, the base station measures the waiting time of each packet, compares the measured waiting time with the threshold, and measures the measured waiting time as the threshold. In the above cases, a transmission designation signal is transmitted to the mobile station that has transmitted the broadcast signal, and if the measured waiting time is smaller than the threshold, the head broadcast signal of the queue with the smallest allowable delay is transmitted. A transmission designation signal is transmitted to the mobile station.

The present invention described in claim 8 provides the present invention according to claim 6.
In the invention described, when the base station apparatus transmits a transmission designation signal to the mobile station, if the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the base station apparatus immediately determines the radio channel used by the mobile station. Means for transmitting a transmission designation signal for instructing transmission, and if the number of available radio channels is less than the number of used radio channels reported by the mobile station, the base station waits as it is and the radio signal reported by the mobile station. The gist is to have a wireless channel used by the mobile station and means for transmitting a transmission designation signal instructing immediate transmission when the number of channels is obtained.

According to the present invention, when the number of usable radio channels is equal to or more than the number of radio channels used by the mobile station, the base station immediately transmits the radio channel used by the mobile station. If the number of available radio channels is less than the number of used radio channels of the mobile station, the base station waits as it is, and when the number of radio channels reported by the mobile station is obtained, , And transmits a transmission designation signal for instructing immediate transmission with the wireless channel used by the mobile station.

Further, the present invention described in claim 9 is the same as claim 6.
In the invention described, when the base station apparatus transmits a transmission designation signal to the mobile station, if the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the base station apparatus immediately determines the radio channel used by the mobile station. Means for transmitting a transmission designation signal instructing to transmit, and when the number of usable radio channels is less than the number of used radio channels reported by the mobile station, the number of used radio channels is equal to or less than the number of usable radio channels. A switch is connected to the queue to which the broadcast signal belongs, and the mobile station that has transmitted the broadcast signal transmits a radio channel used by the mobile station and a transmission designation signal that instructs the mobile station to immediately transmit the broadcast signal. The point is to have means for connecting a switch to the queue and repeating the same processing.

According to the ninth aspect of the present invention, when the number of usable radio channels is equal to or larger than the number of radio channels used by the mobile station, the base station immediately transmits the radio channel used by the mobile station. When the number of available radio channels is less than the number of used radio channels of the mobile station, the designated transmission transmission signal is transmitted, and the number of used radio channels is smaller than the number of available radio channels. A switch is connected, and a transmission designation signal for instructing the mobile station that has transmitted the broadcast signal to transmit the radio channel used by the mobile station immediately is transmitted.

According to a tenth aspect of the present invention, in the ninth aspect of the invention, when the number of usable radio channels is less than the number of used radio channels reported by the mobile station, the base station apparatus has the smallest allowable delay. Search means for searching for a broadcast signal in which the number of used radio channels is equal to or less than the number of usable radio channels from a broadcast signal having the longest waiting time in the queue in order from the priority class queue, and transmitting a broadcast signal satisfying the condition. The mobile station transmits a radio channel used by the mobile station and a transmission designation signal instructing the mobile station to transmit immediately, and then connects the switch to the original queue,
The gist of the invention is to have means for repeatedly performing the same processing.

According to the tenth aspect of the present invention, when the number of usable radio channels is less than the number of radio channels used by the mobile station, the queues of the priority class having the smallest allowable delay are sequentially arranged in the queues. From the broadcast signal having the longest wait time, search for a broadcast signal in which the number of used radio channels is equal to or less than the number of usable radio channels, and immediately transmit the broadcast signal satisfying the condition to the A transmission designation signal for instructing transmission to be transmitted to the terminal.

According to the eleventh aspect of the present invention, a plurality of mobile stations notify a base station of a packet size, a number of radio channels to be used, and a permissible delay, which are generated at an arbitrary timing by using a common channel. A base station receiving the broadcast signal, a traffic control method in a mobile communication system transmitting a transmission designation signal designating a radio channel and a transmission timing used by the mobile station, wherein the base station receives the broadcast signal At the time, a search is made for a time at which the number of all used radio channels broadcast on the broadcast channel becomes available at the same time, and this is used as a transmission timing to transmit to the mobile station that transmitted the broadcast signal when the broadcast signal is received. The gist is to transmit the designated signal.

According to the eleventh aspect of the present invention, at the time of traffic control, the packet size of a packet generated by a plurality of mobile stations with respect to the base station at an arbitrary timing using a common channel, and the radio channel to be used. When the base station receives the broadcast signal, the base station transmits a transmission designation signal for designating a wireless channel used by the mobile station and a transmission timing. At this time, at the time when the base station receives the broadcast signal, the base station searches for a time at which the number of all used radio channels broadcast on the broadcast channel becomes available at the same time, and uses this as a transmission timing.
A transmission designation signal is transmitted to the mobile station that has transmitted the broadcast signal when the broadcast signal is received.

According to a twelfth aspect of the present invention, in the invention of the eleventh aspect, the base station has means for calculating a scheduled transmission end time of each radio channel and means for managing a scheduled transmission end time table. When transmitting the transmission designation signal to the mobile station, the transmission time is searched from the transmission end scheduled time table for a scheduled time at which the number of radio channels used by the mobile station can be used as the transmission timing. The gist is to calculate the time until the mobile station that has transmitted the signal ends the transmission.

According to the twelfth aspect of the present invention, when transmitting the transmission designation signal to the mobile station, the base station can use as many radio channels as the number of used radio channels notified by the mobile station from the scheduled transmission end time table. Is determined as the transmission timing, and the time until the mobile station that has transmitted the notification signal at the scheduled time ends the transmission is calculated to obtain the scheduled transmission end time.

According to a thirteenth aspect of the present invention, a plurality of mobile stations notify a base station of a packet size, a number of radio channels to be used, and a permissible delay which are generated at an arbitrary timing by using a common channel. When the base station receives the broadcast signal, the mobile communication system transmits a transmission designation signal that designates a radio channel and a transmission timing used by the mobile station, wherein the base station receives the broadcast signal, A search is made for a time at which the total number of used radio channels broadcast on the broadcast channel becomes available at the same time, and the transmission timing is used as a transmission timing to transmit a transmission designation signal to the mobile station that transmitted the broadcast signal when the broadcast signal is received. The point is to do.

According to the thirteenth aspect of the present invention, when the base station receives the broadcast signal, a plurality of mobile stations use a common channel to appropriately generate a packet size of a packet generated for the base station at an arbitrary timing. The number of radio channels to be used and the permissible delay are reported, and the radio channels used by the mobile station and the base station can use at the same time the total number of used radio channels reported by the broadcast channel at the time of receiving the broadcast signal A transmission designation signal for designating a transmission timing based on a timing obtained by searching for a time is transmitted to the mobile station that transmitted the broadcast signal when the broadcast signal is received.

According to a fourteenth aspect of the present invention, in the thirteenth aspect, the base station has means for calculating a scheduled transmission end time of each radio channel and means for managing a scheduled transmission end time table. When transmitting the transmission designation signal to the mobile station, the transmission time is searched from the transmission end scheduled time table for a scheduled time at which the number of radio channels used by the mobile station can be used as the transmission timing. The gist is to calculate the time until the mobile station that has transmitted the signal ends the transmission.

According to the fourteenth aspect of the present invention, when transmitting the transmission designation signal to the mobile station, the base station can use as many radio channels as the number of used radio channels notified by the mobile station from the scheduled transmission end time table. Is calculated as the transmission timing, the time until the mobile station that transmitted the broadcast signal at the scheduled time ends the transmission is calculated, and the scheduled transmission end time of each wireless channel is obtained.

According to a fifteenth aspect of the present invention, in the third aspect of the present invention, the base station divides all radio channels into a plurality of groups and manages the plurality of groups, and sets the number of used radio channels broadcast by the broadcast signal. Means for calculating the transmission end time, and means for managing the transmission end time of the currently used radio channel, and when transmitting the transmission designation signal to the mobile station, the number of available radio channels is reported by the mobile station. If the number of used wireless channels is equal to or greater than the number of used wireless channels, select a wireless channel that minimizes the average value of the difference between the transmission end time of the used wireless channel and the transmission end time of the currently used wireless channel belonging to the same group, and designates transmission. The point is to transmit a signal.

According to the fifteenth aspect of the present invention, when the base station transmits a transmission designation signal to the mobile station, if the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the base station uses the radio. A wireless channel that minimizes the average value of the difference between the transmission end time of the channel and the transmission end time of the currently used wireless channel belonging to the same group is selected, and a transmission designation signal is transmitted.

According to a sixteenth aspect of the present invention, in the fourth aspect of the present invention, the base station divides all the radio channels into a plurality of groups and manages the divided radio channels, and transmits the used radio channels notified by the broadcast signal. Means for calculating the transmission end time, and means for managing the transmission end time of the currently used radio channel, and when transmitting the transmission designation signal to the mobile station, the number of available radio channels is reported by the mobile station. If the number of used wireless channels is equal to or greater than the number of used wireless channels, select a wireless channel that minimizes the average value of the difference between the transmission end time of the used wireless channel and the transmission end time of the currently used wireless channel belonging to the same group, and designates transmission. The point is to transmit a signal.

According to the sixteenth aspect of the present invention, when the base station transmits a transmission designation signal to the mobile station, if the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the base station uses the radio. A wireless channel that minimizes the average value of the difference between the transmission end time of the channel and the transmission end time of the currently used wireless channel belonging to the same group is selected, and a transmission designation signal is transmitted.

According to a seventeenth aspect of the present invention, in the eighth aspect of the present invention, the base station apparatus divides and manages all the radio channels into a plurality of groups, and uses the radio channel notified by the notification signal. Means for calculating the transmission end time of the mobile station, and means for managing the transmission end time of the currently used radio channel. When transmitting the transmission designation signal to the mobile station, the number of available radio channels is reported by the mobile station. If the number of used wireless channels is equal to or greater than the number of used wireless channels, a wireless channel that minimizes the average value of the difference between the transmission end time of the used wireless channel and the transmission end time of the currently used wireless channel belonging to the same group is selected and transmitted. The gist is to transmit the designated signal.

According to the seventeenth aspect of the present invention, the base station apparatus transmits a transmission designation signal to a mobile station.
When the number of usable radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the average value of the difference between the transmission end time of the used radio channel and the transmission end time of the currently used radio channel belonging to the same group is minimum. Is selected, and a transmission designation signal is transmitted.

According to the present invention, the base station apparatus divides and manages all the radio channels into a plurality of groups, and the used radio channel broadcasted by the broadcast signal. Means for calculating the transmission end time of the mobile station, and means for managing the transmission end time of the currently used radio channel. When transmitting the transmission designation signal to the mobile station, the number of available radio channels is reported by the mobile station. If the number of used wireless channels is equal to or greater than the number of used wireless channels, a wireless channel that minimizes the average value of the difference between the transmission end time of the used wireless channel and the transmission end time of the currently used wireless channel belonging to the same group is selected and transmitted. The gist is to transmit the designated signal.

According to the eighteenth aspect of the present invention, the base station apparatus transmits the transmission designation signal to the mobile station.
When the number of usable radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the average value of the difference between the transmission end time of the used radio channel and the transmission end time of the currently used radio channel belonging to the same group is minimum. Is selected, and a transmission designation signal is transmitted.

[0044]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a diagram showing a configuration of a CDMA mobile communication system to which a traffic control method according to one embodiment of the present invention is applied. The mobile communication system shown in FIG.
It has a plurality of base stations 11 and a plurality of mobile stations 13 that are connected and communicate using a CDMA system that performs modulation with one or a plurality of spreading codes in response to requests from the base stations and the mobile stations.

In the mobile communication system shown in FIG.
To realize multi-access, as shown in FIG.
The common channel 17 from the mobile station 13 to the base station 11 is separated into a message channel 17a and an access channel 17b, and the mobile station 13 determines the packet size of the packet generated for the base station 11, the number of radio channels to be used, and A broadcast signal including information such as delay is transmitted to the access channel 1
7b, the base station 11 transmits on the broadcast channel 19 a transmission designation signal for designating a radio channel used by the mobile station 13 and a transmission timing.

The base station 11, as shown in FIG.
A transceiver 21 for transmitting and receiving radio signals to and from the mobile station, a radio channel used by the mobile station currently communicating with the base station, a traffic control unit 23 for managing a broadcast signal transmitted from the mobile station, and the like; And a baseband signal processing unit 25 for transmitting and receiving user information.

As shown in FIG. 3, the traffic control unit 23 further includes a plurality of queues 31 and 32 classified into a plurality of different priority classes, and selectively connects to one of the plurality of queues. Switch 35 and switch 3
5 has a server 37 connected to the selected queue. In FIG. 3, as an example,
Only two queues are shown, a class 1 queue 31 for services with strict permissible delay requirements and a queue 32 for class 2 for services with permissive delay requirements, but the number of queues is limited to two. However, there may be any number according to the number of priority classes.

In the above configuration, when the base station 11 receives a broadcast signal including information such as the packet size of the generated packet broadcast from the mobile station 13, the radio channel to be used, and the permissible information, the base station 11 Classification is performed in the traffic control unit 23 according to the magnitude of the allowable delay to be notified, and one queue 3 corresponding to the classification is set.
The contents of the broadcast signal, that is, the packets generated by the mobile station, are sequentially stored in 1, 32.

On the other hand, if there is an available radio channel, the traffic control unit 23 selects one from the queue.
In order to select one of the queues and to designate transmission to the mobile station, the selected queue is sent to the server 37 via the switch 35.
Connect to Then, after the connection of the switch, the base station selects a radio channel, and transmits to the mobile station a transmission designation signal for instructing immediate transmission with the selected radio channel.

This series of transmission processing will be described with reference to the flowchart shown in FIG.

In FIG. 4, when the base station receives the broadcast signal from the mobile station (step S41), the base station classifies the priority class of the queue according to the allowable delay of the generated packet (step S42). That is, Class 1 which is "strict on delay" depending on the size of the allowable delay of the packet
Queue 31 and "loose delay" class 2 queue 3
Classify into any of 2 When classified into the class 1 queue 31, it is checked whether or not the class 1 queue 31 has an empty space (step S43). If there is an empty space, the queue 31 is placed at the end of the queue 31. The notification signal is additionally stored (step S44), and the process returns to the first step. Similarly, when classified into the queue 32 of class 2,
It is checked whether or not there is an empty space in the class 2 queue 32 (step S45). If there is an empty space, the notification signal is additionally stored at the end of the queue 32 (step S46). Return to step. Step S
If there is no free space in the queue in the checks at 43 and S45, this notification signal is discarded (step S5).
7) Return to the first step.

On the other hand, if the base station has not received the broadcast signal from the mobile station in the first step S41, the use status of the radio channel is read from the memory and it is checked whether or not the radio channel is free. If there is no usable wireless channel (step S47), the usage status of the channel is monitored until an available wireless channel is generated.

If there is an available wireless channel, the waiting time of the broadcast signal belonging to the class 1 queue 31 is read out from the memory, and a threshold value corresponding to the class 1 queue in the memory is read. Compare (Step S4)
8). If the threshold value is larger, step S48
Similarly, the waiting time belonging to the class 2 queue 32 is read from the memory and compared with the threshold value corresponding to the class 2 queue 32 on the memory (step S49).

As a result of the comparison in steps S48 and S49, if the waiting time of the notification signal of the queue 31 of class 1 is equal to or greater than the threshold value of the queue 31 of class 1,
And the waiting time of the notification signal is less than the threshold,
The switch 35 of the traffic control unit 23 is connected to the class 1 queue 31 for the notification signal having the longest waiting time among the broadcast signals stored in the class 1 queue 31 (step S51). When the waiting time of the notification signal of the second queue 32 is equal to or greater than the threshold value of the class 2 queue 32, the switch 35 is connected to the class 2 queue 32 (step S52), and the base station performs the notification. A process for controlling transmission timing is performed on the signal (step S53), a radio channel to be used for the mobile station is selected (step S54), and a transmission designation signal is transmitted to the mobile station (step S55). Then, the base station shifts the order of other broadcast signals in the queue, which has stored the broadcast signal for which transmission has been designated, by one (step S5).
6) Return to the first step and repeat the same process for each packet.

The threshold values T _th1 and T _th2 corresponding to the queues of the classes ₁ and ₂ are calculated by using the margins Δ ₁ and Δ _{2 assuming} that the allowable delay times of the respective classes are T _p1 and T _{p2. th1 = T p1 -Δ 1 (1} ) T th2 = T p2 -Δ 2 (2) and set. Here, the margins Δ ₁ and Δ ₂ have a function of controlling the waiting time of the broadcast signal in the queue so that the wait time does not exceed the allowable delay reported by the mobile station. This is used to suppress the noise, and is set to, for example, several percent of the allowable delay time. For example, if the average packet size of the broadcast signals stored in each queue is S _p1 , S _p2 , and the average transmission speed is v _p1 , v _p2 , the time S _p1 / v _p1 , S required for transmitting one packet _p2 /
Set v _p2 to Δ ₁ and Δ ₂ respectively.

Next, with reference to a flowchart shown in FIG. 5, a description will be given of a transmission timing control process in the base station according to another embodiment of the present invention.

When the base station enters the process of controlling the transmission timing, it is checked whether or not the number of usable radio channels is equal to or more than the number of radio channels used for the broadcast signal (step S61). If the number of appropriate wireless channels is equal to or greater than the number of used wireless channels, that time is determined as the transmission timing (step S62), and the transmission timing control process ends (step S63). However, if the number of available radio channels is less than the number of used radio channels, the base station releases the other radio channels and keeps using the same number of radio channels as the number of used radio channels of the broadcast signal. Wait in the state of
The transmission timing control process is ended with the time when radio channels for the number of radio channels used of the broadcast signal become available as transmission timing.

Next, a transmission timing control process according to another embodiment of the present invention will be described with reference to the flowchart shown in FIG.

When the base station enters the process of transmission timing control, if the number of usable radio channels is equal to or larger than the number of radio channels used for the broadcast signal (Y in step S71).
ES), the time is determined as the transmission timing (step S76), and the transmission timing control process ends (step S77).

On the other hand, if the number of usable radio channels is less than the number of used radio channels (NO in step S71),
Whether the number of used radio channels of the broadcast signal stored in the class 1 queue having a strict permissible delay is equal to or less than the number of usable wireless channels is searched in order from the broadcast signal having a long waiting time (step S72). If there is a notification signal in which the number of used wireless channels is equal to or less than the number of available wireless channels, the switch is connected to the class 1 queue (step S73), and the transmission timing control processing is terminated with that time as the transmission timing. (Steps S76 and S7)
7). When the number of used radio channels of the broadcast signal stored in the class 1 queue is larger than the number of available radio channels, the number of used radio channels of the broadcast signal stored in the class 2 queue is available. Whether the number is equal to or less than the appropriate number of wireless channels is searched in order from the notification signal having a long waiting time (step S74). If there is a broadcast signal that the number of used wireless channels is equal to or less than the number of available wireless channels,
Connect the switch to the class 2 queue (step S7)
5) The transmission timing control process ends with that time as the transmission timing (steps S76 and S77). If the number of used radio channels of the broadcast signal stored in the queue of class 2 is larger than the number of available radio channels, the base station is released from other radio channels, and the base station releases more than the number of used radio channels of the broadcast signal. It waits until the wireless channel becomes available, and ends the transmission timing control process with the time when the wireless channels of the number of used wireless channels of the broadcast signal become available as the transmission timing.

FIG. 7 shows the traffic control unit 2 shown in FIG.
3 shows another example. Traffic control unit 2 shown in FIG.
3A shows only two queues: a class 1 queue 31A of a service having one radio channel used and a queue 32A of a class 2 of a service having two radio channels used. However, similarly to FIG. 3, the number of queues is not limited to two, but may be any number according to the number of priority classes.

In the above configuration, when the base station receives a broadcast signal including information such as the packet size of the generated packet, the radio channel to be used, and the permissible delay broadcast from the mobile station, the mobile station broadcasts. Classify in the traffic control unit according to the number of used radio channels,
The contents of the broadcast signal, that is, packets generated by the mobile station, are sequentially stored in one queue corresponding to the classification.

FIG. 8 shows an example of the scheduled transmission end time table of the base station apparatus according to claim 14, and FIG.
2 shows a processing procedure of the traffic control method described in 2. Less than,
The traffic control method will be described according to the processing procedure shown in FIG.

First, upon receiving the broadcast signal from the mobile station (step S81), the base station refers to the scheduled transmission end time table shown in FIG. 8 (step S82). As a result of the reference, the shortest time when the radio channels corresponding to the number of used radio channels notified of the generated packet become available is the transmission timing, and the radio channel available at that time is used radio channel (step S83). , S8
4). For example, when the number of used radio channels of the generated packet is four, the scheduled transmission end time is the radio channel #
3 is the fastest after 2.13 seconds, but the number of available wireless channels at that time is one, so the transmission timing is 5 seconds after the scheduled time when four wireless channels become available, and the wireless channel # 0 To 3 are used wireless channels.

Next, a transmission designation signal is transmitted to the mobile station which has transmitted the broadcast signal when the broadcast signal is received (step S85). After transmitting the transmission designation signal, the base station transmits a transmission speed v corresponding to the number n of used radio channels of the received broadcast signal,
From the packet size s, a time t = s / v required for transmission of the packet is calculated, and this t is added to the estimated transmission end time of the corresponding wireless channel # in the estimated transmission end time table, and the estimated transmission end time table is calculated. Update (Step S
86).

FIG. 10 is a flowchart for selecting a radio channel to be used in the traffic control method according to the fifteenth and sixteenth aspects of the mobile communication system shown in FIGS.

When the number of usable radio channels is equal to or larger than the number of used radio channels reported by the mobile station, first, the packet size s reported by the mobile station and the transmission rate v corresponding to the number n of used radio channels are used to report the reported radio channel. The transmission end time t = s / v is calculated (step S91). In addition, the transmission end time of each currently used wireless channel is read (step S92). The counter i is set to 1 in advance (step S93), and among the available wireless channels, the average value of the difference between the transmission end time of the wireless channel and the transmission end time of the currently used wireless channel belonging to the same group. Is selected as the used wireless channel. Until the counter becomes the same as the number of used radio channels reported by the mobile station, the counter is incremented by one each time one radio channel is selected, and the operation of selecting the radio channel whose transmission end time is closest is repeated (step S94). , S95, S96), when the selection of the radio channels for the number of radio channels to be used is completed (step S9).
7) A transmission designation signal is transmitted to the mobile station (step S98).

[0069]

As described above, according to the present invention,
The base station provides a plurality of queues classified into a plurality of priority classes, selects one of the queues based on a broadcast signal from the mobile station, and stores the contents of the broadcast signal in this queue. One of the queues is selected based on the threshold value corresponding to the queue, and a transmission designation signal is transmitted to the mobile station which has transmitted the broadcast signal in the queue. It can respond flexibly to changes in conditions,
The service quality requested by the mobile station can be satisfied appropriately.

Further, according to the present invention, the base station measures the waiting time of each packet, compares the measured queue with a threshold value, and, when the measured waiting time is equal to or longer than the threshold value, A transmission designation signal is transmitted to the mobile station that has transmitted the broadcast signal, and if the measured waiting time is smaller than the threshold, the mobile station that has transmitted the head broadcast signal of the queue with the smallest allowable delay is transmitted. Since the transmission designation signal is transmitted, the system can be operated so as to guarantee the quality of service requested by the mobile station.

Further, according to the present invention, when the number of usable radio channels is equal to or more than the number of radio channels used by the mobile station, the base station specifies the radio channel used by the mobile station and immediately specifies transmission. Since the signal is transmitted, the service can be performed with a minimum waiting time of the mobile station performing the transmission timing control processing.

According to the present invention, when the number of available radio channels is equal to or more than the number of radio channels used by the mobile station,
Transmits the radio channel used by the mobile station and a transmission designation signal instructing immediate transmission, and if the number of available radio channels is less than the number of used radio channels of the mobile station, the number of used radio channels can be used The switch is connected to the queue to which the broadcast signal to be transmitted is equal to or less than the number of wireless channels, and the mobile station that has transmitted the broadcast signal transmits a radio channel used by the mobile station and a transmission designation signal that instructs the mobile station to transmit immediately. If transmission is not permitted at this time to the mobile station that is performing the transmission timing control processing, transmission is permitted for the broadcast signal that can be serviced at this time among the broadcast signals stored in the queue. Signals are transmitted, and the radio channel can be used more densely.

Further, according to the present invention, when the number of usable radio channels is less than the number of radio channels used by the mobile station, the waiting time of the priority class in the priority class having the smallest allowable delay is the shortest in the queue. Searching for a broadcast signal in which the number of used radio channels is equal to or less than the number of usable radio channels from a long broadcast signal, and immediately transmitting the radio channel used by the mobile station to the mobile station that has transmitted the broadcast signal satisfying the conditions. Since the transmission designation signal which instructs
The transmission permission signal is transmitted first from the service for the notification signal that is most strictly delayed, so that the use efficiency of the radio channel can be improved and the waiting time can be shortened.

According to the present invention, when the base station receives the broadcast signal from the mobile station, it immediately specifies the transmission timing and the radio channel, so that the base station indicates to the mobile station that the broadcast signal has been received. An ACK signal can be included in the broadcast signal, and downlink traffic can be reduced.

According to the present invention, when all radio channels are collectively managed in a plurality of groups, they belong to the same group by utilizing the point that the time required for transmitting the packet can be calculated from the broadcast information. Since the transmission end time of the wireless channel can be made almost the same, the wireless channel can be used efficiently, so that the use efficiency of the wireless channel is improved and the waiting time can be reduced.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a configuration of a CDMA mobile communication system to which a traffic control method according to an embodiment of the present invention is applied.

FIG. 2 is a diagram showing a configuration of a base station used in the mobile communication system shown in FIG. 1 and a common channel and a broadcast channel between the base station and the mobile station.

FIG. 3 is a diagram illustrating a configuration of a traffic control unit used in the base station illustrated in FIG. 2;

FIG. 4 is a flowchart showing a process of a traffic control unit shown in FIG. 3;

FIG. 5 is a flowchart showing transmission timing control processing in a base station according to another embodiment of the present invention.

FIG. 6 is a flowchart showing transmission timing control processing in a base station according to another embodiment of the present invention.

FIG. 7 is a diagram illustrating a configuration of a traffic control unit used in a base station.

FIG. 8 is a diagram illustrating a transmission end scheduled time table.

FIG. 9 is a flowchart of a traffic control method.

FIG. 10 is a flowchart illustrating a control process of specifying a radio channel to be used in the base station device.

[Explanation of symbols]

 Reference Signs List 11 base station 13 mobile station 23 traffic control unit 25 baseband signal processing unit 31, 32 queue 35 switch 37 server

Claims (18)

[Claims] 1. A mobile communication system in which a plurality of mobile stations appropriately access a base station at an arbitrary timing using a common channel, the mobile station uses a packet size of a packet generated for the base station prior to transmission. The base station broadcasts the number of radio channels to be transmitted and the allowable delay, and the base station, upon receiving the broadcast signal, transmits a transmission designation signal that designates a radio channel to be used by the mobile station and a transmission timing. The base station provides a plurality of queues classified into a plurality of different priority classes, selects one of the plurality of queues based on the broadcast signal from the mobile station, and assigns the selected queue to the selected queue. The content of the notification signal is stored, and one of the plurality of queues is selected based on a predetermined threshold value corresponding to each queue. Traffic control method for mobile communication system and transmitting a transmission designation signal to the mobile station that has transmitted the report signal-option the queue. 2. The base station measures a waiting time of a packet held by each queue, and compares a threshold with the measured waiting time for all queues when transmitting a transmission designation signal to a mobile station. If the measured waiting time is equal to or greater than the threshold, a transmission designation signal is transmitted to the mobile station that has transmitted the broadcast signal, and if the measured waiting time is smaller than the threshold, 2. The traffic control method for a mobile communication system according to claim 1, further comprising: transmitting a transmission designation signal to a mobile station that has transmitted a head broadcast signal of a queue having the smallest allowable delay. 3. When transmitting a transmission designation signal to a mobile station, the base station immediately transmits the radio channel used by the mobile station when the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station. If the number of available radio channels is less than the number of used radio channels reported by the mobile station, the base station waits as it is and obtains the number of radio channels reported by the mobile station. 2. The traffic control method for a mobile communication system according to claim 1, wherein a transmission designation signal for instructing immediate transmission with a wireless channel used by the mobile station is transmitted at the time point. 4. When transmitting a transmission designation signal to a mobile station, if the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the base station immediately transmits the radio channel used by the mobile station. When the number of available radio channels is less than the number of used radio channels reported by the mobile station, a transmission designation signal indicating that the number of usable radio channels is less than the number of usable radio channels is transmitted. A switch is connected to the queue to which the switch belongs, and a transmission designation signal for instructing the mobile station that has transmitted the broadcast signal to immediately transmit the radio channel used by the mobile station and then switch to the original queue. 2. The traffic control method for a mobile communication system according to claim 1, wherein the same processing is repeatedly performed. 5. When the number of usable radio channels is less than the number of used radio channels reported by the mobile station, the broadcast signal of the priority class having the smallest permissible delay is sequentially transmitted from the broadcast signal having the longest waiting time in the queue. A search for a broadcast signal in which the number of used radio channels is equal to or less than the number of available radio channels, and transmission instructing the mobile station that has transmitted the broadcast signal satisfying the condition to immediately transmit the radio channel used by the mobile station to the mobile station. 5. The traffic control method for a mobile communication system according to claim 4, wherein a designated signal is transmitted, a switch is connected to the original queue, and the same processing is repeated. 6. In a mobile communication system in which a plurality of mobile stations access a base station as needed at an arbitrary timing using a common channel, the mobile station uses a packet size of a packet generated for the base station prior to transmission. In a mobile communication system that broadcasts the number of radio channels and the permissible delay and receives the broadcast signal, the base station transmits a transmission designation signal that designates a radio channel used by the mobile station and a transmission timing. A plurality of queues classified into different priority classes, and the broadcast signal received from the mobile station, and one of the plurality of queues is received based on the broadcast signal.
Storage control means for selecting one of the queues and storing the content of the notification signal in the selected queue, and the plurality of queues based on a predetermined threshold value corresponding to each queue. And a selection transmitting means for transmitting a transmission designation signal to the mobile station which has transmitted the broadcast signal in the selected queue. apparatus. 7. A base station apparatus, comprising: measuring means for measuring a waiting time of a packet held in each queue; and, when transmitting a transmission designation signal to a mobile station, the threshold value and the measured values for all the queues. Comparing means for comparing the waiting time, and transmitting a transmission designation signal to the mobile station which has transmitted the broadcast signal when the measured waiting time is equal to or greater than the threshold value as a result of the comparison by the comparing means. And
Means for transmitting a transmission designation signal to the mobile station which has transmitted the head broadcast signal of the queue having the smallest allowable delay when the measured waiting time is smaller than the threshold value. A base station apparatus for a mobile communication system according to claim 6. 8. When transmitting a transmission designation signal to a mobile station, if the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the base station apparatus immediately determines the radio channel used by the mobile station. Means for transmitting a transmission designation signal for instructing transmission, and if the number of available radio channels is less than the number of used radio channels reported by the mobile station, the base station waits as it is, and the radio broadcasted by the mobile station. 7. The base of a mobile communication system according to claim 6, further comprising: a wireless channel used by the mobile station and a means for transmitting a transmission designation signal instructing immediate transmission when the number of channels is obtained. Station equipment. 9. When transmitting a transmission designation signal to a mobile station, if the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the base station apparatus immediately determines the radio channel used by the mobile station. Means for transmitting a transmission designation signal instructing to transmit, and when the number of usable radio channels is less than the number of used radio channels reported by the mobile station, the number of used radio channels is equal to or less than the number of usable radio channels. A switch is connected to the queue to which the broadcast signal belongs, and the mobile station that has transmitted the broadcast signal transmits a radio channel used by the mobile station and a transmission designation signal that instructs the mobile station to immediately transmit the broadcast signal. 7. The base station apparatus for a mobile communication system according to claim 6, further comprising means for connecting a switch to the queue and repeating the same processing. 10. When the number of available radio channels is less than the number of used radio channels reported by the mobile station, the base station apparatus sets the waiting time in the queue in the priority class with the smallest permissible delay in the order of priority. Means for searching for a broadcast signal in which the number of used radio channels is equal to or less than the number of usable radio channels from a broadcast signal having a long length, and a radio channel used by the mobile station with respect to the mobile station that has transmitted the broadcast signal satisfying the condition. Send a transmission designation signal instructing to transmit, and then connect the switch to the original queue,
The base station apparatus for a mobile communication system according to claim 9, further comprising: means for repeatedly performing the same processing. 11. A method in which a plurality of mobile stations report the packet size of a packet generated, the number of radio channels to be used, and a permissible delay to a base station as appropriate at an arbitrary timing using a common channel. Receiving a broadcast signal, the mobile station transmits a transmission designation signal that designates a radio channel and a transmission timing to designate a transmission timing, wherein the base station receives the broadcast signal at the time of receiving the broadcast signal. Calculate the time at which the broadcasted total number of used radio channels becomes available at the same time, and use this as a transmission timing to transmit a transmission designation signal to the mobile station that transmitted the broadcast signal when receiving the broadcast signal. A traffic control method for a mobile communication system. 12. The base station has means for calculating a scheduled transmission end time of each radio channel, and means for managing a scheduled transmission end time table. From the table, a scheduled time at which a radio channel corresponding to the number of used radio channels reported by the mobile station becomes available is searched as a transmission timing, and the time until the mobile station that has transmitted the broadcast signal at the scheduled time ends the transmission is searched. The traffic control method for a mobile communication system according to claim 11, wherein the traffic control is performed. 13. A plurality of mobile stations broadcast a packet size of a generated packet, the number of radio channels to be used, and a permissible delay to a base station as appropriate at an arbitrary timing using a common channel. A mobile communication system that transmits a transmission designation signal that designates a radio channel and a transmission timing used by the mobile station,
When the base station receives the broadcast signal, the base station calculates a time at which the number of all used radio channels broadcast on the broadcast channel becomes available at the same time, and uses this as a transmission timing to determine a mobile station that transmitted the broadcast signal. A base station apparatus for a mobile communication system, wherein a transmission designation signal is transmitted to a station when a broadcast signal is received. 14. The base station has means for calculating a scheduled transmission end time of each radio channel and means for managing a scheduled transmission end time table. From the table, a scheduled time at which a radio channel corresponding to the number of used radio channels reported by the mobile station becomes available is searched as a transmission timing, and the time until the mobile station that has transmitted the broadcast signal at the scheduled time ends the transmission is searched. 14. The base station apparatus for a mobile communication system according to claim 13, wherein the calculation is performed. 15. A base station which divides and manages all radio channels into a plurality of groups, calculates a transmission end time of a radio channel used by the broadcast signal, and calculates a radio channel currently in use. Means for managing the transmission end time of the mobile station, when transmitting the transmission designation signal to the mobile station, when the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the transmission end time of the used radio channel 4. The mobile station according to claim 3, wherein a wireless channel that minimizes the average value of the difference from the transmission end time of the currently used wireless channel belonging to the same group is transmitted and the transmission designation signal is transmitted. A traffic control method for a communication system. 16. A base station which divides and manages all radio channels into a plurality of groups, calculates a transmission end time of a radio channel used by the broadcast signal, and calculates a radio channel currently in use. Means for managing the transmission end time of the mobile station, when transmitting the transmission designation signal to the mobile station, when the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the transmission end time of the used radio channel 5. The mobile station according to claim 4, wherein a radio channel that minimizes the average value of the difference from the transmission end time of the currently used radio channel belonging to the same group is selected and the transmission designation signal is transmitted. A traffic control method for a communication system. 17. The base station apparatus divides all radio channels into a plurality of groups and manages them, calculates a transmission end time of a used radio channel broadcast by the broadcast signal, Means for managing the transmission end time of the channel, and when transmitting the transmission designation signal to the mobile station, when the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the transmission end of the used radio channel is terminated. 9. The wireless communication apparatus according to claim 8, wherein a wireless channel is selected such that the average value of the difference between the time and the transmission end time of the currently used wireless channel belonging to the same group is minimized, and the transmission designation signal is transmitted. A base station device of a mobile communication system. 18. A base station apparatus for managing all radio channels by dividing them into a plurality of groups, calculating a transmission end time of a used radio channel broadcasted by the broadcast signal, and Means for managing the transmission end time of the channel, and when transmitting the transmission designation signal to the mobile station, when the number of available radio channels is equal to or greater than the number of used radio channels reported by the mobile station, the transmission end of the used radio channel is terminated. The wireless communication apparatus according to claim 9, wherein a wireless channel is selected such that the average value of the difference between the time and the transmission end time of the currently used wireless channel belonging to the same group is minimized, and the transmission designation signal is transmitted. A base station device of a mobile communication system.