JP4674054B2 - COMMUNICATION SYSTEM, COMMUNICATION DEVICE, AND TRANSMISSION RATE CONTROL METHOD - Google Patents

Description

  The present invention relates to a communication system, a communication apparatus, and a transmission rate control method.

  For example, in a mobile communication system such as a mobile phone system using a CDMA (Code Division Multiple Access) system, the amount of interference in the base station apparatus becomes excessive due to the communication performed by the mobile station apparatus. In some cases, a new call or new information code of the mobile station apparatus cannot be decoded in the base station apparatus.

  Therefore, for example, in MC (Multi Carrier) -CDMA system used in CDMA2000 and DS (Direct Sequence) -CDMA system used in W-CDMA, a new information code is transmitted in order to avoid the above situation. First, by starting transmission at the lowest transmission rate, the influence on the interference amount of the entire base station apparatus is kept to a minimum. This is because if the transmission rate is low, the influence on other calls is reduced. In such a system, thereafter, the transmission rate is gradually increased according to the reception level of a pilot signal or the like transmitted from the base station apparatus and the interference amount information notified from the base station apparatus.

  As described above, in the conventional communication system, it is possible to prevent the occurrence of a mobile station apparatus that tries to communicate with the base station apparatus at a suddenly high transmission rate, and suppress the occurrence of a situation in which decoding becomes impossible in the base station apparatus. .

Patent Document 1 discloses an invention relating to a transmission device, a reception device, and a data transmission method that automatically switches a data transmission rate in accordance with a line condition.
JP 2000-31944 A

  However, in the above conventional method, the base station apparatus does not ensure a margin of interference amount. For example, when many new information codes are transmitted at once, the interference amount is still excessive. As a result, there is a risk that the base station apparatus may be unable to decode.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a communication system, a communication apparatus, and a transmission rate control method capable of reducing the situation where decoding becomes impossible in a base station apparatus or the like.

  The present invention for solving the problems of the above-described conventional example is a communication system including a first communication device and a second communication device. The second communication device provides information to the first communication device. An information code transmitting means for transmitting a code, wherein the first communication device receives an information code transmitted from the second communication device, and an information code receiving means for receiving the information code. Low-rate transmission instruction transmission means for transmitting a low-rate transmission instruction, and the second communication device receives information according to the low-rate transmission instruction reception means for receiving the low-rate transmission instruction and the low-rate transmission instruction. Transmission rate changing means for changing the transmission rate of the code.

  In this way, it is possible to reduce the situation in which decoding is impossible in the first communication device.

  In the communication system, the first communication device further includes transmission rate determination means for determining that the second communication device is transmitting the information code at a transmission rate exceeding a predetermined threshold. The low-rate transmission instruction transmission means transmits a low-rate transmission instruction to the second communication device according to whether transmission is performed at a transmission rate exceeding the predetermined threshold. Good. By so doing, it is possible to transmit a low-rate transmission instruction depending on whether or not the second communication apparatus is transmitting at a transmission rate exceeding a predetermined threshold.

  Further, in the communication system, the communication system is a communication system based on a code division multiple access method, and the first communication device is configured such that an amount of interference in the first communication device exceeds a predetermined threshold. An interference amount determination means for determining, wherein the low rate transmission instruction transmission means transmits the low rate transmission instruction according to whether or not an interference amount in the first communication device exceeds a predetermined threshold. You can do it. In this way, when the communication system is based on the code division multiple access method, a low rate transmission instruction can be transmitted according to the amount of interference in the first communication apparatus.

  In the communication system, when the transmission rate changing unit changes the transmission rate, the second communication device includes a transmission rate storage unit that stores a transmission rate before the change, and after the change of the transmission rate. Transmission rate return means for returning the transmission rate of the second communication apparatus to a transmission rate corresponding to the transmission rate stored in the transmission rate storage means after a predetermined time has elapsed may be further included. In this way, the throughput of the second communication device can be increased.

  In the communication system, the second communication device may further include a predetermined time acquisition unit that acquires the predetermined time. In this way, the second communication apparatus can acquire the time until the transmission rate before the change is restored.

  In the communication system, the first communication device includes a predetermined time determination unit that determines the predetermined time, and a predetermined time transmission unit that transmits the determined predetermined time to the second communication device. The second communication device further includes a predetermined time receiving means for receiving the predetermined time, and the predetermined time acquisition means receives the predetermined time to be transmitted, thereby receiving the predetermined time. You may get that. In this way, the first communication device can determine the time until the transmission rate before the change is restored.

  A communication apparatus according to one aspect of the present invention includes an information code receiving unit that receives an information code transmitted from a communication apparatus that is a communication partner, and a transmission rate at which the communication apparatus that is the communication partner exceeds a predetermined threshold. Determining means for determining that the information code is being transmitted, and a low-rate transmission instruction for transmitting a low-rate transmission instruction to the communication apparatus that is transmitting at a transmission rate exceeding the predetermined threshold. Rate transmission instruction transmission means.

  A communication apparatus according to another aspect of the present invention receives an information code transmission unit that transmits an information code to a communication apparatus that is a communication partner, and a low-rate transmission instruction from the communication apparatus that is the communication partner. A low rate transmission instruction receiving means, a transmission rate changing means for changing the transmission rate of the information code in accordance with the low rate transmission instruction, and when the transmission rate changing means changes the transmission rate, the transmission rate before the change is changed. Transmission rate storage means for storing, and transmission rate return means for returning the transmission rate to the transmission rate corresponding to the transmission rate stored in the transmission rate storage means after a predetermined time has elapsed after the change of the transmission rate. It is characterized by.

  In addition, the transmission rate control method according to the present invention includes a step of receiving an information code transmitted from a communication device that is a communication partner, and a step of receiving the information code at a transmission rate at which the communication device that is a communication partner exceeds a predetermined threshold. Determining that transmission is being performed; and transmitting a low-rate transmission instruction to the communication device that is the communication partner performing transmission at a transmission rate exceeding the predetermined threshold. Features.

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

  As shown in FIG. 1, mobile communication system 4 according to the present embodiment includes a plurality of mobile station apparatuses 1, base station apparatus 2, and communication network 3. The base station device 2 normally communicates with a plurality of mobile station devices 1.

  As shown in FIG. 2, the mobile station device 1 includes a control unit 11, a communication unit 12, a storage unit 13, an operation unit 14, and a display unit 15. The control unit 11 controls each unit of the mobile station device 1 and executes processing related to a call and data communication. Moreover, the control part 11 is also performing the process for determining the transmission rate, when transmitting the packet for communication used in data communication via the communication part 12. FIG. The communication unit 12 includes an aerial line, and in accordance with an instruction input from the control unit 11, modulates a voice signal, a communication packet, and the like and outputs the modulated signal or the voice signal arriving at the aerial line. A process of receiving and demodulating and outputting to the control unit 11 is performed.

  The storage unit 13 operates as a work memory for the control unit 11. The storage unit 13 holds programs and parameters related to various processes performed by the control unit 11. The operation unit 14 is, for example, a numeric keypad, and receives a telephone number or character string input from a user and outputs it to the control unit 12. The display unit 15 is configured to include, for example, a liquid crystal display device, and displays and outputs information according to a signal input from the control unit 11.

  Next, as shown in FIG. 3, the base station device 2 includes a control unit 21, a network interface unit 22, a wireless communication unit 23, and a storage unit 24. The control unit 21 controls each unit of the base station apparatus 2 and executes processing related to telephone calls and data communication. The network interface unit 22 is connected to the communication network 3 and receives an audio signal, a communication packet, and the like from the communication network 3 and outputs them to the control unit 21, or according to an instruction from the control unit 21. A packet or the like is transmitted to the communication network 3. The wireless communication unit 23 includes an antenna and receives and demodulates a voice signal, a communication packet, and the like from at least one mobile station apparatus 1, and outputs to the control unit 21 or an instruction input from the control unit 21 Accordingly, processing such as modulating a voice signal or a communication packet input from the control unit 21 and outputting it via an antenna is performed. The storage unit 24 operates as a work memory for the control unit 21. Further, the storage unit 24 holds programs and parameters related to various processes performed by the control unit 21.

  When the base station apparatus 2 communicates with the mobile station apparatus 1 using the radio communication unit 23, a traffic channel and a control channel can be used as logical channels. Traffic channels include uplink and downlink communication channels and power control channels. Voice signals and communication packets are transmitted and received on the upstream and downstream communication channels. Uplink means communication from the mobile station apparatus 1 to the base station apparatus 2, and downlink means communication from the base station apparatus 2 to the mobile station apparatus 1. The power control channel is a channel for the base station device 2 to control the antenna power of the mobile station device 1. The control channel includes an uplink access channel, a downlink pilot channel, a synchronization channel, and a paging channel. The access channel is a channel for transmitting a signal from the mobile station apparatus 1 to the base station apparatus 2, and includes an uplink dedicated control channel. The pilot channel and the synchronization channel are channels for synchronizing the base station device 2 and the mobile station device 1. The paging channel is a channel for the base station apparatus 2 to transmit the control information of the mobile station apparatus 1 to the mobile station apparatus 1, and is a common control that is transmitted to all mobile station apparatuses 1 that can communicate at the same time. A downlink dedicated control channel for performing communication with the channel and the individual mobile station apparatus 1 is included. In the common control channel, specifically, information indicating the amount of interference and information such as transmission restrictions are broadcast to all mobile station apparatuses that can communicate. In the dedicated control channel, various signals used in the communication sequence for controlling each mobile station apparatus are transmitted and received.

  A signal on each logical channel, which is directed from the base station device 2 to the mobile station device 1, is included in a physical downlink channel composed of CDMA radio carriers, and is transmitted from the mobile station device 1 to the base station. A signal directed to the station apparatus 2 is included in a physical uplink channel (hereinafter referred to as an “uplink channel”) composed of CDMA radio carriers.

  Here, the technology as the background of the present invention will be described again in detail.

  In CDMA2000 and W-CDMA, a signal (information code) including information such as a packet is transmitted on the transmission side by ASK (amplitude shift keying), FSK (frequency conversion modulation), PSK (phase shift keying). ) And the like. Next, the first-order modulated primary modulated wave is a waveform called a PN (Pseudorandom Noise) sequence, for example, a waveform in which +1 or −1 appear in a random order and is expressed by a function having extremely high autocorrelation , Are converted into a secondary modulated wave obtained by multiplying. Then, after the secondary modulated wave is superimposed on a carrier wave, it is transmitted to the radio section. Here, obtaining the secondary modulation wave from the primary modulation wave is called diffusion. On the demodulation side, the original primary modulation wave can be obtained by multiplying the received secondary modulation wave by the same PN sequence. Here, obtaining the primary modulation wave from the secondary modulation wave is called despreading. By doing so, even when an interference wave enters during transmission / reception, the interference wave cannot be despread even if multiplied by the PN sequence, and is further diffused. For this reason, even when there is interference, there is an effect that the possibility of demodulation is high.

  In the above scheme, by making the PN sequence different for each mobile station device, signals to be transmitted / received to / from each mobile station device are identified. For this reason, for example, when there are a large number of mobile station apparatuses and each transmits a signal by the above method, each signal becomes an interference wave with respect to another signal. When there are many interference waves, the influence of the interference waves cannot be ignored when despreading. When the interference waves exceed a certain amount, a primary modulated wave cannot be obtained by despreading. That is, a new call or a new information code cannot be demodulated at the base station and cannot be accepted. The amount of the interference wave is generally called an interference amount, and is usually represented by a signal-to-noise ratio (S / N ratio) or a carrier power-to-noise power ratio (C / N ratio). The amount of interference can be calculated for each mobile station device 1, and the amount of interference for the sector device 1 as a whole can be the statistical amount. Specifically, it may be the total amount of interference for each mobile station apparatus 1 or an average value.

  Next, for example, packets used in CDMA2000 are usually transmitted and received at a transmission rate of five stages. Specifically, it is determined as one of 9.6 kbps, 19.2 kbps, 38.4 kbps, 76.8 kbps, and 153.6 kbps, and the base station apparatus and the mobile station apparatus communicate with each other at these transmission rates. Do. In general, the antenna power of the mobile station apparatus is determined corresponding to each transmission rate. That is, since the frequency of the primary modulation wave is low when the transmission rate of the packet is low, the possibility of normal demodulation without the influence of the interference wave is increased compared to when the transmission rate of the packet is high. For this reason, when the amount of interference is the same, when transmitting a packet at a low transmission rate, the transmitting side transmits a signal with lower antenna power than when transmitting a packet at a high transmission rate. Conversely, when the amount of interference is the same, when transmitting a packet at a high transmission rate, the transmitting side transmits a signal with a higher antenna power than when transmitting a packet at a low transmission rate. By lowering the transmission rate by this processing, it is possible to avoid a situation in which the base station apparatus 2 becomes unable to decode due to an excessive amount of interference.

  FIG. 4 is a functional block diagram of the mobile station device 1 and the base station device 2 used in the present embodiment. As shown in the figure, the base station apparatus 2 is functionally configured to include a transmission rate determination unit 30, a data reception unit 32, an interference determination unit 34, an instruction unit 36, and a low rate time determination unit 38. The mobile station apparatus 1 is functionally configured to include a low rate time acquisition unit 40, a transmission rate change unit 42, and a data transmission unit 44.

  The data transmitter 44 transmits the information code using, for example, an uplink communication channel. Thus, when transmitting an information code, the transmission rate of the information code is selected. For example, in CDMA2000, when the information code is a packet, any one of 9.6 kbps, 19.2 kbps, 38.4 kbps, 76.8 kbps, and 153.6 kbps is selected as described above, and the selected transmission is performed. The packet is transmitted at a rate.

  The data receiver 32 receives the information code transmitted by the data transmitter 44. The information code is, for example, a packet included in the uplink communication channel. Then, the data transmission unit 44 outputs the transmission rate of the received packet to the transmission rate determination unit 30.

  The transmission rate determination unit 30 determines whether or not the input transmission rate exceeds a predetermined threshold value. For example, in the case of the CDMA2000, if the predetermined threshold is 150 kbps, it is determined that the predetermined threshold is exceeded when the transmission rate is 153.6 kbps. Then, the result of the determination is output to the instruction unit 36. Note that this determination may be made as to whether or not the input transmission rate has exceeded a predetermined threshold over a predetermined time. In other words, when the transmission rate exceeds a predetermined threshold at a certain point in time, timing is started, and if the transmission rate exceeds the predetermined threshold until a predetermined time comes, the transmission rate is determined to be predetermined. It may be determined that a predetermined threshold is exceeded over time.

  Further, the interference determination unit 34 determines whether the uplink channel interference amount exceeds a predetermined threshold. Specifically, the amount of interference is represented by, for example, an S / N ratio as described above, and it is determined whether or not the S / N ratio exceeds a predetermined threshold. Then, the result of the determination is output to the instruction unit 36.

  The instruction unit 36 transmits a low rate transmission instruction to the mobile station apparatus 1 according to the determination result input from the transmission rate determination unit 30 and the determination result input from the interference determination unit 34. Of course, you may transmit according to only one result. Or it is good also as transmitting regardless of these results. When responding to the result of determination input from the transmission rate determining unit 30, for example, when the result of the determination exceeds a predetermined threshold, a low rate transmission instruction is transmitted, and the result of the determination is a predetermined value. If the result does not exceed the threshold, it is preferable to limit transmission. By so doing, it is possible to reduce the transmission rate of the mobile station apparatus 1 that is transmitting at a predetermined threshold value or more. Since the mobile station apparatus 1 with a high transmission rate has high antenna power for transmission as described above and has a large influence on the amount of interference, for example, this reduces the situation in which decoding becomes impossible in the base station apparatus or the like. Can do. Also, when responding to the determination result input from the interference determination unit 34, for example, when the determination result exceeds a predetermined threshold, a low-rate transmission instruction is transmitted, and the determination result is a predetermined value. If it is not the result of exceeding the threshold, it is preferable to limit transmission. In this way, since the transmission rate of the mobile station device 1 can be lowered when the amount of interference is actually large, it is possible to reduce the influence of the uplink channel from the mobile station device 1 on the amount of interference. It is possible to reduce the situation where the station device or the like cannot be decoded. Note that the low rate transmission instruction is preferably transmitted to the mobile station apparatus 1 using the downlink dedicated control channel. The low-rate transmission instruction specifically specifies, for example, 1 bit 0, 1 included in the downlink dedicated control channel, so that the mobile station apparatus 1 does nothing if it is 0, and if it is 1, the current It may be instructed to lower the transmission rate. Alternatively, a specific transmission rate can be designated in the low rate transmission instruction.

  In the mobile station apparatus 1, the transmission rate changing unit 42 receives the low rate transmission instruction. Then, the transmission rate changing unit 42 changes the transmission rate of the information code transmitted by the data transmitting unit 44 in accordance with the low rate transmission instruction. Note that the mobile station apparatus 1 does not necessarily obey the instruction of the low rate transmission instruction, and does not prevent the mobile station apparatus 1 from changing the transmission rate for other reasons. . For example, when a specific transmission rate of 76.8 kbps is specified in the low rate transmission instruction, it is not prevented at all from changing to 38.4 kbps. In such a case, for example, the BER (Bit Error Rate) increases, for example, to 38.4 kbps due to the worsening of the radio wave conditions related to the communication between the mobile station device 1 and the base station device 2. There may be cases where communication cannot be continued without lowering. That is, when the low-rate transmission instruction is received, it is only necessary to reduce the situation where the base station apparatus 2 cannot perform decoding by changing the transmission rate of the information code transmitted by the data transmission unit 44.

  Next, the low rate time determination unit 38 determines the length of time that the mobile station apparatus 1 that has received the low rate transmission instruction reduces the rate to the low rate. That is, the transmission rate changing unit 42 changes the transmission rate of the information code transmitted by the data transmitting unit 44 in accordance with the low rate transmission instruction, but it can be restored after a predetermined time has elapsed. For this purpose, the low rate time determination unit 38 determines the predetermined time and transmits it to the low rate time acquisition unit 40 of the mobile station apparatus 1. It is preferable that the predetermined time is transmitted to the mobile station apparatus 1 using the downlink dedicated control channel. Further, the determination or transmission may be performed simultaneously with the low-rate transmission instruction, or may be transmitted, for example, at a timing when the mobile station device 1 is located. In addition, when it may be common in each base station apparatus 2, it may be transmitted when the mobile station apparatus 1 is powered on. In addition, when common to each mobile station apparatus 1, the mobile station apparatus 1 may be notified using a common control channel. Further, when there is no need to change, it may be stored in advance in the storage unit 13 at the manufacturing stage of the mobile station apparatus 1. In this case, it is not necessary for the base station apparatus 2 to make a decision and no transmission is required. Of course, it may be determined by the mobile station apparatus 1. In addition, when a plurality of mobile station apparatuses 1 return the transmission rate all at once, for example, it is conceivable that the amount of interference rapidly increases, and therefore the predetermined time may be varied for each mobile station apparatus 1. desirable. Specifically, for example, the predetermined time can be determined based on a random number.

  And the low rate time acquisition part 40 is acquired by receiving the said predetermined time. Then, the predetermined time is output to the transmission rate changing unit 42. Then, when changing the transmission rate of the information code transmitted by the data transmission unit 44 in accordance with the low rate transmission instruction, the transmission rate changing unit 42 stores the transmission rate before the change and the low rate time acquisition unit 40. It is good also as monitoring progress of the said predetermined time input from. When it is determined that the predetermined time has elapsed, the transmission rate may be returned to the transmission rate before the change stored.

  Here, the processing of the transmission rate changing unit 42 will be described in detail again. FIG. 5 is a functional block diagram of internal functions of the transmission rate changing unit 42. First, the receiving unit 50 receives a low-rate transmission instruction from the instruction unit 36 and outputs it to the changing unit 52. Then, the changing unit 52 changes the transmission rate of the information code in the data transmitting unit 44 in accordance with the low rate transmission instruction. The transmission rate before the change is stored in the storage unit 54. The change unit 52 receives time information from the low rate time acquisition unit 40. Then, the time information is passed to the timer 56. The timing unit 56 starts timing at the timing at which the changing unit 52 changes the transmission rate in the data transmitting unit 44. When the time indicated by the passed time information has arrived, the timing unit 56 The change unit 52 reads the transmission rate before the change from the storage unit 54 and returns the transmission rate in the data transmission unit 44 to the read transmission rate.

  The above processing will be described with reference to a more specific processing flowchart.

  FIG. 6 is a flowchart showing processing in the base station apparatus 2. In the process shown in the figure, the base station apparatus 2 first detects that the mobile station apparatus 1 is turned on (S100). Specifically, it is detected by a conventionally known location registration process or the like. Then, the unique Ta is notified to the mobile station device 1 (S102). The Ta is the length of time that the mobile station apparatus 1 that has received the low-rate transmission instruction determined by the low-rate time determination unit 38 lowers to the low rate. The Ta may be a number unique to each mobile station apparatus 1. Then, it is determined that the mobile station apparatus 1 transmits an information code at 153.6 kbps, which is the maximum transmission rate in CDMA2000, for example, and the time during which transmission is continued at the transmission rate is measured (S104). ). Specifically, when it is detected that an information code is transmitted at 153.6 kbps, the time measurement is started from the time of detection, and whether or not the continuing time has reached a predetermined time. Is determined (S106), and if the predetermined time is reached, it is determined whether or not the amount of interference exceeds a predetermined threshold. If the amount of interference exceeds a predetermined threshold, a low rate transmission instruction is transmitted to the mobile station apparatus 1 (S110). When a low rate transmission instruction is transmitted or when the amount of interference does not exceed a predetermined threshold, it is determined that the mobile station apparatus 1 transmits an information code at the maximum transmission rate again. The time during which transmission is continued may be measured (c), or a new Ta may be transmitted again (b), or the process is performed until the mobile station apparatus 1 is powered on again. It is good also as not performing (a).

  FIG. 7 shows processing in the mobile station apparatus 1 corresponding to the processing in the base station apparatus 2 in FIG. In the process shown in the figure, when power is first turned on, Ta transmitted from the base station apparatus 2 using the downlink dedicated control channel is received (S200). Then, for example, an information code such as a packet is transmitted using an uplink communication channel (S202). For example, in CDMA2000, when transmission is started, transmission is started at the minimum transmission rate of 9.6 kbps, and the reception level of a pilot signal transmitted from the base station apparatus or the base station apparatus is notified. The transmission rate is gradually increased according to the information on the interference amount. For this reason, the transmission rate may reach the maximum transmission rate of 153.6 kbps. Then, as described in the processing in the base station apparatus 2, for example, when transmitting at the maximum transmission rate, a low-rate transmission instruction may be received from the base station apparatus 2 (S206). When the low-rate transmission instruction is received, the transmission rate is changed, and the transmission rate is lowered, for example, by one level (S208). Then, a timer is started, and when the timer exceeds Ta, the maximum transmission rate is restored (S214). That is, the original transmission rate is restored. In this way, the mobile station apparatus 1 performs processing for increasing or decreasing the transmission rate in accordance with an instruction from the base station apparatus 2, thereby reducing the situation in which the base station apparatus 2 cannot perform decoding. Note that after the maximum transmission rate is increased in S214, it is possible to wait for the low-rate transmission instruction to be transmitted again.

  By doing as described above, it is possible to reduce the situation in which decoding becomes impossible in the base station apparatus 2. In addition, when transmission is performed for a predetermined time at a transmission rate exceeding a predetermined threshold, the base station apparatus can determine the time for performing low rate transmission, and the base station apparatus can determine the time for performing low rate transmission. The transmission rate can be controlled. Further, by giving a low rate transmission instruction when the amount of interference is high, an effect of reducing the amount of interference can be obtained, and the situation where decoding becomes impossible due to the high amount of interference can be reduced. Furthermore, the throughput of the mobile station device 1 can be improved by returning to the transmission rate before the change after a predetermined time.

  The present invention is not limited to the above embodiment.

  For example, although the mobile communication system has been described as an example in the above embodiment, the present invention can be applied to any communication system as long as the communication apparatuses communicate with each other. Specifically, a wireless or wired LAN (Local Area Network) may be used. Taking the case of a wireless LAN as an example, the present invention can be applied not only to an infrastructure mode in which an access point is provided, but also to an ad hoc mode in which communication devices directly communicate with each other without using an access point.

1 is a configuration diagram of a mobile communication system according to an embodiment of the present invention. FIG. 2 is a configuration block diagram of a mobile station apparatus according to an embodiment of the present invention. It is a block diagram of the configuration of a base station apparatus according to an embodiment of the present invention. 1 is a functional block diagram of a mobile communication system according to an embodiment of the present invention. 1 is a functional block diagram of a mobile communication system according to an embodiment of the present invention. It is a flowchart of the process which concerns on embodiment of this invention. It is a flowchart of the process which concerns on embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Mobile station apparatus, 2 Base station apparatus, 3 Communication network, 4 Mobile communication system, 11, 21 Control part, 12 Communication part, 13, 24 Storage part, 14 Operation part, 15 Display part, 22 Network interface part, 23 Wireless communication unit, 30 transmission rate determination unit, 32 data reception unit, 34 interference determination unit, 36 indication unit, 38 low rate time determination unit, 40 low rate time acquisition unit, 42 transmission rate change unit, 44 data transmission unit, 50 Receiving unit, 52 changing unit, 54 storage unit, 56 timing unit.

Claims (6)

A communication system including a plurality of mobile stations, a base station apparatus for communicating with the plurality of mobile station devices, and
Each of the mobile station devices is
Including an information code transmitting means for transmitting an information code to the base station device,
The base station device
Information code receiving means for receiving an information code transmitted from each mobile station device;
An interference amount judging means for judging whether or not the amount of interference in the base station apparatus exceeds a predetermined threshold based on the information code received by the information code receiving means ;
When the amount of interference in the base station apparatus exceeds a predetermined threshold, a low-rate transmission instruction is transmitted to a mobile station apparatus transmitting an information code at a predetermined rate or more among the plurality of mobile station apparatuses Low-rate transmission instruction transmission means,
Each of the mobile station devices is
Low rate transmission instruction receiving means for receiving the low rate transmission instruction;
Transmission rate changing means for reducing the transmission rate of the information code in accordance with the low rate transmission instruction,
A communication system characterized by the above. The communication system according to claim 1,
Each of the mobile station devices is
When the transmission rate changing means changes the transmission rate, a transmission rate storage means for storing the transmission rate before the change;
Transmission rate return means for returning the transmission rate of the mobile station apparatus to a transmission rate corresponding to the transmission rate stored in the transmission rate storage means after a predetermined time has elapsed after the change of the transmission rate;
A communication system characterized by the above. The communication system according to claim 2,
Each of the mobile station devices is
A predetermined time acquisition means for acquiring the predetermined time;
A communication system characterized by the above. The communication system according to claim 3,
The base station device
Predetermined time determining means for determining the predetermined time;
A predetermined time transmission means for transmitting the determined predetermined time to the mobile station apparatus to which the low rate transmission instruction is transmitted ;
Each of the mobile station devices is
A predetermined time receiving means for receiving the predetermined time;
The predetermined time acquisition means acquires the predetermined time by receiving the transmitted predetermined time.
A communication system characterized by the above. A base station device that communicates with a plurality of mobile station devices,
Information code receiving means for receiving an information code transmitted from each mobile station device;
An interference amount judging means for judging whether or not the amount of interference in the base station apparatus exceeds a predetermined threshold based on the information code received by the information code receiving means ;
When the amount of interference in the base station apparatus exceeds a predetermined threshold, a low-rate transmission instruction is transmitted to a mobile station apparatus transmitting an information code at a predetermined rate or more among the plurality of mobile station apparatuses Low-rate transmission instruction transmission means ,
Each of the mobile station devices is
Low rate transmission instruction receiving means for receiving the low rate transmission instruction;
Transmission rate changing means for reducing the transmission rate of the information code according to the low rate transmission instruction,
The base station apparatus according to claim and this. And a plurality of mobile stations, a transmission rate control method in a communication system including a base station apparatus for communicating with the plurality of mobile station devices, and
The base station device receiving an information code transmitted from each mobile station device;
Determining whether or not the amount of interference in the base station apparatus exceeds a predetermined threshold based on the received information code ;
When the amount of interference in the base station apparatus exceeds a predetermined threshold , a low-rate transmission instruction is transmitted to a mobile station apparatus transmitting an information code at a predetermined rate or higher among the plurality of mobile station apparatuses Steps,
The mobile station apparatus transmitting the information code at the predetermined rate or more lowers the transmission rate of the information code in accordance with the low rate transmission instruction ;
Including a transmission rate control method.

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