JP4899924B2 - Personal handyphone system and wireless relay device used therefor - Google Patents

Description

The present invention, PHS (PERSONAL HANDY PHONE SYSTEM) Contact and used to, one or more is interposed between the base station and one or more terminal stations, the radio relay apparatus used to extend the communicable area About.

A typical prior art of the personal handyphone system and the wireless relay device used therefor is disclosed in Patent Document 1 previously proposed by the applicant of the present application. According to the prior art, a packet that is interposed between one or a plurality of terminal stations (such as 128 (k packets / second) compatible PC) and one or a plurality of base stations and relays a radio signal (packet communication). In a wireless relay device called a corresponding repeater or the like, by performing communication with a base station using the same slot as the slot used by the terminal station, the terminal station can improve communication speed. At the same time, even if communication is started using another slot with another base station, no interference occurs.
JP 2004-349874 A

  The above-described conventional technology is an excellent wireless relay device capable of high-speed communication in which a plurality of slots can be used in a wireless relay device (repeater). However, when the number of terminals in the area increases, it becomes impossible for only a specific terminal to occupy many slots, and each terminal station can communicate in only one slot, and the communication speed cannot be improved. There is a problem.

An object of the present invention is to provide a personal handyphone system capable of improving the communication speed even when the number of accommodated terminals is large, and a wireless relay device used therefor.

The personal handyphone system of the present invention has two wireless communication means corresponding to a base station and a terminal station that perform mobile communication, and relays a wireless signal from one of the base station and the terminal station to the other In a personal handyphone system configured to include a radio relay device for transmission, the base station, the terminal station, and the radio relay device can switch modulation schemes corresponding to a plurality of modulation schemes, and the radio relay device Is a wireless communication means that receives a modulation switching request from one of the base station and the terminal station, relays to the other, receives a modulation switching response from the other, relays to one, and the wireless communication means Control means for switching to the permitted modulation system is included.

The radio relay apparatus of the present invention has two radio communication means, and is interposed between a base station and a terminal station of an adaptive modulation system that performs mobile communication, and from one of the base station and the terminal station A wireless relay device in a personal handyphone system that relays a wireless signal to the other, wherein the wireless relay device can switch a modulation method corresponding to a plurality of modulation methods, and the wireless communication means When a modulation switching request is received from one of the base station and the terminal station, relay transmission is performed to the other, and when a modulation switching response is received from the other, relay transmission is performed to one, and the wireless communication means is set to the permitted modulation scheme. And control means for switching.

According to the above configuration, one or a plurality of wireless communication terminals (such as a 128k packet compatible PC) that performs mobile communication, one or a plurality of wireless base stations, and a weak electric field region that is appropriately interposed between them is a communication area. Personal handyphone system comprising a wireless relay device (packet compatible repeater) that relays and transmits a wireless signal (packet communication) from one of the base station and the terminal station to the other in the modulation method is only one method of the current form of the personal handyphone system for QPSK is, wireless communication means and a base station and a terminal station in the radio relay apparatus of the present invention, including the ability to download software for modulation appropriate It is possible to support multiple modulation systems and switch between slots, for example, adaptive modulation system There. Correspondingly, the wireless relay device is provided with a control means for switching the modulation method, and the one wireless communication means receives a modulation switching request (instruction) from one of the base station and the terminal station. Then, the control means, when the modulation change request (instruction) is also allowed to the other to relay transmission between the other from said wireless communication means base station and the terminal station receives modulation switching response (permission) from the other relay to one In addition to transmitting, the wireless communication means switches the modulation method for the slot used to relay the signal of the authorized terminal station. The modulation switching request (instruction) and the modulation switching response (permission) may be transmitted in a control slot in which the modulation system does not change, and the next generated request is currently used by changing in the previous request. You may transmit by a modulation system.

  Therefore, when improving the communication speed, the communication speed is improved within the range of the modulation method corresponding to the radio wave conditions (communication quality such as the electric field strength level and BER) on both the base station and the terminal station from the wireless relay device. (Adaptive modulation system), and it is possible to improve the communication speed even if the number of accommodated terminals is large while preventing a specific terminal station from occupying many slots. Of course, when the number of terminals accommodated in the area is small and the traffic is small, the switching of the modulation method and the use of the conventional multiple slots may be used together to further improve the communication speed.

Furthermore, in the personal handyphone system of the present invention, the base station, the terminal station, and the control means resume communication with the previous modulation method when the switching of the modulation method fails.

  According to the above configuration, when the base station, the terminal station, and the control means switch the modulation method as described above, the radio wave condition is good, so the possibility of failure is low, but an interfering wave is generated instantaneously. For example, if it is determined that the radio wave condition has deteriorated and the switching has failed due to a timeout process or the like, the previous modulation scheme is restored, so that communication (relay) can be continued. In particular, in the case of packet communication, a delay of about several frames due to a switching failure hardly poses a problem.

Further, in the personal handyphone system of the present invention, when the switching of the modulation method fails, the control means stops the relay once, and then voluntarily transmits to the base station instead of the terminal station. A transmission request for receiving an assignment is transmitted.

  According to the above configuration, when the modulation method is switched as described above, the radio wave condition is good and the possibility of failure is low because the radio wave condition is good. When it is determined that switching has failed due to timeout processing, etc., once the communication is disconnected, a call request (instruction) is sent to the base station voluntarily on behalf of the lower terminal station. In response to a new channel assignment that may improve the radio wave condition, for example, the default modulation method such as the slowest communication method is redone, that is, so-called switch back. In this way, it is possible to prompt the restart of communication (relay) even if the change of the modulation method fails. In particular, in the case of packet communication, a delay of about several frames due to a switching failure hardly poses a problem.

Furthermore, in the personal handyphone system of the present invention, when the control means receives the modulation switching request or the modulation switching response, it analyzes the message content, and if the modulation system switching fails, the control speed is increased. When it was a request to switch to the high speed side, communication was resumed with the previous modulation method, and when it was a request to switch the communication speed to the low speed side, the relay was temporarily stopped and then a transmission request to receive channel assignment to the base station was made. It is characterized by transmitting.

  According to the above configuration, when the control means receives the modulation switching request or the modulation switching response, it analyzes the message content, actually changes the modulation method, and fails in time-out processing or the like. If it is determined that the request has been made to switch the communication speed to the high speed side, the terminal station on the lower side waits until the communication is resumed with the previous modulation method, and once it is a request to switch the communication speed to the low speed side, the communication is once made. Is transmitted to the base station instead of the terminal station, receives a new channel assignment, and starts over from the default modulation scheme such as the modulation scheme with the slowest communication speed, that is, so-called It will switch back. In this way, if the modulation system change fails, depending on the failure status, immediately return to the previous modulation system and continue communication (relay), or switch back to investigate possible improvements in radio wave conditions. Can be used properly.

In addition, the personal handyphone system of the present invention has two wireless communication means corresponding to the base station and the terminal station that perform mobile communication, and transmits a wireless signal from one of the base station and the terminal station to the other. in the personal handyphone system configured with a radio relay device that relays transmission to the base station, the terminal station and the radio relay apparatus has a switchable in response to a plurality of modulation schemes, the radio communication unit In association with the management means for managing the communication quality for both the base station and the terminal station, in response to the output from the management means, if it is better to switch the current modulation scheme, Control means for causing the wireless communication means to transmit a modulation switching request to the base station and switching the wireless communication means to the permitted modulation system when receiving a modulation switching response. And features.

According to the above configuration, one or a plurality of wireless communication terminals (such as a 128k packet compatible PC) that performs mobile communication, one or a plurality of wireless base stations, and a weak electric field region that is appropriately interposed between them is a communication area. Personal handyphone system comprising a wireless relay device (packet compatible repeater) that relays and transmits a wireless signal (packet communication) from one of the base station and the terminal station to the other in the modulation method is only one method of the current form of the personal handyphone system for QPSK is, in a wireless communication unit and a base station and a terminal station in the radio relay apparatus of the present invention, including the ability to download software for modulation appropriate Thus, a plurality of modulation schemes can be supported, and switching can be performed for each slot. Correspondingly, the radio relay apparatus has management means for managing radio wave conditions (communication quality such as electric field strength level and BER) for both the base station and the terminal station in relation to the radio communication means and its output. Is provided with a control means for switching the modulation method of the wireless communication means, and the radio wave condition obtained by the management means is good on both the base station side and the terminal station side and the communication speed is high. If it is better to switch to a modulation scheme, or if it is better to switch to a modulation scheme with a lower communication speed that is worse at least on the base station side and the terminal station side, the control means When the wireless communication means transmits a modulation switching request (instruction) and receives a modulation switching response (permission), it transmits to the terminal station and relays the signal of the permitted terminal station to the wireless communication means. Used for For're slot switch the modulation scheme.

  Therefore, switching the modulation method (with the adaptive modulation method) prevents the specific terminal station from occupying many slots, while improving the communication speed even when the number of accommodated terminals is large. Therefore, the wireless relay device that knows the best can determine whether or not it is better to switch the modulation method, and prompt the switching, so that an accurate determination can be made.

Furthermore, the personal handyphone system of the present invention further includes management means for managing communication quality for at least one of the base station and the terminal station in relation to the wireless communication means, and the control means When the modulation method is the modulation method with the highest communication speed, when the communication quality is higher than a predetermined level in response to the output from the management means, the transmission power is reduced to a level at which the current modulation method can be maintained. A power down signal to be transmitted is transmitted to the wireless communication means.

  According to the above configuration, by providing the management means, the wireless relay device can recognize the radio wave condition (communication quality such as electric field strength level and BER), and the current modulation method is the modulation method with the highest communication speed. In some cases, that is, when the radio wave condition (communication quality) from the base station to the terminal station is very good, further improvement in the communication speed cannot be expected. From the obtained radio wave condition, the control means is the wireless communication means. In addition, for example, when the level is higher than a predetermined level on the base station side, the base station is caused to transmit a power-down signal for reducing the transmission power to an appropriate level that can maintain the current modulation scheme (communication speed).

  Therefore, since the transmission power of the base station and the terminal station is suppressed to an appropriate level while maintaining good communication, the channel can be used effectively, for example, the same channel can be used in the adjacent area. .

In addition, the personal handyphone system of the present invention further includes management means for managing communication quality for at least the terminal station in relation to the wireless communication means, and the control means is any of the base station and the terminal station. Responding to an output from the management means in response to an outgoing request for receiving a channel assignment transmitted from one side and a response sent from either of them, the wireless communication means is connected to the terminal station. The base station transmits information related to the communication quality.

According to the above configuration, the wireless relay device can recognize at least the radio wave status (communication quality such as the electric field strength level and BER) with the terminal station by providing the management means. For example, the radio status (communication quality) of the transmission request transmitted from the terminal station is monitored by the management means, and the control means includes the monitoring result in the transmission request for relay transmission from the wireless communication means to the base station. In response to this, the base station actually receives the radio wave condition (communication quality) of the transmission request from the radio relay apparatus, and the radio wave condition (communication quality) between the terminal station and the radio relay apparatus included therein. Then, a usable modulation scheme is determined and set in the wireless relay device and the terminal station by including it in the response signal.

  Therefore, from the beginning of communication, communication can be performed with a modulation method adapted to the radio wave condition.

Personal Handyphone System and the wireless relay apparatus of the present invention, as described above, the modulation method is only one method of the current form of the personal handyphone system for QPSK is, in the present invention, such as downloading the software for the modulation appropriate Thus, it is possible to support a plurality of modulation schemes and switch between slots, etc., and when the radio relay apparatus receives a modulation switching request (instruction) from one of the base station and terminal station, it relays to the other When a modulation switching response (permission) is received from the other side, relay transmission is performed to one side.

  Therefore, in improving the communication speed, the communication speed can be improved within the range of modulation schemes according to the radio wave conditions on both the base station and terminal stations from the wireless relay device, and there are many specific terminal stations. Even if the number of accommodated terminals is large, the communication speed can be improved.

Furthermore, as described above, the personal handyphone system of the present invention has a radio wave condition in which, when the base station, the terminal station, and the control means switch the modulation method as described above, an interference wave is generated instantaneously. When it is determined that switching has failed due to timeout processing or the like, the previous modulation scheme is restored.

  Therefore, communication (relay) can be continued even if the modulation system change fails.

In addition, as described above, the personal handyphone system of the present invention, when switching the modulation method, determines that the radio wave condition has deteriorated due to an instantaneous interference wave, etc., and that switching has failed due to timeout processing or the like. Then, the wireless relay device disconnects the communication once, and then, on behalf of the terminal station, sends a transmission request (instruction) to the base station voluntarily, and a new channel that may improve the radio wave condition In response to the assignment, communication is restarted from the default modulation method.

  Therefore, even if the change of the modulation method fails, it is possible to prompt the restart of communication (relay).

Furthermore, in the personal handyphone system of the present invention, as described above, when the wireless relay device receives the modulation switching request or modulation switching response, it analyzes the message content and actually changes the modulation method. When it is determined that a failure has occurred due to timeout processing or the like, when it is a request to switch the communication speed to the high speed side, it waits until the terminal station on the lower side resumes communication with the previous modulation method, When it was a request to switch the communication speed to the low speed side, once the communication was cut off, a transmission request (instruction) was sent to the base station on behalf of the terminal station, a new channel assignment was received, and communication was performed from the default modulation method Try again.

  Therefore, if the modulation system change fails, depending on the failure status, immediately switch back to the previous modulation system and continue communication (relay), or switch back to investigate possible improvements in radio wave conditions. You can choose what to do.

The personal handy phone system of the present invention, as described above, the modulation method is only one method of the current form of the personal handyphone system for QPSK is, in the present invention, such as by downloading the software for the modulation appropriate It can support multiple modulation methods and can be switched for each slot, etc. Corresponding to this, the radio relay device has good radio wave conditions on both the base station side and terminal station side, and the communication speed If it is better to switch to a faster modulation scheme, or if it is better to switch to a modulation scheme with a lower communication speed, which is worse on at least one of the base station side and the terminal station side, request a modulation switching request to the base station. Send.

  Therefore, switching the modulation method prevents the specific terminal station from occupying many slots, and the best way to understand the radio wave condition in improving the communication speed even when the number of accommodated terminals is large. Since it is determined whether or not it is better for the wireless relay apparatus to switch the modulation method and the switching is promoted, an accurate determination can be made.

Furthermore, as described above, the personal handyphone system according to the present invention is suitable for maintaining the current modulation method from the obtained radio wave condition when the current modulation method is the modulation method with the highest communication speed. A power down signal that reduces the transmission power to a certain level is transmitted.

  Therefore, while maintaining good communication, the transmission power of the base station and the terminal station is suppressed to an appropriate level. For example, the same channel can be used in the adjacent area, so that the channel can be used effectively. it can.

Further, as described above, the personal handyphone system of the present invention can be used by starting radio communication by monitoring the radio wave condition of at least a transmission request from a terminal station and transmitting it to the base station. A suitable modulation scheme is determined.

  Therefore, communication can be performed from the beginning of communication using a modulation method adapted to the radio wave condition.

[Embodiment 1]
FIG. 1 is a block diagram showing a configuration of a personal handyphone system according to the first embodiment of the present invention. This personal handyphone system includes one or more (one in FIG. 1) terminal station A and one or more (four in FIG. 1) base stations B1 to B4 (hereinafter collectively referred to as reference symbol B). And a wireless relay device C that is appropriately interposed between them and used to supplement a weak electric field area as a communication area. The terminal station A consists of a 128k packet compatible PC, etc., and the radio relay apparatus C has two antennas 1 and 2 and radio communication units 3 and 4 corresponding to the base station B and the terminal station A, and A radio signal (packet communication) from one of the station B and the terminal station A is relay-transmitted (hereinafter also referred to as retransmission ) to the other.

  The wireless communication units 3 and 4 serving as wireless communication means include wireless circuit blocks 5 and 6 including modems that perform transmission and reception between the base station B and the terminal station A via the antennas 1 and 2, respectively, The circuit blocks 5 and 6 include radio circuit control blocks 7 and 8 for controlling access by time division multiplexing, and are controlled by a CPU 9 which is a control means. In association with the CPU 9, there is provided a memory 10 comprising a RAM for storing transmission / reception data described later.

  It should be noted that in the present invention, the base station B, the terminal station A, and the wireless communication units 3 and 4 can support a plurality of modulation schemes by appropriately downloading software for modulation, for example, for each slot. Can be switched, that is, an adaptive modulation system. For example, when the radio wave condition (communication quality such as electric field strength and BER) is improved from the default BPSK, the data amount is 8PSK, the double data amount is 16QAM, the double data amount is 32QAM, and so on. Switch to a modulation system with many multi-levels. When the wireless communication units 3 and 4 receive the modulation switching request from one of the base station B and the terminal station A, the CPU 9 causes the wireless communication units 4 and 3 to retransmit to the other and the modulation switching from the other. When the response is received, it is retransmitted to one side, and the radio communication units 3 and 4 are switched to the permitted modulation method.

  FIG. 2 shows a sequence up to the start of communication. Here, an example in which a transmission request is transmitted from the terminal station A to the base station B is shown, but in the case of an incoming call, the transmission request is transmitted from the base station B to the terminal station A. When the terminal station A transmits a call request, the radio relay apparatus C relays it and retransmits it to the base station B. In response to this, the base station B returns a call response including information such as a communication carrier and a slot. The radio relay apparatus C that has received the call response transmits a synchronization burst for synchronization with the communication carrier included in the call response, and in response to this, the base station B returns a synchronization burst. The synchronization is established between the base station B and the wireless relay device C.

  When synchronization is established with the base station B, the radio relay apparatus C relays the outgoing response and retransmits it to the terminal station A. Upon receipt of the outgoing response, the terminal station A transmits the synchronization burst, and in response to this, the radio relay apparatus C sends back the synchronization burst, thereby synchronizing the terminal station A and the radio relay apparatus C. Established. Thereafter, the communication type, the function held by the base station B, the function held by the terminal station A, and the like are exchanged by messages, and then the communication is shifted.

  In this embodiment, when a modulation switching request is generated from one of the terminal station A and the base station B (terminal station A in the example of FIG. 3) during the communication, as shown in FIG. Switching takes place. In this case, since the terminal station A, the radio relay apparatus C, and the base station B are synchronized, when the terminal station A transmits a modulation switching request to the radio relay apparatus C, the radio relay apparatus C immediately Retransmit to base station B. When the base station B responds to the modulation switching request and returns a modulation switching response including information on the modulation scheme to be used to the radio relay apparatus C, the radio relay apparatus C immediately retransmits it to the terminal station A. Send.

  Thereafter, in the wireless relay device C, the CPU 9 causes the wireless communication units 3 and 4 to switch to the modulation scheme designated by the modulation switching response for the slot of the terminal station A and waits. Prior to the transmission, a synchronization burst for synchronizing with the modulation method to be switched is transmitted. When the wireless relay apparatus C receives the synchronization burst, it immediately retransmits it to the base station B. When the base station B returns a synchronization burst, it immediately retransmits it to the terminal station A. When synchronization is established with a new modulation method in this way, data is subsequently transmitted with the modulation method.

  By configuring in this way, the current PHS uses only one QPSK modulation scheme to change the radio wave conditions (field strength level, BER, etc.) from the radio relay apparatus C to both the base station B and the terminal station A. Since the communication speed is improved by switching appropriately within the range of the modulation method according to the communication quality), even if the number of accommodated terminals is large while preventing a specific terminal station from occupying many slots, Speed can be improved. Of course, when the terminal station A is composed of the above-described 128k packet compatible PC using all four PHS slots, when the number of terminals accommodated in the area is small and the traffic is small, along with the switching of the modulation method, This conventional use of a plurality of slots may be used together to further improve the communication speed.

[Embodiment 2]
FIG. 4 is a diagram showing a modulation scheme switching sequence in the personal handyphone system according to the second embodiment of the present invention. In this embodiment, the configuration of the personal handyphone system shown in FIG. 1 described above can be used, and the sequence of the terminal station A, base station B, and radio relay apparatus C is shown in FIG. 3 and FIG. Just different. It should be noted that, in the present embodiment, each base station B, terminal station A, and radio relay apparatus C resumes communication with the previous modulation scheme when the switching of the modulation scheme fails. .

  In the example of FIG. 4, when the terminal station A transmits a modulation switching request and the radio relay apparatus C retransmits to the base station B, the base station B returns the next modulation method to be switched as a modulation switching response. . At this time, when the base station B returns the modulation switching response, the base station B starts a timer for waiting for a synchronization burst, and the CPU 9 also starts a timer when the modulation switching response is retransmitted. The timer is started when the message is received. When the terminal station A receives the modulation switching response, the terminal station A transmits a synchronization burst in order to establish synchronization prior to communication in the next modulation scheme to be switched, but in the next modulation scheme to be switched within the timeout period. When synchronization is not established, each base station B, terminal station A, and radio relay apparatus C switches to the previous modulation scheme, and establishes synchronization again with the previous modulation scheme in synchronization burst from the terminal station A. To resume.

  As described above, when switching the modulation method, the possibility of failure is low because the radio wave condition is good, but it is determined that the radio wave condition has deteriorated due to an instantaneous interference wave, etc., and switching has failed. Then, since each base station B, terminal station A, and wireless relay apparatus C return to the previous modulation scheme in this way, the current communication speed can be maintained and communication (relay) can be continued. In particular, in the case of packet communication, a delay of about several frames due to a switching failure hardly poses a problem.

[Embodiment 3]
FIG. 5 is a diagram showing a modulation scheme switching sequence in the personal handyphone system according to the third embodiment of the present invention. The configuration of the personal handyphone system shown in FIG. 1 can also be used in this embodiment, and the sequence of the terminal station A, base station B, and radio relay apparatus C is shown in FIG. 4 and FIG. Just different. It should be noted that in the present embodiment, the radio relay apparatus C transmits a transmission request to the terminal station A after stopping the relay once when switching of the modulation scheme fails.

  That is, as in FIG. 4, when the terminal station A transmits a modulation switching request and the radio relay apparatus C retransmits to the base station B, the base station B returns the next modulation scheme to be switched as a modulation switching response. The radio relay apparatus C also retransmits the modulation switching response. At that time, the CPU 9 starts a timer at the time of retransmitting the modulation switching response, and when the synchronization with the terminal station A is not established in the next modulation method to be switched within the timeout period, the relay is temporarily stopped. Thereafter, when a predetermined time has elapsed, the radio relay apparatus C voluntarily transmits a call origination request to the base station B on behalf of the terminal station A. On the other hand, the base station B returns a call response, and the radio relay apparatus C retransmits to the terminal station A, so that, for example, a modulation method with the slowest communication speed, etc. Communication resumes with the default modulation method.

  As described above, when switching the modulation method, the possibility of failure is low because the radio wave condition is good, but it is determined that the radio wave condition has deteriorated due to an instantaneous interference wave, etc., and switching has failed. Then, the wireless relay device C thus temporarily disconnects the communication and then voluntarily transmits a transmission request to the base station B on behalf of the terminal station A, possibly improving the radio wave condition. In response to a new channel assignment, the default modulation scheme is redone, that is, a so-called switch back. In this way, it is possible to prompt the restart of communication (relay) even if the change of the modulation method fails. In particular, in the case of packet communication, a delay of about several frames due to a switching failure hardly poses a problem.

[Embodiment 4]
FIG. 6 is a flowchart for explaining the switching operation of the modulation method in the personal handyphone system according to the fourth embodiment of the present invention. Also in this embodiment, the configuration of the personal handyphone system shown in FIG. 1 can be used. It should be noted that in the present embodiment, when a modulation switching request or modulation switching response is received from the terminal station A or the base station B in step S1 during communication (relay), the CPU 9 sends the message in step S2. It is to analyze the contents. Then, in preparation for a case where the switching of the modulation method has failed, if it is a request to switch the communication speed to the high speed side (increase the multi-value number) in step S3, the process proceeds to step S4, as shown in FIG. Is set to continue the communication with the previous modulation method after waiting for the synchronization burst of the terminal station A, and when it is a request to switch the communication speed to the low speed side (down the multi-value number), move to step S5, As shown in FIG. 5, after the relay is temporarily stopped, a transmission request is transmitted on behalf of the terminal station A, so that the communication is set to be started again from the default modulation method.

  By configuring in this way, if the modulation method change fails, depending on the failure status, it is possible to immediately return to the previous modulation method and continue communication (relay), or the radio wave condition may be improved It is possible to use properly whether to switch back to search for.

[Embodiment 5]
7 and 8 are diagrams showing a modulation system switching sequence in the personal handyphone system according to the fifth embodiment of the present invention. Also in this embodiment, the configuration of the personal handyphone system shown in FIG. 1 can be used. It should be noted that in the present embodiment, the CPU 9 determines the D / U ratio and the modulation accuracy of 2 as the communication quality for both the base station B and the terminal station A from the outputs of the wireless communication units 3 and 4. When it is better to obtain the multiplication error and switch the current modulation method, the wireless communication unit 3 on the base station B side transmits a modulation switching request. Therefore, the CPU 9 functions as a control unit and a management unit.

  Specifically, as shown in FIG. 9, when there are 1, 2,..., N modulation schemes, the D / U ratio or “second generation” is used as a determination threshold value for the switching level of each modulation scheme. Using the square error using the modulation accuracy shown in 7.1.7 of “Cordless Telephone System Standard RCR STD-28” (issued by The Radio Industries Association), modulation is performed for modulation method 1. The memory 10 holds a modulation switching parameter such as 4 for the method 2. When the square error of the D / U ratio or modulation accuracy changes beyond the modulation switching parameter, the CPU 9 generates the modulation switching request.

  That is, as shown in FIG. 10, during communication (relay), communication quality management as described above is performed in step S11, and in step S12, the modulation shown in FIG. 9 is performed on both the terminal station A side and the base station B side. If it is determined that the communication speed can be increased (multi-value number increased) exceeding the switching parameter, a modulation switching request for increasing the communication speed (multi-value number increased) is transmitted in step S13. On the other hand, if the communication speed cannot be increased (increase the multi-value number) in step S12, it is determined in step S14 whether or not the communication speed should be decreased (decrease the multi-value number). If the multi-value number is to be reduced, a modulation switching request for slowing the communication speed (down the multi-value number) is transmitted in step S15. If not, the current communication speed (modulation method) is maintained.

  In the example of FIG. 7, the CPU 9 determines that the current communication quality can be switched to a modulation method having a higher communication speed than the current modulation method on both the terminal station A side and the base station B side. On the other hand, when a modulation switching request is transmitted and a modulation switching response is received from the base station B, the modulation switching response is retransmitted to the terminal station A, and the modulation system is switched. In the example of FIG. 8, the CPU 9 determines that the current communication quality level should be switched to a modulation method whose communication speed is slower than the current modulation method on both the terminal station A side and the base station B side. When a modulation switching request is transmitted to the base station B and a modulation switching response is received from the base station B, the modulation switching response is retransmitted to the terminal station A to switch the modulation method.

  By configuring in this way, switching the modulation method (with the adaptive modulation method) prevents a specific terminal station from occupying many slots, while reducing the communication speed even when the number of accommodated terminals is large. In the improvement, the radio relay apparatus C that knows the radio wave condition best determines whether or not it is better to switch the modulation method, and prompts the switching, so that an accurate determination can be made.

[Embodiment 6]
FIG. 11 is a diagram showing a modulation scheme switching sequence in the personal handyphone system according to the sixth embodiment of the present invention. In the present embodiment, a configuration capable of communication quality management is used as in the above-described embodiments shown in FIGS. 7 to 10. It should be noted that in this embodiment, the current modulation scheme is the most. If the communication quality is higher than the predetermined level even if the communication speed is high, the transmission speed cannot be improved further. Is transmitted from the wireless communication units 3 and 4 to the base station B and the terminal station A.

  Specifically, for example, in the modulation switching parameter table as shown in FIG. 9 stored in the memory 1, when communication is performed with modulation n, the switching level is sufficiently larger than the 2n value. The radio relay apparatus C notifies the terminal station A and the base station B to reduce the transmission power so that the transmission power is about 2n + α.

  Therefore, since the transmission power of the base station B and the terminal station A is suppressed to an appropriate level while maintaining good communication, for example, the same channel can be used in the adjacent area, so that the channel can be used effectively. Can do.

  It is not necessary to power down both the base station B and the terminal station A. The terminal station A whose communication quality is likely to change is not powered down, and only the base station B whose communication quality is almost constant is powered down. Only one of them may be powered down. In particular, by suppressing the transmission power on the base station B side, the same channel can be used in the adjacent area as described above, which is effective. Further, if the transmission power on the terminal station A side is suppressed, the battery life can be extended.

[Embodiment 7]
FIG. 12 is a diagram showing a modulation scheme switching sequence in the personal handyphone system according to the seventh embodiment of the present invention. Also in the present embodiment, the above-described configuration capable of communication quality management is used, and it should be noted that in this embodiment, the radio relay apparatus C is connected to either the base station B or the terminal station A. The communication quality is monitored with respect to a transmission request to be transmitted and a response transmitted from either one of them, and information on the communication quality with the terminal station A is transmitted to the base station B.

  In the example of FIG. 12, when a transmission request from the terminal station A is received, the radio relay apparatus C includes information on the communication quality when retransmitting to the base station B, and the base station B uses it in response thereto. When a modulation scheme to be determined is determined and a transmission response including the information is returned, the radio relay apparatus C transmits a synchronization burst of a modulation scheme corresponding to the transmission response to the base station B. The base station B establishes synchronization by returning a synchronization burst of the same modulation scheme to the radio relay apparatus C. Thereafter, when the radio relay apparatus C retransmits the transmission response to the terminal station A, the terminal station A transmits a synchronization burst of the instructed modulation method, and the radio relay apparatus C returns a synchronization burst of the same modulation method. By establishing synchronization, communication using the modulation scheme designated by the base station B is possible.

  With this configuration, communication can be performed from the beginning of communication using a modulation method adapted to the radio wave condition.

[Embodiment 8]
FIG. 13 is a diagram showing a modulation scheme switching sequence in the personal handyphone system according to the eighth embodiment of the present invention. This embodiment is similar to the embodiment shown in FIGS. 12 and 5 described above. It should be noted that in this embodiment, the radio relay apparatus C activates a synchronization burst waiting timer when synchronization with the base station B is established, and then retransmits a transmission response to the terminal station A, If synchronization cannot be established within the period, the relay is temporarily stopped, including information on a modulation scheme whose communication speed is slower (low multilevel) than that previously established with the base station B, and again The transmission request is transmitted to the base station B.

  With this configuration, it is possible to switch the modulation method according to the communication quality from the start of communication and receive a new channel assignment that may improve the radio wave condition even if the switching of the modulation method fails. Communication can be started at an early stage.

It is a block diagram which shows the structure of the personal handyphone system which concerns on the 1st Embodiment of this invention. It is a figure which shows the sequence until communication start. It is a figure which shows the switching sequence of the modulation system in the personal handyphone system which concerns on the 1st Embodiment of this invention. It is a figure which shows the switching sequence of the modulation system in the personal handyphone system which concerns on the 2nd Embodiment of this invention. It is a figure which shows the switching sequence of the modulation system in the personal handyphone system which concerns on the 3rd Embodiment of this invention. It is a flowchart for demonstrating the switching operation | movement of the modulation system in the personal handyphone system which concerns on the 4th Embodiment of this invention. It is a figure which shows the switching sequence of the modulation system in the personal handyphone system which concerns on the 5th Embodiment of this invention. It is a figure which shows the switching sequence of the modulation system in the personal handyphone system which concerns on the 5th Embodiment of this invention. It is a figure for demonstrating briefly a modulation system and its switching parameter. It is a flowchart for demonstrating the switching operation | movement of the modulation system in the personal handyphone system which concerns on the 5th Embodiment of this invention. It is a figure which shows the switching sequence of the modulation system in the personal handyphone system which concerns on the 6th Embodiment of this invention. It is a figure which shows the switching sequence of the modulation system in the personal handyphone system which concerns on the 7th Embodiment of this invention. It is a figure which shows the switching sequence of the modulation system in the personal handyphone system which concerns on the 8th Embodiment of this invention.

DESCRIPTION OF SYMBOLS 1, 2 Antenna 3, 4 Wireless communication part 5, 6 Wireless circuit block 7, 8 Wireless circuit control block 9 CPU
10 memory A terminal stations B1 to B4 base station C wireless relay device

Claims (8)

A base station and a terminal station that perform mobile communication have two wireless communication means corresponding to them, and comprise a wireless relay device that relays and transmits a wireless signal from one of the base station and the terminal station to the other Personal handy phone system
The base station, the terminal station and the wireless relay device can switch the modulation scheme corresponding to a plurality of modulation schemes,
The wireless relay device is a wireless communication means that, when receiving a modulation switching request from one of the base station and the terminal station, relays to the other, receives a modulation switching response from the other, relays to one, and A personal handyphone system comprising control means for switching wireless communication means to the permitted modulation system. 2. The personal handyphone system according to claim 1, wherein the base station, the terminal station, and the control unit resume communication using the previous modulation method when the switching of the modulation method fails. When the control means fails to switch the modulation method, it temporarily stops relaying and then, on behalf of the terminal station, voluntarily transmits a call request for receiving channel assignment to the base station. The personal handyphone system according to claim 1. When the control means receives the modulation switching request or the modulation switching response, it analyzes the message content, and when the switching of the modulation system fails, if the request is for switching the communication speed to the high speed side, the previous modulation is performed. The transmission request for receiving a channel assignment is transmitted to the base station after the relay is temporarily stopped when the request is made to restart communication by the system and the communication speed is switched to the low speed side. Personal handy phone system. A base station and a terminal station that perform mobile communication have two wireless communication means corresponding to them, and comprise a wireless relay device that relays and transmits a wireless signal from one of the base station and the terminal station to the other Personal handy phone system
The base station, terminal station and wireless relay device can be switched corresponding to a plurality of modulation schemes,
A management means provided in association with the wireless communication means for managing communication quality for both the base station and the terminal station;
When it is better to switch the current modulation method in response to the output from the management unit, the wireless communication unit transmits the modulation switching request to the base station and receives the modulation switching response. the personal handy phone system characterized by comprising a control means for switching to the authorized modulation scheme. The connection with a wireless communication means, further comprising a managing means for managing at least one for the communication quality between the base station and the terminal station,
The control means responds to the output from the management means when the current modulation method is the modulation method with the highest communication speed, and can maintain the current modulation method when the communication quality is higher than a predetermined level. 6. The personal handyphone system according to claim 1, wherein a power-down signal that reduces transmission power to a certain level is transmitted to the wireless communication unit. In relation to the wireless communication means, further comprising management means for managing communication quality for at least the terminal station,
The control means outputs an output from the management means in response to a transmission request for receiving a channel assignment and a response transmitted from either one of the base station and the terminal station for receiving a channel assignment. The personal handyphone system according to any one of claims 1 to 6, wherein the wireless communication unit is caused to transmit information on communication quality with the terminal station to the base station. A personal handy that has two radio communication means and is interposed between a base station and a terminal station of an adaptive modulation system that performs mobile communication, and relays and transmits a radio signal from one of the base station and the terminal station to the other A wireless relay device in a phone system ,
The wireless relay device can switch the modulation method corresponding to a plurality of modulation methods,
When the wireless communication means receives a modulation switching request from one of the base station and the terminal station, relays to the other, receives a modulation switching response from the other, relays to one, and the wireless communication means And a control means for switching to the permitted modulation system.

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