JP2009065329A - Terminal, communication system, management module, re-reception control method, program, and recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a terminal for solving the problem that receiving efficiency can not be improved while suppressing an increase in power consumption of the terminal. <P>SOLUTION: A communication processing part 31 decides whether there is an error in a received notification message. When there is an error in the notification message, the communication processing part 31 receives the notification message again. A control part 331 determines the maximum number of times when the communication processing part 31 receives the notification message on the basis of decision results of the communication processing part 31. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a terminal that retransmits a notification message, a communication system, a management module, a re-reception control method, a program, and a recording medium.

  In a broadcast service such as a broadcast service or a multicast service, a communication control device such as a base station control device may retransmit a broadcast message (broadcast message or multicast message) having the same content once or a plurality of times. In this case, when the terminal continuously receives the notification message, the power consumption of the terminal increases.

  A function for reducing power consumption of the terminal includes a schedule function.

  A communication control device having a schedule function, in addition to a notification message having service information of a broadcast communication service, a notification message (schedule message) having schedule information for informing the terminal of the contents and transmission timing of the service information in advance. Send.

  A terminal having a schedule function reduces power consumption by intermittently receiving a notification message using the schedule information.

  In addition, when the terminal intermittently receives the notification message and the reception of the notification message fails, the terminal receives the notification message (retransmission message) that is retransmitted by the communication control device, thereby improving reception efficiency. Is possible.

  However, the terminal consumes power when receiving the retransmission message. For this reason, a technique for improving reception efficiency while suppressing an increase in power consumption of the terminal is desired. Such a technique includes a mobile communication system described in Patent Document 1.

  This mobile communication system determines a retransmission message reception method according to the communication quality of a data signal. Specifically, this mobile communication system does not receive a retransmission message when its quality of service is greater than or equal to a desired value or greater than a desired value, while its communication quality is less than or equal to a desired value. If it is the following, a retransmission message is received.

Thereby, in this mobile communication system, the retransmission message is received only when there is a high possibility that the broadcast message reception will fail. Therefore, it is possible to reduce receiving a large number of notification messages in vain. Therefore, it is possible to improve reception efficiency while suppressing an increase in power consumption of the terminal.
JP 2004-129078 A

  However, the mobile communication system described in Patent Document 1 has the following problems.

  That is, in an environment where the communication situation is continuously bad, the mobile communication system repeatedly receives a retransmission message, resulting in a problem of high power consumption. For example, even if the terminal receives all the retransmitted notification messages and fails to receive all of the notification messages, the power consumption is increased and the reception efficiency is not improved. Note that examples of the environment in which the communication state is continuously bad include a case where the HUB-PORT on the LAN line is damaged or a case where the terminal is out of the range of the wireless communication system.

  Also, if the broadcast / multicast function stops instantaneously in an environment with good communication conditions, the mobile communication system does not receive retransmission messages, so power consumption is reduced, but the reception efficiency of broadcast messages is not improved. There's a problem. Note that when the broadcast / multicast function is stopped instantaneously, for example, the terminal may receive a channel preferentially receiving a channel different from the broadcast / multicast channel.

  Therefore, the mobile communication system may not be able to improve reception efficiency while suppressing an increase in power consumption of the terminal.

  Therefore, an object of the present invention is to solve the above-described problem that the reception efficiency cannot be improved while suppressing an increase in power consumption of the terminal, a terminal, a communication system, a management module, and a re-reception control. A method, a program, and a recording medium are provided.

  The terminal of the present invention is a terminal connectable to a communication control device that transmits and retransmits a message, receives the message from the communication control device, determines whether the message has an error, When there is an error in the message, processing means for re-receiving the message, and management means for determining the maximum number of times the processing means re-receives the message based on a determination result of the processing means.

  The communication system of the present invention includes the terminal and a communication control device that transmits and retransmits the message.

  In addition, the management module of the present invention receives the message from the communication control apparatus that transmits and retransmits the message, determines whether the message has an error, and if the message has an error, A management module that controls a processing unit that re-receives, and determines a maximum number of times the processing unit re-receives the message based on a determination result of the processing unit.

  The first re-reception control method of the present invention is a re-reception control method performed by a terminal connected to a communication control device that transmits and re-transmits a message, and receives the message from the communication control device. A reception step, a determination step for determining whether or not the received message has an error, a re-reception step for re-receiving the message when the message has an error, and a determination result based on the determination result, Determining a maximum number of times to re-receive the message.

  The second re-reception control method of the present invention is a re-reception control method performed by a communication system including a communication control device and a terminal connectable to the communication control device, wherein the communication control device includes: A transmission step of transmitting and retransmitting a message, wherein the terminal receives the message from the communication control device, and the terminal determines whether the received message has an error. A determination step; a re-reception step for re-receiving the message when the terminal has an error in the message; and a determination for determining the maximum number of times the terminal re-acquires the message based on the determination result Steps.

  In the third re-reception control method of the present invention, the message is received from the communication control device that transmits and re-transmits the message, it is determined whether or not the message has an error, and the message has an error. And a re-reception control method performed by a management module that controls a processing unit that re-receives the message, and determines a maximum number of times the processing unit re-receives the message based on a determination result of the processing unit. Includes a decision step.

  Further, the program of the present invention is a program for causing a computer connected to a communication control apparatus that transmits and retransmits a message to execute communication processing, and a reception process that receives the message from the communication control apparatus; A determination process for determining whether or not the received message has an error, a re-reception process for re-receiving the message when the message has an error, and a re-reception process based on the determination result. A communication process including a determination process for determining a maximum number of times of reception.

  The recording medium of the present invention is a computer-readable recording medium on which the above program is recorded.

  According to the present invention, it is possible to improve reception efficiency while suppressing an increase in power consumption of a terminal.

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

  FIG. 1 is a block diagram showing a communication system according to an embodiment of the present invention. Hereinafter, a communication system that provides a broadcast service in wireless communication will be described as an example. However, the present invention can also be applied to a communication system that provides information through a broadcast service in wired communication.

  In FIG. 1, the communication system includes a broadcast center (CBC: Cell Broadcast Center) 1, a base station controller 2 (RNC: Radio Network Controller), and a mobile phone (Mobile Station) 3. Here, the broadcast center 1 can be connected to the base station controller 2 via the core network 100, and the base station controller 2 can be connected to the mobile phone 3 via the base station 200. It is.

  The broadcast center 1 is a server that provides a broadcast service to the mobile phone 3 via the base station control device 2. The broadcast service uses CBS (Cell Broadcast Service), MBMS (Multimedia Broadcast Multicast Service), or the like.

  The broadcast center 1 transmits a provision request for requesting provision of a broadcast service to the mobile phone 3 to the base station controller 2. Here, the broadcast center 1 retransmits a provision request for requesting provision of the same broadcast service once or a plurality of times.

  The base station control device 2 is an example of a communication control device. When receiving the provision request from the broadcast center 1, the base station control device 2 transmits a notification message corresponding to the provision request to the mobile phone 3.

  The notification message includes a notification message having service information of the broadcast communication service and a notification message having schedule information for informing the mobile phone 3 of the content and transmission timing of the service information in advance.

  Hereinafter, a notification message having service information may be referred to as a service message, and a notification message having schedule information may be referred to as a schedule message.

  The service information is, for example, weather forecasts or sports information, and is composed of text, music, images, and the like. There may be a plurality of service information.

  In the schedule information, the number of possible transmissions at which the base station control apparatus 2 can transmit a notification message with the same content and the transmission timing of each notification message with the same content are described for each identifier. Here, the transmittable number of times is the number of times that the base station control device 2 can retransmit the broadcast message and the number of retransmissions that can be retransmitted, plus 1 for the initial transmission of the broadcast message.

  Further, the schedule message is repeatedly transmitted after a certain time. Hereinafter, the time interval at which the schedule message is transmitted is referred to as a schedule period. Within this schedule period, the base station controller 2 can retransmit the service message corresponding to the schedule message as many times as possible.

  Note that the notification message includes an identifier for identifying itself. Further, the number of retransmissions that can be retransmitted by the base station control apparatus 2 may be different for each identifier.

  FIG. 2 is a block diagram illustrating a configuration example of the base station control device 2.

  The base station control device 2 includes a center side communication unit 21 and a terminal side communication unit 22.

  The center side communication unit 21 receives a provision request from the broadcast center 1.

  The terminal-side communication unit 22 receives from the mobile phone 3 a channel setting request for requesting setting of a channel for broadcast communication and a request for retransmission of a notification message. The retransmission request includes an identifier that identifies the notification message. Further, the retransmission request may or may not include the timing for retransmitting the broadcast message.

  Further, when receiving the channel setting request, the terminal-side communication unit 22 transmits system information indicating the channel for the broadcast service to the mobile phone 3. Thereafter, when the center side communication unit 21 receives the provision request, the terminal side communication unit 22 generates a notification message based on the provision request, and transmits the notification message to the mobile phone 3. At this time, the terminal-side communication unit 22 continuously transmits the notification message until the schedule message is first transmitted. When the schedule message is transmitted, the terminal-side communication unit 22 intermittently transmits the notification message according to the schedule message. Specifically, the terminal-side communication unit 22 intermittently transmits the notification message by transmitting the first service message and not retransmitting the service message.

  Hereinafter, the broadcast message to be retransmitted may be referred to as a retransmission message.

  In addition, when receiving the retransmission request, the terminal-side communication unit 22 transmits a notification message specified by the identifier in the retransmission request to the mobile phone 3. At this time, when the retransmission request includes the timing for receiving the notification message, the terminal-side communication unit 22 transmits the notification message in synchronization with the timing, and the retransmission request does not include the timing for receiving the notification message. The notification message is continuously transmitted.

  FIG. 3 is a block diagram illustrating a configuration example of the mobile phone 3. In the present embodiment, a mobile phone is used as an example of a terminal, but the terminal is not limited to a mobile phone and can be changed as appropriate.

  In FIG. 3, the mobile phone 3 includes a communication processing unit 31, an intermittent reception control unit 32, and a management unit 33.

  The communication processing unit 31 is an example of a processing unit. The communication processing unit 31 receives system information and a notification message from the base station control device 2.

  Further, the communication processing unit 31 performs processing of layer 1 (physical layer: PHY layer), layer 2 (data link layer), and layer 3 (network layer) on the received various information. Layer 2 includes a MAC layer and an RLC layer. Layer 3 is composed of an RRC layer.

  Hereinafter, the processing of layer 1, layer 2, and layer 3 that are directly related to the present invention will be described.

  The communication processing unit 31 determines for each frame whether or not the notification message has an error.

  For example, when this communication system is a TDMA (Time Division Multiple Access) system, the base station controller 2 multiplexes (interleaves) each frame in the broadcast message into four normal bursts and transmits the frames. Layer 1 of the communication processing unit 31 restores the four normal bursts into frames (reverse interleaving), and determines whether or not there is an error in the restored frames. The layer 1 may determine whether or not there is an error in the 88-octet data including the NULL block and the NO message of the frame, and the 22-octet data not including the NULL block and the NO message. It may be determined whether or not there is an error. In the following, it is assumed that layer 1 determines whether or not there is an error in the data of 22 octets.

  When this communication system is a UMTS (Universal Mobile Telecommunications System) system, layer 2 (MAC layer) determines whether or not there is an error in the broadcast message in units of MAC frames. In the present embodiment, the layer 3 of the communication processing unit 31 may determine whether there is an error in the broadcast message in units of frames in which a plurality of MAC frames are reconfigured or in units of RLC frames.

  Note that the communication processing unit 31 determines whether there is an error in the notification message, for example, by CRC determination. In addition, the communication processing unit 31 determines whether or not there is an error in the notification message for each identifier.

  Further, upon receiving a broadcast service start request from an upper layer, the communication processing unit 31 (layer 3) transmits a channel setting request to the base station control device 2. Further, when receiving the system information, the communication processing unit 31 (layer 3) opens a channel indicated by the system information.

  The intermittent reception control unit 32 controls intermittent reception of the communication processing unit 31. Specifically, the intermittent reception control unit 32 periodically supplies power to the communication processing unit 31 for the supply time, thereby causing the communication processing unit 31 to intermittently receive the notification message.

  The management unit 33 is a management module for managing broadcast communication, which is also called a broadcast multicast management component.

  The management unit 33 includes a control unit 331, a storage unit 332, and a reacquisition unit 333.

  Based on the schedule information in the schedule message received by the communication processing unit 31, the control unit 331 causes the communication processing unit 31 to intermittently receive the notification message by using the intermittent reception control unit 32. For example, the control unit 331 obtains a cycle and a supply time for supplying power to the communication processing unit 31, and sets the cycle and the supply time in the intermittent reception control unit 32.

  In addition, the control unit 331 obtains the number of possible transmissions for each identifier from the schedule information, and stores the number of possible transmissions in the storage unit 332 in association with each identifier. In addition, the control unit 331 stores the schedule information in the storage unit 332.

  Further, based on the determination result of the communication processing unit 31, the control unit 331 determines the maximum number of times that the communication processing unit 31 re-receives the notification message for each identifier of the notification message.

  Specifically, first, the control unit 331 accumulates the determination result in the storage unit 332 for a predetermined period or a predetermined number of times. The control unit 331 calculates the reception accuracy (for example, frame error rate) of the notification message based on the accumulated determination result.

  After that, when the control unit 331 receives all the notification messages transmitted and retransmitted from the base station control device 2 based on the reception accuracy and the number of transmissions possible in the storage unit 332, the control message 331 makes an error in the notification message. Find the maximum success probability that can be received without any problems.

  The maximum success probability is an example of the maximum probability. In addition, the maximum success probability is the same value as an expected value at which all broadcast messages transmitted and retransmitted from the base station controller 2 can be received without error.

  When the maximum success probability is larger than a predetermined upper limit value, the control unit 331 sets the maximum reacquisition count to the retransmittable count.

  In addition, when the maximum success probability is smaller than a predetermined lower limit value, the control unit 331 sets the maximum reacquisition count to 0.

  Furthermore, when the maximum success probability is equal to or higher than the lower limit value and equal to or lower than the upper limit value, the control unit 331 sets the maximum reacquisition count to a value such that the probability that the broadcast message can be received without error becomes the lower limit value. The probability that the broadcast message can be received without error is the same value as the expected value that allows the broadcast message to be received without error.

  Note that the control unit 331 can obtain the maximum number of retransmissions for each of up to 24 identifiers in the TDMA system, and can obtain the maximum of 128 identifiers in the UMTS system. It is possible.

  In addition, when there is an error in the notification message received by the communication processing unit 31, the control unit 331 retransmits the notification processing unit 31 until the notification message is received without error or until the maximum number of reacquisitions is reached. Receive.

  Specifically, the control unit 331 obtains the timing of the notification message to be re-received based on the schedule information in the storage unit 332, and sends a retransmission request including the timing and the identifier of the notification message to the communication processing unit 31. Is transmitted to the base station control apparatus 2 via. The control unit 331 controls the intermittent reception control unit 32 so that power is supplied to the communication processing unit 31 at that timing.

  Note that the control unit 331 causes the communication processing unit 31 to re-receive the notification message by causing the communication processing unit 31 to continuously receive the notification message before determining the maximum number of times of reacquisition. Specifically, a retransmission request including the notification message identifier is transmitted to the base station control device 2 via the communication processing unit 31. Further, the control unit 331 controls the intermittent reception control unit 32 so that power is always supplied to the communication processing unit 31.

  Next, the operation will be described. FIG. 4 is a flowchart for explaining an operation example of the communication system. In the following, it is assumed that CBS is used for the broadcast service.

  In step S1, the mobile phone 3 determines whether or not the base station control device 2 supports broadcast communication.

  FIG. 5 is a sequence diagram for explaining the processing in step S1.

  First, when the communication processing unit 31 (layer 3) of the mobile phone 3 receives a broadcast communication start request from an upper layer, it transmits a channel setting request to the terminal side communication unit 22 of the base station control device 2 ( Step S101).

  Subsequently, when receiving the channel setting request, the terminal-side communication unit 22 generates system information indicating a channel for broadcast communication when it supports broadcast communication, and supports the broadcast communication. If not, system information indicating that broadcast communication is not supported is generated.

  The terminal-side communication unit 22 transmits the generated system information to the communication processing unit 31 of the mobile phone 3 (Step S102).

  When the communication processing unit 31 receives the system information, the communication processing unit 31 performs layer 1, layer 2, and layer 3 processing on the system information, and transmits the system information to the control unit 331.

  When receiving the system information, the control unit 331 determines whether or not the base station control device 2 is compatible with broadcast communication based on the system information (step S103).

  The control unit 331 executes step S2 when the base station control device 2 supports broadcast communication, and ends the operation when the base station control device 2 does not support broadcast communication.

  In step S2, the control unit 331 determines whether or not the base station control device 2 manages the broadcast service with schedule information.

  FIG. 6 is a sequence diagram for explaining the processing in step S2.

  The control unit 331 transmits to the communication processing unit 31 that the channel indicated by the system information is opened. When the communication processing unit 31 receives information to open the channel, the communication processing unit 31 opens the channel (step S201). Thereby, the mobile phone 3 can continuously receive the notification message.

  In step S102, when the terminal-side communication unit 22 of the base station control device 2 transmits system information indicating a channel for broadcast communication, the center-side communication unit 21 thereafter sends a provision request (Cell Broadcast REQ (request)). Is received, a notification message (CB Message Data IND (Indication)) corresponding to the provision request is transmitted to the communication processing unit 31 of the mobile phone 3 (step S202).

  The communication processing unit 31 receives the notification message having the identifier in the start request, and discards the notification message that does not have the identifier. At this time, the communication processing unit 31 continuously receives the notification message.

  Upon receiving the notification message, the communication processing unit 31 performs layer 1, layer 2, and layer 3 processing on the notification message, and transmits the notification message to the control unit 331.

  When receiving the notification message, the control unit 331 determines whether there is schedule information in the notification message (step S203).

  When the control unit 331 finds the schedule information within a certain period, the control unit 331 determines that the base station control device 2 manages the broadcast communication service with the schedule information. The station control device 2 determines that the broadcast service is not managed by the schedule information. When the base station controller 2 manages the broadcast service with schedule information, the control unit 331 executes step S204, and when the base station controller 2 does not manage the broadcast service with schedule information. The process is terminated.

  In step S204, the control unit 331 extracts the number of possible transmissions for each identifier from the schedule information, and stores the number of possible transmissions in the storage unit 332 in association with each identifier.

  Further, the control unit 331 obtains a cycle and time for supplying power to the communication processing unit 31 based on the schedule information, and sets the cycle and time in the intermittent reception control unit 32. The intermittent reception control unit 32 causes the communication processing unit 31 to intermittently receive the notification message by supplying power to the communication processing unit 31 at the set cycle and time (step S204). Thereafter, step S3 is executed.

  In step S3, the control unit 331 calculates the reception accuracy of the notification message.

  FIG. 7 is a sequence diagram for explaining the processing in step S3.

  First, the communication processing unit 31 determines whether or not there is an error in the notification message received from the base station control apparatus 2, and transmits the determination result to the control unit 331. At this time, the communication processing unit 31 may transmit the determination result every time it is determined whether or not there is an error in the notification message, or the determination result is accumulated for a predetermined period or a predetermined number of times. The result may be sent. The determination result includes the identifier of the notification message.

  Whenever the determination result is received, the control unit 331 accumulates the determination result in the storage unit 332.

  When the communication processing unit 31 determines that the notification message has an error, the control unit 331 stops the operation of the intermittent reception control unit 32 and transmits a retransmission request to the base station control device 2 via the communication processing unit 31. Then, the communication processing unit 31 continuously receives the notification message.

  When the control unit 331 accumulates the determination result in the storage unit 332 for a predetermined period or a predetermined number of times, based on the determination result in the storage unit 332, for each identifier in the determination result, the control message 331 specifies the notification message. Receive accuracy (frame error rate) is calculated.

  Specifically, based on the determination result, the control unit 331 obtains the total number of receptions of the notification message and the number of failures where the notification message has an error. The control unit 331 calculates the reception accuracy of the notification message by dividing the number of failures by the number of transmission / reception (step S301). When calculating the reception accuracy, the control unit 331 executes Step S4.

  In step S4, the control unit 331 determines the maximum number of reacquisitions based on the reception accuracy.

For example, first, the control unit 331 calculates the maximum success probability from the reception accuracy and the number of broadcast message frames. Equation 1 is a formula for calculating the maximum success probability.
(Equation 1) ExpSuc = 1-(Err ^ [Frame (Rept + 1)])
In Equation 1, ExpSuc (Expected Success) indicates the probability that the broadcast message can be received without error, Err indicates the reception accuracy, Frame indicates the number of frames of the broadcast message, and Rept is the broadcast to be retransmitted. This is the number of times a message is received.

  The maximum success probability is a probability (ExpSuc) when the number of possible retransmissions is substituted for the number of receptions (Rept) of Equation 1.

Subsequently, the control unit 331 determines the maximum number of times of reacquisition based on the reception accuracy. Equation 2 is a formula for calculating the maximum number of times of reacquisition.
(Equation 2) MaxRept = ln (1-ExpSuc) / ln Err-1
In Equation 2, MaxRept indicates the maximum number of reacquisitions. In Equation 2, MaxRept is assumed to be an integer by rounding up the decimal places.

  When the maximum success probability is greater than 0.97, the control unit 331 determines the maximum number of re-acquisitions by substituting the maximum success probability into the probability ExpSuc of Equation 2. In this case, the maximum number of reacquisitions is the number of retransmissions possible. Further, the control unit 331 may obtain the retransmittable number as the maximum number of re-acquisitions without substituting the maximum success probability into Equation 2.

  In addition, when the maximum success probability is smaller than 0.50, the control unit 331 sets the maximum number of reacquisitions to 0.

  Further, when the maximum success probability is 0.50 or more and 0.97 or less, the control unit 331 substitutes 0.50 for the probability ExpSuc of Formula 2 to obtain the maximum number of re-acquisition MaxRept. As a result, the control unit 331 sets the maximum number of reacquisitions to a value such that the probability that the notification message can be received without error is 0.50.

  Note that 0.97 was used as an example of the upper limit value, and 0.50 was used as an example of the lower limit value. However, the upper limit value and the lower limit value are not limited to these examples, and can be changed as appropriate. The upper limit value and the lower limit value are determined according to the reception accuracy desired by the user or the like.

  When determining the maximum number of reacquisitions, the control unit 331 stores the maximum number of reacquisitions in the storage unit 332 in association with the identifier. Thereafter, step S5 is executed.

  In step S5, the control unit 331 causes the communication processing unit 31 to re-receive the notification message. FIG. 8 is a sequence diagram for explaining the process of step S5.

  When receiving the notification message (S501), the communication processing unit 31 determines whether or not there is an error in the notification message (S502).

  If there is an error in the notification message, the communication processing unit 31 transmits to the control unit 331 that the notification message has an error. When the control unit 331 receives that the error has occurred, the control unit 331 checks the maximum number of reacquisition times stored in the storage unit 332 and associated with the identifier in the determination result (S503).

  When the maximum number of reacquisitions is 0, the control unit 331 enters a standby state without performing reacquisition of the notification message. On the other hand, when the maximum number of reacquisitions is 1 or more, the control unit 331 Perform re-reception processing.

  That is, first, the control unit 331 generates a notification message reception timing based on the schedule information in the storage unit 332, and generates a reacquisition request including the timing and the identifier in the determination result. The control unit 331 transmits the reacquisition request to the terminal side communication unit 22 of the base station control device 2 via the communication processing unit 31, and counts the number of times the communication processing unit 31 re-receives the request.

  Subsequently, when receiving the reacquisition request, the terminal-side communication unit 22 transmits a notification message specified by the identifier in the reacquisition request to the communication processing unit 31 of the mobile phone 3 at a timing within the reacquisition request. To do.

  Thereafter, when receiving the notification message, the communication processing unit 31 determines whether or not the notification message has an error. If there is an error in the notification message, the communication processing unit 31 transmits to the control unit 331 that the notification message has an error.

  When the control unit 331 receives that the error has occurred, the control unit 331 determines whether or not the counted number of re-receptions is the same as the maximum number of re-acquisitions (S504).

  When the number of times of re-reception is the same as the maximum number of times of re-acquisition, the control unit 331 enters a standby state without re-acquiring the notification message. On the other hand, when the number of times of re-reception is not the same as the maximum number of re-acquisition times, the control unit 331 repeats the re-reception process (S505). Thereafter, step S6 is executed.

  In step S6, the control unit 331 determines whether to change the maximum number of reacquisitions. Specifically, the control unit 331 changes the maximum number of reacquisitions when the base station 200 to which the mobile phone 3 is connected is changed or when the mobile phone 3 exists in the cell of the same base station 200 for a specific period or longer. Judge that.

  If the control unit 331 determines that the maximum number of reacquisitions is to be changed, step S5 is executed, and if it is determined not to change the maximum number of reacquisitions, step S1 or S3 is executed depending on the reason for the change. Specifically, when the base station 200 to which the mobile phone 3 is connected is changed, step S1 is executed, and when the mobile phone 3 exists in the cell of the same base station 200 for a specific period or longer, step S3 is executed. .

  When the broadcast service is terminated, the operation is terminated during any of steps S1 to S6.

  Next, the effect will be described.

  According to this embodiment, the communication processing unit 31 determines whether there is an error in the received notification message. Further, when there is an error in the notification message, the communication processing unit 31 re-receives the notification message. The management unit 33 determines the maximum number of times that the communication processing unit re-receives the notification message based on the determination result of the communication processing unit 31.

  Thereby, the maximum number of times of reacquisition for re-receiving the broadcast message is determined based on the determination result as to whether or not the broadcast message has an error. The determination result reflects the communication status of the notification message.

  Therefore, since it is possible to change the maximum number of times of reacquisition according to the communication status, if the maximum number of times of reacquisition is reduced when the communication status is poor, the number of times of failure to receive a retransmission message can be reduced. As a result, an increase in power consumption of the mobile phone 3 can be suppressed. Also, when the maximum number of reacquisitions is increased when the communication status is good, it is possible to reduce the fact that the retransmission message is not received although the possibility of successful reception of the retransmission message is high. Therefore, it is possible to improve reception efficiency while suppressing an increase in power consumption of the mobile phone 3.

  Further, in the present embodiment, the management unit 33 sets the maximum success probability that can receive the broadcast message without error when all the broadcast messages transmitted and retransmitted from the base station control device 2 are received based on the determination result. Ask. Further, the management unit 33 determines the maximum number of reacquisitions based on the maximum success probability.

  In this case, the maximum number of times of reacquisition is determined based on the maximum success probability that the broadcast message can be received without error when all broadcast messages transmitted and retransmitted from the base station controller 2 are received. Note that the maximum success probability more appropriately reflects the communication status of the notification message.

  Therefore, it is possible to improve reception efficiency more appropriately while suppressing an increase in power consumption of the mobile phone 3.

  In the present embodiment, the management unit 33 sets the maximum number of reacquisitions to 0 when the maximum success probability is smaller than the lower limit value. In this case, if there is a high possibility that all notification messages will fail to be received, the notification message can be prevented from being received again, and an increase in power consumption of the mobile phone 3 can be suppressed. .

  In this embodiment, when the maximum success probability is larger than the upper limit value, the management unit 33 sets the maximum reacquisition count to a retransmittable count that allows the base station control device 2 to retransmit the broadcast message. In this case, it is possible to reduce the fact that the retransmission message is not received even though the communication status is good.

  Further, in the present embodiment, the management unit 33 is configured such that, when the maximum success probability is equal to or higher than the lower limit value and equal to or lower than the upper limit value, the probability that the broadcast message can be received without error is the lower limit value. Value. In this case, if the lower limit value is set appropriately, the power consumption and the reception efficiency can be set to appropriate values.

  Further, as described in steps S1 and S2, the communication system according to the present embodiment is not applied to the broadcast communication by the base station control device 2, and the broadcast communication is not managed by the schedule information. However, it will be possible to operate.

  Next, a second embodiment will be described. Hereinafter, configurations, functions, and operations different from those of the communication system according to the first embodiment described with reference to FIGS. 1 to 8 will be described.

  FIG. 9 is a block diagram showing the configuration of the mobile phone 3 of the second embodiment. In FIG. 9, the same components as those in FIG.

  In FIG. 9, the mobile phone 3 includes a battery 34 and a power supply monitoring unit 35 in addition to the configuration shown in FIG. 3.

  The battery 34 is a power source for driving each part of the mobile phone 3.

  The power monitor 35 monitors the remaining amount of the battery 34 and determines whether the remaining amount is smaller than a predetermined reference value.

  The control unit 331 determines the maximum number of reacquisitions based on the determination result of the communication processing unit 31 and the determination result of the power supply monitoring unit 35.

  For example, when the determination result indicates that the remaining amount of the battery is smaller than the reference value, the control unit 331 sets the maximum number of reacquisitions to 0 regardless of the determination result. Further, the control unit 331 may end the broadcast communication service when the determination result indicates that the remaining battery level is smaller than the reference value.

  Next, the operation will be described.

  FIG. 10 is a flowchart for explaining the operation of the communication system of the present embodiment. In FIG. 10, the same processes as those in FIG. 4 are denoted by the same reference numerals.

  In step S10, the power monitoring unit 35 determines whether or not the remaining amount of the battery 34 is smaller than a reference value. The power monitoring unit 35 transmits the determination result to the control unit 331. When receiving the determination result, the control unit 331 executes S3B.

  In step S3B, when the determination result indicates that the remaining amount of the battery 34 is greater than or equal to the reference value, the control unit 331 performs the process described in step S3. Thereafter, steps S4 to S6 are executed.

  On the other hand, if the determination result indicates that the remaining amount of the battery 34 is smaller than the reference value, the control unit 331 determines that the maximum number of reacquisitions is zero. When determining that the maximum number of acquisition times is 0, the control unit 331 skips step S4 and executes step S5. Thereafter, step S6 is executed.

  If the mobile phone 3 is present in the cell of the same base station 200 for a specific period or longer in step S6, step S10 is executed.

  Next, the effect will be described.

  In the present embodiment, the power supply monitoring unit 35 determines whether or not the remaining amount of the battery 34 is smaller than a predetermined reference value. The management unit 33 determines the maximum number of reacquisition times based on the determination result of the communication processing unit 31 and the determination result of the power supply monitoring unit 35.

  In this case, even if the same determination result is obtained, the maximum number of reacquisitions can be changed between when the remaining amount of the battery 34 is small and when the remaining amount of the battery 34 is large. Therefore, for example, when the remaining amount of the battery 34 is low, it is possible to perform control with an emphasis on a reduction in power consumption by reducing the maximum number of times of reacquisition.

  In the present embodiment, when the determination result indicates that the remaining amount is smaller than the reference value, the management unit 33 determines the maximum number of reacquisitions to be 0 regardless of the determination result.

  In this case, when the remaining amount of the battery 34 is low, the notification message can be prevented from being received again, and the power consumption of the mobile phone 3 can be reduced. Accordingly, it is possible to reduce the suspension of the function of the mobile phone 3.

  Next, a third embodiment will be described. This embodiment shows the simplest configuration of the portable terminal of the present invention.

  FIG. 11 is a block diagram illustrating a configuration example of the mobile phone according to the present embodiment. In FIG. 11, the mobile phone 3 includes a communication processing unit 31 and a management unit 33.

  The communication processing unit 31 receives the notification message from the base station control device 2 and determines whether or not there is an error in the notification message. Further, when there is an error in the notification message, the communication processing unit 31 re-receives the notification message.

  The management unit 33 determines the maximum number of times that the communication processing unit 31 re-receives the notification message based on the determination result of the communication processing unit 31.

  Next, the operation will be described.

  First, when receiving a notification message from the base station control device 2, the communication processing unit 31 determines whether or not there is an error in the notification message. The communication processing unit 31 transmits the determination result to the management unit 33.

  When receiving the determination result, the management unit 33 accumulates the determination result in itself. When the control unit 331 accumulates the determination result for a predetermined period or a predetermined number of times, the control unit 331 determines the maximum number of reacquisitions based on the accumulated determination result. The management unit 33 sets the maximum number of reacquisitions in the communication processing unit 31.

  If there is an error in the notification message, the communication processing unit 31 re-receives the notification message until it is received without error or until the set maximum number of re-acquisitions.

  Next, the effect will be described.

  According to the present embodiment, when the management unit 33 receives all notification messages transmitted and retransmitted from the base station control device 2 based on the determination result, the management unit 33 sets the maximum success probability that the notification message can be received without error. Ask. Further, the management unit 33 determines the maximum number of reacquisitions based on the maximum success probability.

  In this case, the maximum number of times of reacquisition is determined based on the maximum success probability that the broadcast message can be received without error when all broadcast messages transmitted and retransmitted from the base station controller 2 are received. Note that the maximum success probability more appropriately reflects the communication status of the notification message.

  Therefore, as in the first embodiment, it is possible to change the maximum number of times of reacquisition according to the communication status. Therefore, if the maximum number of times of reacquisition is reduced when the communication status is bad, the reception of the retransmission message It is possible to reduce the number of times of failure, and to suppress an increase in power consumption of the mobile phone 3. Also, if the maximum number of reacquisitions is increased when the communication status is good, it is possible to reduce the absence of a retransmission message. Therefore, it is possible to improve reception efficiency while suppressing an increase in power consumption of the mobile phone 3.

  Next, application examples of the communication system described in each embodiment to CBS and MBMS will be described.

  FIG. 12 is an explanatory diagram showing an application example of the communication system to CBS.

  In FIG. 12, the center-side communication unit 21 of the base station control device 2 includes a SABP (Service Area Broadcast Protocol) layer, a TCP layer, an IP layer, and a Link / Layer layer. The terminal side communication unit 22 includes a MAC layer, an RLC layer, and an RRC layer. There are two RRC layers, one of which is a BMC (Broadcast / Multicast Control) layer that controls the broadcast service. The BMIWF (Broadcast Multicast Interworking Function) layer of the base station controller 2 has a function of notifying the terminal side communication unit 22 of the provision request received by the center side communication unit 21.

  The communication processing unit 31 of the mobile phone 3 includes a PHY layer, a MAC layer, an RLC layer, and an RRC layer. There are two RRC layers, and one is a BMC layer that controls the broadcast service. Further, the management unit 33 is made up of CBS · Appl.1.

  FIG. 13 is an explanatory diagram showing an application example of the communication system to MBMS. In FIG. 13, the description of the same configuration as in FIG. 12 is omitted.

  In FIG. 13, the center side communication unit 21 of the base station control device 2 includes an L-1 layer and an L-2 layer. The management unit 33 of the mobile phone 3 includes an MBMS layer, an MBMS Transport layer, a MUSP * 1 PDCH layer, a UDP / TCP layer, and an IP / Multicast layer.

  Note that the GMM / SM / SMS layer of the base station controller 2 and the mobile phone 3 is a protocol layer for providing a packet switching service.

  The function of the communication system (mobile phone 3) described above is that a program for realizing the function is recorded on a computer-readable recording medium, and the program recorded on the recording medium is stored in the computer. It may be read and executed. The computer-readable recording medium refers to a recording medium such as a flexible disk, a magneto-optical disk, a CD-ROM, or a hard disk device built in a computer system. Furthermore, a computer-readable recording medium is a server that dynamically holds a program (transmission medium or transmission wave) for a short time, as in the case of transmitting a program via the Internet, and a server in that case. Some of them hold programs for a certain period, such as volatile memory in computers.

  In each embodiment described above, the illustrated configuration is merely an example, and the present invention is not limited to the configuration.

It is the block diagram which showed the communication system of one Embodiment of this invention. It is the block diagram which showed the structural example of the base station control apparatus. It is the block diagram which showed the structural example of the mobile telephone. It is a flowchart for demonstrating the operation example of a communication stem. It is a sequence diagram for demonstrating the process of step S1. It is a sequence diagram for demonstrating the process of step S2. It is a sequence diagram for demonstrating the process of step S3. It is a sequence diagram for demonstrating the process of step S5. It is the block diagram which showed the structure of the mobile telephone of 2nd embodiment. It is a flowchart for demonstrating operation | movement of the communication system of 2nd embodiment. It is the block diagram which showed the structure of the mobile telephone of 2nd embodiment. It is explanatory drawing which showed the example of application to CBS of this communication system. It is explanatory drawing which showed the example of application to MBMS of this communication system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Broadcast center 2 Base station control apparatus 3 Mobile phone 21 Terminal side communication part 22 Center side communication part 31 Communication processing part 32 Intermittent reception management part 33 Management part 34 Battery 35 Power supply monitoring part 331 Control part 332 Storage part

Claims (20)

A terminal connectable to a communication control device for transmitting and retransmitting messages,
Processing means for receiving the message from the communication control device, determining whether the message has an error, and receiving the message again when the message has an error;
A management unit that determines a maximum number of times that the processing unit re-receives the message based on a determination result of the processing unit; The terminal according to claim 1,
The management means obtains the maximum probability that the processing means can receive the message without error when the processing means receives all the messages transmitted and retransmitted from the communication control device based on the determination result, and based on the maximum probability And determining the maximum number of times. The terminal according to claim 2,
The management means determines the maximum number of times to be 0 when the maximum probability is smaller than a predetermined lower limit value. The terminal according to claim 2 or 3,
The management means, when the maximum probability is greater than a predetermined upper limit, determines the maximum number of times as a retransmittable number of times that the communication control device can retransmit the message. The terminal according to claim 3, wherein
When the maximum probability is equal to or greater than the lower limit value, the management means determines the maximum number of times to a value such that a probability that the message can be received without error becomes the lower limit value. 6. The terminal according to claim 5, wherein the management means sets the maximum number of times when the maximum probability is equal to or higher than the lower limit value and equal to or lower than a predetermined upper limit value, and the probability becomes the lower limit value. If the maximum probability is larger than the upper limit value, the maximum number of times is determined to be the number of retransmissions that the message can be retransmitted by the communication control device. The terminal according to any one of claims 1 to 6,
Battery,
Power supply monitoring means for determining whether or not the remaining amount of the battery is smaller than a predetermined reference value,
The management unit is a terminal that determines the maximum number of times based on a determination result of the power supply monitoring unit and the determination result. The terminal according to claim 7, wherein
The management means, if the determination result indicates that the remaining amount is smaller than the reference value, determines the maximum number of times to be 0 regardless of the determination result.   A communication system comprising: the terminal according to claim 1; and a communication control device that transmits and retransmits the message. Management that receives the message from the communication control device that transmits and retransmits the message, determines whether or not the message has an error, and controls processing means for re-receiving the message when the message has an error A module,
A management module that determines a maximum number of times that the processing unit re-receives the message based on a determination result of the processing unit. The management module according to claim 10,
Based on the determination result, when the processing unit receives all the messages transmitted and retransmitted from the communication control device, a maximum probability that the message can be received without error is obtained, and the maximum number of times is determined based on the maximum probability. Management module to decide. A re-reception control method performed by a terminal connected to a communication control device that transmits and re-transmits a message,
A receiving step of receiving the message from the communication control device;
A determining step of determining whether the received message has an error;
If there is an error in the message, a re-receiving step of re-receiving the message;
And a determination step for determining a maximum number of times to re-receive the message based on the determination result. The re-reception control method according to claim 12,
The determining step calculates a maximum probability of receiving the message without error when receiving all the messages transmitted and retransmitted from the communication control device based on the determination result;
A calculation step of determining the maximum number of times based on the determined maximum probability. A re-reception control method performed by a communication system including a communication control device and a terminal connectable to the communication control device,
The communication control device includes a transmission step of transmitting and retransmitting a message;
A receiving step in which the terminal receives the message from the communication control device;
A determination step for determining whether the terminal has an error in the received message; and
If the terminal has an error in the message, a re-receiving step of re-receiving the message;
And a determination step of determining a maximum number of times that the terminal reacquires the message based on the determination result. The re-reception control method according to claim 14,
The determining step calculates a maximum probability of receiving the message without error when receiving all the messages transmitted and retransmitted from the communication control device based on the determination result;
And a calculation step of determining the maximum number of times based on the determined maximum probability. Management that receives the message from the communication control device that transmits and retransmits the message, determines whether or not the message has an error, and controls processing means for re-receiving the message when the message has an error A re-reception control method performed by the module,
A re-reception control method including a determination step of determining a maximum number of times that the processing unit re-receives the message based on a determination result of the processing unit. The re-reception control method according to claim 16,
The determining step calculates a maximum probability of receiving the message without error when receiving all the messages transmitted and retransmitted from the communication control device based on the determination result;
A calculation step of determining the maximum number of times based on the determined maximum probability. A program for causing a computer connected to a communication control device for transmitting and retransmitting a message to execute communication processing,
A receiving process for receiving the message from the communication control device;
A determination process for determining whether or not there is an error in the received message;
If there is an error in the message, a re-receiving process for re-receiving the message;
A program for causing the computer to execute a communication process including a determination process for determining a maximum number of times to re-receive the message based on the determination result. The program according to claim 18, wherein
The determination process is a calculation process for obtaining a maximum probability that the message can be received without error when all the messages transmitted and retransmitted from the communication control apparatus are received based on the determination result;
A calculation process for determining the maximum number of times based on the determined maximum probability.   A computer-readable recording medium on which the program according to claim 18 or 19 is recorded.

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