JP2006121396A - Transmission device, reception device, and communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To lighten a processing load when a base station sends scheduling information to a terminal in multicast and broadcast communication for transmitting the same data from the base station to many unspecified terminals. <P>SOLUTION: The base station informs the terminals of the period control information of each service to be provided and periodically transmits data scheduled by services based upon the period control information, and each terminal receives multicast and broadcast data only in a time section wherein a service addressed to the terminal is provided based upon period information recognized by receiving the period control information. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a transmission / reception apparatus for one-to-many communication such as multicast and broadcast data transmitted to an unspecified number of terminals.

Conventionally, in a method for transmitting and receiving multicast and broadcast data transmitted to an unspecified number of terminals, each base station transmits scheduling information at a specific period such as 640 ms, and transmits each data within the specific period. A method is known in which data is transmitted and received when a terminal recognizes a transmission timing such as a start frame number and a continuous transmission period of a service, that is, multicast and broadcast data (see, for example, Non-Patent Document 1).
3GPP TSG RAN2 MBMS adhoc R2-040756 [Budapest, Hungary, 20-22 April 2004], Agenda Item: 4.1, Source: Samsung, Title: MBS: Requirements

  However, in the conventional multicast and broadcast data transmission / reception apparatus, every time scheduling information is transmitted in the base station, it is necessary to perform scheduling control of transmission timing for each service, which increases the processing load. In addition, since the terminal must periodically receive the scheduling information for the service addressed to itself according to a specific period, when the propagation environment deteriorates, the scheduling information cannot be received, and the specific section indicated by the scheduling information Then, data cannot be received. Furthermore, since the terminal needs to periodically receive scheduling information even when the service addressed to itself is not scheduled, there is a problem that power consumption is wasted.

  The present invention provides a multicast and broadcast channel transmitting / receiving apparatus for solving such problems.

  In order to solve the above-described conventional problems, the multicast and broadcast channel transmission apparatus of the present invention provides a service provided from a base station in multicast and broadcast communications in which the same data is transmitted from the base station to an unspecified number of terminals. Periodic control information, which is scheduling information for each, is notified to the terminal in advance, and data scheduled for each service based on the periodic control information is periodically transmitted.

Further, the multicast and broadcast channel receiving apparatus of the present invention is based on the period information recognized by receiving the period control information transmitted from the base station, and data is transmitted only in the time interval in which the service addressed to the own station is provided. And once the scheduling information is received at the terminal, the data can be received in the recognized period thereafter. With this configuration, scheduling control to be performed for each service to be provided only needs to be performed once. Furthermore, the multicast and broadcast channel receiver of the present invention has a configuration for notifying the base station that the period information has been recognized by receiving the period control information.

  According to the multicast and broadcast channel transmission / reception apparatus of the present invention, a configuration is provided in which period control information for each service provided from a base station is notified to a terminal in advance, and data scheduled based on the period control information is periodically transmitted. In addition, the terminal has a configuration for receiving data only in the time interval in which the service addressed to the local station is provided based on the period information recognized by the received period control information. Scheduling control performed for each service to be performed only needs to be performed once, the processing load on the base station is reduced, and once the terminal receives the scheduling information, data can be received in the recognized period thereafter. In addition, since the terminal is configured to notify the base station that the period information has been recognized, the period information can be reliably recognized. And there is an effect that it is not necessary to waste power consumption.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

(Embodiment 1)
FIG. 1 is a block diagram of a transmission / reception apparatus according to the first embodiment of the present invention. FIG. 1A is a block diagram of a base station, that is, a transmission device, and FIG. 1B is a block diagram of a terminal, that is, a reception device. 1A includes a control data management unit 101 that schedules multiplexing of data of each service based on required transmission rate information of each service to be provided, and each service that is scheduled by the control data management unit. A control information generation unit 102 that generates period control information from the timing information of the data, a data multiplexing control unit 103 that multiplexes data to be transmitted based on the timing information of each service scheduled by the control data management unit 101, and a cycle It comprises a transmission / reception unit 104 that selects and transmits control information or multiplexed data (multicast and broadcast data).

  1B receives and transmits the period control information or multiplexed data transmitted from the transmitting apparatus 105 described in FIG. 1A, and selects the transmission / reception unit 106 that selects the period control information and the multiplexed data. Then, from the selected period control information, the service addressed to the own station, that is, the period information recognition unit 107 that recognizes the period information of the multicast and broadcast data, and the reception timing of the service addressed to the own station are generated based on the recognized period information. It comprises a timing control unit 108 and a data division control unit 109 that takes in only the data of the service addressed to its own station from the multiplexed data based on the reception timing.

  The transmission / reception operation will be described below with reference to the flowcharts of FIGS. FIG. 2 shows the operation of the transmission apparatus 105. When multicast and broadcast communication starts (step S201), first, required transmission rate information is input to the control data management unit 101 (step S202). Based on the information, the control data management unit 101 starts each service from which frame. Scheduling for determining a start frame number indicating whether to perform transmission, a transmission period indicating what cycle to transmit, a continuous transmission interval indicating how many frames per transmission are to be transmitted, a service end time, and the like (step S203) ). The control information scheduled here is collected and transmitted to the channel as period control information by the control information generation unit 102 (step S204). Thereafter, the data multiplexing control unit 103 multiplexes the data of each input service according to the control information scheduled by the control data management unit 101, and periodically transmits the data (step S205). Then, the communication is terminated when the provision of each service is completed (step S206). When scheduling data for each service, if there are many services to be provided, the number of services can be increased by code multiplexing.

  FIG. 3 shows the operation of the receiving apparatus 110. When multicast and broadcast communication is started (step S301), first, the period control information transmitted from the transmission device 105 is received (step S302). Then, the control information related to the service addressed to the own station, that is, the start frame number, the transmission cycle, the continuous transmission period, the service end time, etc. is recognized from the received cycle control information (step S303). Based on the recognized control information, the timing control unit 108 generates a timing at which only the service data addressed to the local station can be received (step S304), and the received data multiplexed based on the generated timing signal Only the necessary service data is received from (step S305) and transferred to the upper layer. Communication is terminated when all the received service data has been received (step S306). The transmission / reception operation is realized by the operation flow as described above.

  FIG. 4 shows an example of data transmission timing and reception timing. FIG. 4 shows a transmission frame of the base station and a reception frame of each terminal, respectively. That is, 410 indicates a transmission frame transmitted from the base station, 411 indicates a frame number, and 412 indicates a reception frame received by the terminal. In FIG. 4, description will be made assuming that there are three services provided from the base station. The service 1 is transmitted with the service start frame number as the frame number 15, the transmission cycle as 8 frames, and the continuous transmission interval as 2 frames. That is, the data of service 1 is transmitted with frame numbers 15 and 16, 23 and 24, and 31 and 32. Similarly, service 2 is transmitted with a service start frame number of frame number 18, a transmission cycle of 16 frames, and a continuous transmission interval of 4 frames. Service 3 has a service start frame number of frame number 22, a transmission cycle of 8 frames, The continuous transmission section is transmitted as one frame. The terminal side receives control information of these services in advance, that is, the start frame number, the number of transmission cycle frames, and the number of continuous transmission section frames. In the example of FIG. 4, the terminal 401 receives service 1 and service 2, the terminal 402 receives only service 2, and the terminal 403 and terminal 404 receive service 1 and service 3. In this example, code multiplexing is not performed, but when the number of services increases, the number of services accommodated can be increased by code multiplexing.

  With the above configuration, scheduling control for each service to be provided only needs to be performed once in advance, so that the processing load on the base station is reduced, and once the terminal receives the periodic control information, it is recognized thereafter. The effect of enabling data reception at the specified cycle can be obtained. And the effect which does not need to waste power consumption is acquired.

(Embodiment 2)
Next, a second embodiment of the present invention will be described. FIG. 5 is a block diagram of a transmission / reception apparatus according to the second embodiment of the present invention. In the second embodiment, in contrast to the first embodiment of the present invention shown in FIG. 1, the receiving device 510 receives reception availability information (reception OK based on the error detection result of the period control information). / NG information) is transmitted to the base station, and a retransmission request for the periodic control information is added to the transmission device 505 based on the reception availability information transmitted from each terminal. A cycle control information retransmission control unit 512 for generating a signal is added. In FIG. 5, the same reference numerals as those in FIG. 1 denote the same blocks. By providing the cycle control information reception determination unit 511 and the cycle control information retransmission control unit 512, the determination of retransmission of the cycle control information is realized.

The transmission / reception operation will be described below with reference to the flowcharts of FIGS. The operation of the transmission apparatus 505 shown in FIG. 6 is the same as steps S201 to S204 in the first embodiment from step S601 to S604, and a description thereof will be omitted. In the second embodiment, after transmitting the cycle control information (step S604), it is determined whether to retransmit the cycle control information based on the information on whether or not the cycle control information is received from the terminal (step S605). ). When the terminal cannot receive the cycle control information (in the case of reception NG), it transmits the cycle control information again (step S604), and when the terminal can receive the cycle control information (in the case of reception OK). The data multiplexing control unit 103 multiplexes the data of each input service according to the control information scheduled by the control data management unit 101 and periodically transmits the data (step S606). Then, the communication is terminated when the provision of each service is completed (step S607). In addition, when transmitting period control information in 2nd Embodiment, the data of each service are scheduled in consideration of the time required for retransmission beforehand.

  FIG. 7 shows the operation of the receiving device 510. When multicast and broadcast communication is started (step S701), first, period control information transmitted from the base station is received (step S702). Here, an error in the received period control information is determined (step S703). If there is no error, the reception OK information is transmitted to the base station (step S704). If there is an error, the received NG information is changed. Transmit (step S705). In the case of reception NG, the period control information is received again (step S702), and error determination is performed (step S703). In the case of reception OK, the control information related to the service addressed to the own station, that is, the start frame number, the transmission cycle, the continuous transmission period, the service end time, etc. is recognized from the received cycle control information (step S706). Based on the recognized control information, the timing control unit 108 generates a timing at which only the service data addressed to the own station can be received (step S707), and the received data multiplexed based on the generated timing signal Only the necessary service data is received from (step S708) and transferred to the upper layer. Communication is terminated when all the received service data has been received (step S709). If reception of periodic control information continues to be erroneous, it is possible to determine that the propagation environment is inferior and control not to perform multicast and broadcast communications. The transmission / reception operation is realized by the operation flow as described above.

  FIG. 8 shows an example of the transmission timing and reception timing of the cycle control information. The base station transmits n pieces of period control information (info) 810 individually as downlink channels (DL) to each terminal. The terminal 801 and the terminal 804 to the terminal n recognize the control information because the reception result is OK. Then, reception OK information (Ack) 812 is transmitted on the uplink channel (UL). The terminal 802 and the terminal 803 have a reception result of NG, and send a reception NG signal (Nack) 813 to the base station via the uplink channel (UL) to request retransmission of the period control information. Two period control information (info) 811 is transmitted from the base station to the terminal 802 and the terminal 803 again using the downlink channel (DL). When the reception result is OK and the control information is recognized, the reception OK information (Ack) 814 is transmitted on the uplink channel (UL). Thereafter, multicast and broadcast data are received based on the period information recognized by all terminals. Although the channel used in this example is described as an individual channel, the channel actually used may be a common channel.

  With the configuration as described above, in addition to the effects of the first embodiment, since it is possible to notify the base station that the period control information has been recognized, the period information can be reliably recognized. An effect is obtained.

  In the multicast and broadcast channel transmission / reception apparatus according to the present invention, scheduling control to be performed for each service to be provided only needs to be performed once, the processing load of the base station is reduced, and once the terminal receives scheduling information, Since there is an effect that data can be received in the recognized cycle, an effect of reducing power consumption can be obtained, which is useful as a transmission / reception method for multicast and broadcast data communication.

(A) Block diagram of multicast and broadcast channel transmitting apparatus in Embodiment 1 of the present invention (b) Block diagram of multicast and broadcast receiving apparatus in Embodiment 1 of the present invention The flowchart which shows the transmission operation in Embodiment 1 of this invention. The flowchart which shows the receiving operation in Embodiment 1 of this invention. The figure which shows the transmission / reception timing of the multicast and broadcast channel in Embodiment 1 of this invention. Block diagram of multicast and broadcast channel transmission apparatus and reception apparatus in Embodiment 2 of the present invention The flowchart which shows the transmission operation in Embodiment 2 of this invention. The flowchart which shows the receiving operation in Embodiment 2 of this invention. The figure which shows the transmission / reception timing of the period control information in Embodiment 2 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 101 Control data management part 102 Control information generation part 103 Data multiplexing control part 104,106 Transmission / reception part 107 Period information recognition part 108 Timing control part 109 Data division control part 511 Period control information reception determination part 512 Period control information retransmission control part

Claims (5)

In a transmission apparatus that transmits multicast and broadcast data to an unspecified number of terminals from a base station, period control information for each service provided from the base station is notified in advance to the terminal, and the period control information A transmission apparatus that periodically transmits data scheduled for each service based on the service. The transmission apparatus according to claim 1, wherein the period control information is transmission period information calculated based on a transmission rate required for each service to be provided. By receiving the period control information transmitted from the transmission apparatus according to claim 1 or 2, multicast and broadcast data only in a time interval in which a service addressed to the own station is provided based on the recognized period information Receiving device. The receiving apparatus according to claim 3, wherein, upon receiving the period control information, the base station is notified whether the period information has been recognized. A communication system comprising the transmission device according to claim 1 or 2 and the reception device according to claim 3 or 4.

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