JP2009171382A - Communication control system, communication control method, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication control system for simultaneously transmitting radio signals, to a communication terminal, from among a plurality of transmission devices connected to a packet communication network. <P>SOLUTION: A communication control system includes a transmission timing control section which provides to at least one of a first radio transmission section and a second radio transmission section a packet, to which information indicating transmission timing is added and received via a packet communication network for simultaneous transmission of packets, to a communication terminal, from the first radio transmission section and the second radio transmission section transmitting packets by radio communication. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a communication control system, a communication control method, and a program. The present invention particularly relates to a communication control system, a communication control method, and a program for simultaneously transmitting packets from a plurality of transmission devices to a communication terminal.

A wireless communication system is known in which a wireless signal is simultaneously transmitted to a mobile station from a plurality of base station devices connected to a head office device in a tree shape (Patent Document 1). In such a wireless communication system, the head office device and each of the plurality of base station devices are connected by a synchronous network, and exchange a data signal and a synchronous signal, and a common external clock signal such as a GPS signal. See and working.
JP 2002-27534 A

  In recent years, mobile stations that transmit and receive packets via a packet communication network have been widely used. The invention described in Patent Document 1 is based on the premise that the headquarter station apparatus and a plurality of base station apparatuses are connected by a synchronous network, so that the headquarter station apparatus and the plurality of base station apparatuses perform packet communication. When connected by an asynchronous network such as a network, wireless signals cannot be transmitted simultaneously from a plurality of base station apparatuses to a mobile station.

  In order to solve the above-described problem, in the first embodiment of the present invention, the communication control system simultaneously transmits a packet to the communication terminal from the first wireless transmission unit and the second wireless transmission unit that transmit the packet by wireless communication. In order to achieve this, a transmission timing control unit is provided that provides a packet received via the packet communication network with information indicating transmission timing added to at least one of the first wireless transmission unit and the second wireless transmission unit.

  It should be noted that the above summary of the invention does not enumerate all the necessary features of the present invention. In addition, a sub-combination of these feature groups can also be an invention.

  Hereinafter, the present invention will be described through embodiments of the invention, but the following embodiments do not limit the invention according to the claims. In addition, not all the combinations of features described in the embodiments are essential for the solving means of the invention.

  FIG. 1 shows an example of the configuration of a communication control system 10 according to an embodiment. The communication control system 10 includes a plurality of transmission control devices 100 and 102 and a plurality of transmission devices 104, 106, 108, and 110. The communication control system 10 may further include packet communication networks 116, 118, and 120 and communication terminals 112 and 114.

  Communication terminals 112 and 114 may be mobile stations such as mobile phones. The plurality of transmission devices 104, 106, 108, and 110 may be base station devices. The transmission control devices 100 and 102 may be gateways (SW) or service access gateways (SAG). The packet communication network 116 may be a core network. Packet communication networks 118 and 120 may be cellular networks.

  The plurality of transmission control apparatuses 100 and 102 are connected via a packet communication network 116. The transmission control device 100 and the plurality of transmission devices 104 and 106 are connected via a packet communication network 118. The transmission control device 102 and the plurality of transmission devices 108 are connected via a packet communication network 120.

  The plurality of transmission devices 104 and 106 transmit and receive packets to and from the communication terminal 112 existing in the communication area of the plurality of transmission devices 104 and 106. The plurality of transmission apparatuses 104 and 106 transmit the packet received from the transmission control apparatus 100 via the packet communication network 118 to the communication terminal 112 by wireless communication. Further, the plurality of transmission devices 104 and 106 transmit packets received from the communication terminal 112 by wireless communication to the transmission control device 100 via the packet communication network 118.

  The transmission device 110 transmits and receives packets to and from the communication terminal 114 that exists in the communication area of the transmission device 110. The transmission device 110 transmits the packet received from the transmission control device 102 via the packet communication network 120 to the communication terminal 114 by wireless communication. Further, the transmission device 110 transmits a packet received from the communication terminal 114 by wireless communication to the transmission control device 102 via the packet communication network 120.

  The communication control system 10 according to the present embodiment transmits a packet to be transmitted to the communication terminal 112 via the packet communication networks 116, 118, and 120, a plurality of the plurality of transmission devices 104, 106, 108, and 110. It is intended to transmit simultaneously from the transmission device to the communication terminal 112. By achieving this object, it is possible to improve the communication quality of the communication terminal 112 and effectively use the communication band.

  FIG. 2 shows an example of a communication control procedure of the communication control system 10 according to the present embodiment. The transmission control apparatus 100 periodically measures the transmission delay time from the transmission control apparatus 100 to the transmission apparatus 104 and the transmission delay time from the transmission control apparatus 100 to the transmission apparatus 106. When the transmission control apparatus 100 receives the packet 200 addressed to the communication terminal 112 existing in the communication areas of both the transmission apparatuses 104 and 106, the transmission control apparatus 100 transmits the packets 202 and 204 to which transmission timing based on the measured transmission delay time is added. Generate. Then, the transmission control device 100 transmits the packets 202 and 204 to which the transmission timing is added to the transmission devices 104 and 106, and causes the transmission devices 104 and 106 to simultaneously transmit the packets to the communication terminal 112.

  When generating the packets 202 and 204, the transmission control device 100 encapsulates the packets to be transmitted to the transmission devices 104 and 106, and creates an area for writing the transmission timing. The transmission control apparatus 100 may create an area in which transmission timing is written, for example, by IP-in-IP encapsulation. In another example, the transmission control apparatus 100 may write the transmission timing in an empty field of a packet to be transmitted to each of the transmission apparatuses 104 and 106 without performing packet encapsulation. The transmission control apparatus 100 may write the absolute time as the transmission timing, and may write the time slot number of the synchronous I / F unit of the transmission apparatuses 104 and 106 as the transmission timing.

  The transmission control device 100 adds a longer transmission delay time among the transmission delay time from the transmission control device 100 to the transmission device 104 and the transmission delay time from the transmission control device 100 to the transmission device 106 to the current time. The time may be determined as the transmission timing. Also, the transmission control apparatus 100 determines, as the transmission timing, the time obtained by adding a margin determined in consideration of the packet processing speed of the transmission apparatuses 104 and 106 to the time obtained by adding the transmission delay time to the current time. May be.

  According to the present embodiment, the transmission control device 100 generates the packets 202 and 204 in which the transmission timing is written by encapsulation and transmits the packets 202 and 204 to the transmission devices 104 and 106. Therefore, even if the transmission control apparatus 100 and the transmission apparatuses 104 and 106 are connected by an asynchronous network such as the packet communication network 118, the transmission control apparatus 100 transmits the transmission terminal 104 and 106 to the communication terminal 112. Packets can be transmitted at the same time.

  In another example, the transmission control apparatus 100 transmits a packet to which transmission timing is added to the transmission apparatus 104, and transmits the packet to which transmission timing is added under the transmission control apparatus 102. May be transmitted simultaneously from the transmission devices 104 and 108 to the communication terminal 112. In this case, the transmission control apparatus 100 may periodically measure the transmission delay time from the transmission control apparatus 100 to the transmission apparatus 108 via the transmission control apparatus 102. Further, the transmission control devices 100 and 102 determine the transmission delay time between the transmission control device 100 and the transmission control device 102 and the transmission delay time to the transmission device existing under each of the transmission control devices 100 and 102, You may provide each other regularly.

  In still another example, the communication control system 10 may further include a higher-level transmission control device that generally manages transmission control by the transmission control devices 100 and 102 above the transmission control devices 100 and 102. The higher-level transmission control device functions as at least a part of the functions of the transmission control devices 100 and 102 described in the present embodiment, and from a plurality of transmission devices of the transmission devices 104, 106, 108, and 110, to a communication terminal The packet may be transmitted to 112 at the same time.

  FIG. 3 shows an example of a functional configuration of the transmission control apparatus 100 according to the present embodiment. The transmission control apparatus 100 includes an asynchronous I / F unit 300, a packet transmission / reception unit 302, a transmission availability determination unit 306, a transmission method determination unit 308, an encoded data generation unit 310, an internal clock generation unit 316, an external clock reception unit 318, A transmission timing control unit 330 is provided. The transmission timing control unit 330 includes a transmission timing addition unit 304, a transmission delay time measurement unit 312, and a transmission timing calculation unit 314.

  The asynchronous I / F unit 300 performs packet communication (asynchronous communication) with the transmission control apparatus 102 via the packet communication network 116. Further, the asynchronous I / F unit 300 performs packet communication (asynchronous communication) with the transmission devices 104 and 106 via the packet communication network 118. The packet transmitting / receiving unit 302 receives a packet addressed to the communication terminal 112 from the transmission control apparatus 102 via the asynchronous I / F unit 300. Further, the packet transmitting / receiving unit 302 transmits the packet addressed to the communication terminal 112 to the transmission devices 104 and 106 via the asynchronous I / F unit 300.

  The external clock reception unit 318 receives an external clock signal referred to by the wireless transmission unit of the transmission device 104 and the wireless transmission unit of the transmission device 106 and supplies the external clock signal to the internal clock generation unit 316. The external clock reception unit 318 may be an antenna, and may receive a GPS signal or a JJY signal and supply it to the internal clock generation unit 316. The external clock reception unit 318 may receive a time signal from an NTP server connected to the packet communication network 116 or 118 via the asynchronous I / F unit 300 and supply the time signal to the internal clock generation unit 316.

  The internal clock generation unit 316 generates an internal clock signal. The internal clock generation unit 316 adjusts the phase of the internal clock signal with the external clock signal supplied from the external clock reception unit 318. The internal clock generation unit 316 may adjust the phase of the internal clock signal using the GPS signal, JJY signal, or time signal supplied from the external clock reception unit 318. The internal clock signal generated by the internal clock generation unit 316 is used not only for simultaneous transmission control according to the present embodiment, but also for data transmission scheduling and data encoding processing when the packet transmission / reception unit 302 transmits and receives packets. May also be referred to.

  The transmission permission / inhibition determination unit 306 determines whether each of the transmission devices 104 and 106 can transmit a packet to the communication terminal 112. That is, the transmission permission determination unit 306 determines whether or not the communication terminal 112 exists in the communication area of the transmission devices 104 and 106. The transmission permission / inhibition determining unit 306 acquires information indicating the radio field strength between the transmission devices 104 and 106 and the communication terminal 112 from the transmission devices 104 and 106 and transmits the packet from the transmission devices 104 and 106 to the communication terminal 112. You may decide whether you can. Further, the transmission permission / inhibition determination unit 306 acquires information indicating the position of the communication terminal 112 from the transmission devices 104 and 106, and determines whether the transmission device 104 and 106 can transmit a packet to the communication terminal 112. Good.

  In this embodiment, the transmission permission / inhibition determination unit 306 is provided inside the transmission control apparatus 100. However, in another example, the transmission permission / inhibition determination unit 306 may be provided outside the transmission control apparatus 100. Good. For example, as a system different from the transmission control apparatus 100, a transmission apparatus connected to the packet communication network 116 or 118 and capable of communicating with the communication terminal 112 may be specified in cooperation with the position management system of the communication terminal.

  Based on the determination result of the transmission permission determination unit 306, the transmission method determination unit 308 transmits the packet addressed to the communication terminal 112 received from the transmission control device 102 to the wireless transmission unit of the transmission device 104 and the wireless transmission unit of the transmission device 106. Decide whether to send from one side or from both sides. The transmission method determination unit 308 causes the transmission device 104 to transmit a packet addressed to the communication terminal 112 only when the transmission device 104 can transmit a packet to the communication terminal 112 and the transmission device 104 cannot transmit a packet to the communication terminal 112. To decide. When the transmission devices 104 and 106 can transmit packets to the communication terminal 112, the transmission method determination unit 308 determines that the packets addressed to the communication terminal 112 are transmitted from the transmission devices 104 and 106.

  Further, even when the transmission devices 104 and 106 can transmit packets to the communication terminal 112, the transmission method determination unit 308 is based on the type of packet received from the transmission control device 102 via the packet communication network 118. It may be determined whether the transmission is performed from one of the wireless transmission unit of the transmission device 104 and the wireless transmission unit of the transmission device 106 or from both. The transmission method determination unit 308 may determine that a packet that requires real-time property is transmitted only from the transmission device 104. For example, the transmission method determination unit 308 may determine that a packet related to the VoIP application or the chat application is transmitted only from the transmission device 104. On the other hand, the transmission method determination unit 308 may determine that the transmission devices 104 and 106 transmit packets that do not require real-time characteristics. For example, the transmission method determination unit 308 may determine that the transmission devices 104 and 106 transmit packets related to the email application.

  Further, the transmission method determination unit 308 is configured to transmit the transmission apparatus 104 and 106 based on the communication quality between the transmission apparatuses 104 and 106 and the communication terminal 112 even when the transmission apparatuses 104 and 106 can transmit packets to the communication terminal 112. It may be determined whether the transmission is performed from one of the wireless transmission unit 104 and the wireless transmission unit of the transmission device 106 or from both. The transmission method determination unit 308 may determine to transmit a packet only from the transmission device 104 when the communication quality between the transmission device 104 and the communication terminal 112 is better than a predetermined quality. On the other hand, the transmission method determination unit 308 may determine that packets are transmitted from the transmission devices 104 and 106 when the communication quality between the transmission device 104 and the communication terminal 112 is lower than a predetermined quality.

  The transmission method determination unit 308 may determine whether to transmit from one of the wireless transmission unit of the transmission device 104 and the wireless transmission unit of the transmission device 106 based on an instruction from the communication terminal 112 or from both. . In this case, the communication terminal 112 detects whether or not packets can be received from both the transmission devices 104 and 106. Then, when the communication terminal 112 can receive packets from both the transmission devices 104 and 106, the communication terminal 112 notifies the transmission control device 100 via the transmission device 104 that the packets are received from both the transmission devices 104 and 106. . In addition, the communication terminal 112 can receive a packet from both the transmission devices 104 and 106, and the transmission is performed when the user of the communication terminal 112 selects to receive the packet from both the transmission devices 104 and 106. The transmission control apparatus 100 may be notified via the transmission apparatus 104 that packets are received from both the apparatuses 104 and 106.

  Further, the transmission method determination unit 308 may determine whether the transmission devices 104 and 106 transmit the same packet to the communication terminal 112 or different packets. The transmission method determination unit 308 determines that the transmission device 104 and 106 transmit the same packet to the communication terminal 112 when the received radio wave intensity from the transmission device 104 to the communication terminal 112 is smaller than a predetermined value. It's okay. When the communication terminal 112 receives only from the transmission apparatus 104 by superimposing the radio signal of the packet transmitted from the transmission apparatus 104 and the radio signal transmitted from the transmission apparatus 106 using, for example, OFDM technology Wireless signals can be received with higher reception strength. Also, the transmission method determination unit 308 determines to transmit different packets from the transmission devices 104 and 106 to the communication terminal 112 when the communication band from the transmission device 104 to the communication terminal 112 is narrower than a predetermined value. It's okay. The communication terminal 112 receives only from the transmission apparatus 104 by decoding the encoded packet transmitted from the transmission apparatus 104 and the encoded packet transmitted from the transmission apparatus 106 using, for example, MIMO technology. Packets can be received in a wider communication band.

  The encoded data generation unit 310, when the transmission method determination unit 308 determines to transmit different packets from the transmission devices 104 and 106 to the communication terminal 112, the packet received by the packet transmission / reception unit 302 via the packet communication network 116. Then, a packet to be transmitted from the transmission device 104 to the communication terminal 112 and a packet to be transmitted from the transmission device 106 to the communication terminal 112 are generated. The encoded data generation unit 310 encodes a packet received by the packet transmission / reception unit 302 using, for example, MIMO technology, and transmits the encoded packet to the communication terminal 112 from the transmission device 104, and the transmission device 106 to the communication terminal. An encoded packet to be transmitted to 112 may be generated.

  The transmission timing control unit 330 receives the packet from the wireless transmission unit of the transmission device 104 that transmits the packet by wireless communication and the wireless transmission unit of the transmission device 106 via the packet communication network 116 so as to transmit the packet to the communication terminal 112 at the same time. The packet in which information indicating the transmission timing is added to the transmitted packet is provided to the wireless transmission unit of the transmission device 104 and the wireless transmission unit of the transmission device 106. The transmission timing control unit 330 superimposes the wireless signal of the packet transmitted from the wireless transmission unit of the transmission device 104 and the wireless signal of the packet transmitted from the wireless transmission unit of the transmission device 106 on the communication terminal 112. The same packet may be provided to the wireless transmission unit of the transmission device 104 and the wireless transmission unit of the transmission device 106 in order to be received by one wireless reception unit. In addition, the transmission timing control unit 330 includes a plurality of communication terminals 112 having a wireless signal of a packet transmitted from the wireless transmission unit of the transmission device 104 and a wireless signal of a packet transmitted from the wireless transmission unit of the transmission device 106. Different packets may be provided to the wireless transmission unit of the transmission device 104 and the wireless transmission unit of the transmission device 106 so that the wireless reception unit simultaneously receives them.

  The transmission delay time measurement unit 312 periodically measures the transmission delay time from the transmission control device 100 to the transmission device 104 and the transmission delay time from the transmission control device 100 to the transmission device 106. The transmission delay time measurement unit 312 may transmit the delay time measurement packet in which the transmission time of the transmission control device 100 is time stamped to each of the transmission devices 104 and 106 via the asynchronous I / F unit 300. Then, the transmission delay time measurement unit 312 transmits the delay time measurement packet with the reception time or transmission time stamp of each of the transmission devices 104 and 106 via the asynchronous I / F unit 300. You may receive from the transmission apparatuses 104 and 106. FIG. The transmission delay time measurement unit 312 determines the transmission delay time from the transmission control device 100 to the transmission device 104, and the transmission control from the transmission time of the transmission control device 100 and the reception time or transmission time of each of the transmission devices 104 and 106. The transmission delay time from the apparatus 100 to the transmission apparatus 106 may be measured.

  The transmission timing calculation unit 314 indicates transmission timing indicating transmission timing of packets from the transmission devices 104 and 106 to the communication terminal 112 when the transmission method determination unit 308 determines to transmit the packets from the transmission devices 104 and 106. Calculate timing. Based on the transmission delay time from the transmission control device 100 to the transmission device 104 and the transmission delay time from the transmission control device 100 to the transmission device 106, the transmission timing calculation unit 314 transmits the packets that can be transmitted by the transmission devices 104 and 106. Calculate timing. The transmission timing calculation unit 314 refers to the external clock signal received by the external clock reception unit 318 and refers to the internal clock signal adjusted by the internal clock generation unit 316 to calculate the transmission timing.

  The transmission timing calculation unit 314 adds a longer transmission delay time among the transmission delay time from the transmission control device 100 to the transmission device 104 and the transmission delay time from the transmission control device 100 to the transmission device 106 to the current time. Thus, the transmission timing may be calculated. Further, the transmission timing calculation unit 314 may determine the transmission timing by adding a margin determined in consideration of a longer transmission delay time and the packet processing speed of the transmission devices 104 and 106 to the current time. Good.

  When the transmission method determining unit 308 determines to transmit the same packet from the transmitting apparatuses 104 and 106 to the communication terminal 112, the transmission timing adding unit 304 uses the transmission timing calculated by the transmission timing calculating unit 314 as the packet transmitting / receiving unit. The packet 302 is added to the packet addressed to the communication terminal 112 received. Then, the packet transmission / reception unit 302 transmits the same packet to which the transmission timing is added to the transmission devices 104 and 106.

  The transmission timing adding unit 304, when the transmission method determining unit 308 determines to transmit different packets from the transmission devices 104 and 106 to the communication terminal 112, each of the plurality of encoded packets generated by the encoded data generating unit 310. In addition, the transmission timing calculated by the transmission timing calculation unit 314 is added. The transmission timing adding unit 304 adds the same transmission timing to the encoded packet transmitted from the transmission apparatus 104 to the communication terminal 112 and the encoded packet transmitted from the transmission apparatus 106 to the communication terminal 112. Then, the packet transmitting / receiving unit 302 transmits each of the plurality of encoded packets to which the same transmission timing is added to the transmission apparatuses 104 and 106.

  The transmission timing adding unit 304 does not add the transmission timing calculated by the transmission timing calculating unit 314 to the packet when the transmission method determining unit 308 determines to transmit the packet to the communication terminal 112 only from the transmission device 104. Then, the packet transmission / reception unit 302 transmits the packet received via the packet communication network 116 to the transmission device 104 as it is.

  The transmission timing adding unit 304 encapsulates the packet received by the packet transmitting / receiving unit 302 via the packet communication network 116 by adding information indicating the transmission timing calculated by the transmission timing control unit 330 and a packet header. The transmission timing adding unit 304 encapsulates a packet to be transmitted to each of the transmission devices 104 and 106 and creates an area for writing the transmission timing. The transmission timing adding unit 304 may create an area in which transmission timing is written, for example, by IP-in-IP encapsulation. The transmission timing adding unit 304 may write the absolute time as the transmission timing, or may write the time slot number of the synchronous I / F unit of the transmission apparatuses 104 and 106 as the transmission timing.

  According to the transmission control apparatus 100 according to the present embodiment, transmission timing according to the transmission delay time is added to the packet and transmitted to the transmission apparatuses 104 and 106, so transmission is performed via an asynchronous network such as the packet communication network 118. The transmitted packets can be transmitted simultaneously from the transmission devices 104 and 106 to the communication terminal 112. Further, according to the transmission control apparatus 100 according to the present embodiment, the type of packet transmitted to the communication terminal 112, the communication quality between the transmission apparatuses 104 and 106 and the communication terminal 112, and further from the user of the communication terminal 112 Since the packet transmission method is determined according to the instruction, a comfortable communication environment can be continuously provided to the user of the communication terminal 112.

  FIG. 4 shows an example of a functional configuration of the transmission apparatus 104 according to the present embodiment. The transmission apparatus 104 includes an asynchronous I / F unit 400, a packet reception unit 402, a transmission timing determination unit 404, an internal clock generation unit 416, an external clock reception unit 418, a synchronous I / F unit 420, and a wireless transmission unit 422. Note that the transmission device 106 may have the same configuration and function as the transmission device 104.

  The asynchronous I / F unit 400 performs packet communication (asynchronous communication) with the transmission control device 100 via the packet communication network 118. The wireless transmission unit 422 performs wireless communication (asynchronous communication) with the communication terminal 112.

  The external clock reception unit 418 receives an external clock signal referred to by the transmission control device 100 and the transmission device 106 and supplies the external clock signal to the internal clock generation unit 416. The external clock reception unit 418 may be an antenna, and may receive a GPS signal or a JJY signal and supply it to the internal clock generation unit 416. The external clock reception unit 418 may receive a time signal from an NTP server connected to the packet communication network 116 or 118 via the asynchronous I / F unit 400 and supply the time signal to the internal clock generation unit 416.

  The internal clock generation unit 416 generates an internal clock signal. The internal clock generation unit 416 adjusts the phase of the internal clock signal with the external clock signal supplied from the external clock reception unit 418. The internal clock generation unit 416 may adjust the phase of the internal clock signal using the GPS signal, JJY signal, or time signal supplied from the external clock reception unit 418. The internal clock signal generated by the internal clock generation unit 416 is used not only for simultaneous transmission control according to the present embodiment, but also for data transmission scheduling and data encoding processing when the wireless transmission unit 422 transmits and receives packets. May also be referred to.

  The packet receiving unit 402 receives a packet addressed to the communication terminal 112 from the transmission control apparatus 102 via the asynchronous I / F unit 400. The transmission timing determination unit 404 determines whether or not transmission timing is added to the packet received by the packet reception unit 402. The transmission timing determination unit 404 extracts the transmission timing written in a specific area of the packet by decapsulating the packet received by the packet reception unit 402. The transmission timing determination unit 404 may extract the absolute time as the transmission timing, or may extract the time slot number of the synchronous I / F unit 420.

  When the transmission timing is added to the packet, the transmission timing determination unit 404 instructs the synchronous I / F unit 420 to transmit the packet at the added transmission timing. When the transmission timing is not added to the packet, the transmission timing determination unit 404 instructs the synchronous I / F unit 420 to transmit the packet at a transmission timing different from the transmission timing added to other packets. The synchronous I / F unit 420 specifies the transmission timing and supplies the packet to the wireless transmission unit 422 according to the instruction of the transmission timing determination unit 404. The wireless transmission unit 422 transmits a packet to the communication terminal 112 at the transmission timing specified by the synchronous I / F unit 420.

  According to the transmission device 104 according to the present embodiment, the packet is transmitted to the communication terminal 112 according to the transmission timing added to the packet. Therefore, the packet received via the asynchronous network such as the packet communication network 118 is designated. Can be transmitted at the transmission timing. In addition, according to the transmission device 104 according to the present embodiment, the transmission of the packet to which the transmission timing is not added is processed so as not to overlap the transmission of the packet to which the transmission timing is added. Simultaneous transmission from the communication terminal 112 to the communication terminal 112 is not disturbed.

  FIG. 5 shows another example of the communication control procedure of the communication control system 10 according to the present embodiment. When receiving the packet 500 addressed to the communication terminal 112 existing in the communication area of the transmission device 104, the transmission control device 100 transmits the packet 502 in which the header information of the packet 500 is rewritten to the transmission device 104.

  The transmission device 104 periodically measures the transmission delay time from the transmission device 104 to the transmission device 106. When transmitting apparatus 104 receives packet 502 addressed to communication terminal 112 existing in the communication areas of both transmitting apparatuses 104 and 106, transmitting apparatus 104 generates packet 504 to which transmission timing based on the measured transmission delay time is added. Then, the transmission apparatus 104 transmits the packet 504 to which the transmission timing is added to the transmission apparatus 106. The transmission apparatus 104 transmits a packet from the transmission apparatus 106 to the communication terminal 112 at the same time as transmitting the packet to the communication terminal 112.

  When generating the packet 504, the transmission device 104 encapsulates the packet to be transmitted to the transmission device 106 and creates an area for writing the transmission timing. The transmission device 104 may create an area in which transmission timing is written, for example, by IP-in-IP encapsulation. In another example, the transmission device 104 may write the transmission timing in an empty field of a packet to be transmitted to the transmission device 106 without performing packet encapsulation. The transmission device 104 may write the absolute time as the transmission timing, or may write the time slot number of the synchronous I / F unit of the transmission device 106 as the transmission timing.

  The transmission device 104 may determine the transmission timing as a time obtained by adding the transmission delay time from the transmission device 104 to the transmission device 106 to the current time. Further, the transmission device 104 may determine, as the transmission timing, a time obtained by adding a margin determined in consideration of the packet processing speed of the transmission device 106 to the time obtained by adding the transmission delay time to the current time. .

  According to the present embodiment, the transmission apparatus 104 generates a packet 504 in which transmission timing is written by encapsulation and transmits the packet 504 to the transmission apparatus 106. Therefore, even if the transmission control device 100 and the transmission devices 104 and 106 are connected by an asynchronous network such as the packet communication network 118, the transmission device 104 can simultaneously transmit from the transmission devices 104 and 106 to the communication terminal 112. Packets can be transmitted.

  In another example, the transmission apparatus 104 transmits a packet with transmission timing added thereto to the transmission apparatus 108 that is under the control of the transmission control apparatus 102 instead of the transmission apparatus 106, thereby transmitting the packet from the transmission apparatus 108. A packet may be transmitted to the communication terminal 112 simultaneously with the transmission device 104. In this case, the transmission device 104 may periodically measure the transmission delay time from the transmission device 104 to the transmission device 108 via the transmission control devices 100 and 102.

  FIG. 6 shows another example of the functional configuration of the transmission apparatus 104 according to the present embodiment. The transmission device 104 includes an asynchronous I / F unit 600, a packet transmission / reception unit 602, a transmission availability determination unit 606, a transmission method determination unit 608, an encoded data generation unit 610, an internal clock generation unit 616, an external clock reception unit 618, a synchronous I / F unit 620, wireless transmission unit 622, and transmission timing control unit 630. The transmission timing control unit 630 includes a transmission timing adding unit 604, a transmission delay time measuring unit 612, and a transmission timing calculating unit 614. Note that the transmission device 106 may have the same configuration and function as the transmission device 104 illustrated in FIG.

  The asynchronous I / F unit 600 performs packet communication (asynchronous communication) with the transmission control device 100 via the packet communication network 118. The packet transmitting / receiving unit 602 receives a packet addressed to the communication terminal 112 from the transmission control apparatus 100 via the asynchronous I / F unit 600. Further, the packet transmission / reception unit 602 supplies a packet addressed to the communication terminal 112 to the asynchronous I / F unit 600 and transmits the packet to the transmission device 106 via the wireless transmission unit 622.

  The synchronous I / F unit 620 performs wireless communication (asynchronous communication) with the communication terminal 112. The wireless transmission unit 622 transmits a packet to the communication terminal 112.

  The external clock reception unit 618 receives an external clock signal referred to by the transmission control device 100 and the transmission device 106 and supplies the external clock signal to the internal clock generation unit 616. The external clock receiving unit 618 may be an antenna, and may receive a GPS signal or a JJY signal and supply it to the internal clock generating unit 616. The external clock reception unit 618 may receive a time signal from an NTP server connected to the packet communication network 116 or 118 via the asynchronous I / F unit 600 and supply the time signal to the internal clock generation unit 616.

  The internal clock generation unit 616 generates an internal clock signal. The internal clock generator 616 adjusts the phase of the internal clock signal using the external clock signal supplied from the external clock receiver 618. The internal clock generation unit 616 may adjust the phase of the internal clock signal using the GPS signal, JJY signal, or time signal supplied from the external clock reception unit 618. The internal clock signal generated by the internal clock generation unit 616 is used not only for simultaneous transmission control according to the present embodiment, but also for data transmission scheduling and data encoding processing when the wireless transmission unit 622 transmits and receives packets. May also be referred to.

  The transmission permission / inhibition determination unit 606 determines whether the transmission device 106 can transmit a packet to the communication terminal 112. That is, the transmission permission / inhibition determination unit 606 determines whether or not the communication terminal 112 exists in the communication area of the transmission device 106. The transmission permission / inhibition determining unit 606 acquires information indicating the radio wave intensity between the transmission device 106 and the communication terminal 112 from the transmission device 106, and determines whether the transmission device 106 can transmit a packet to the communication terminal 112. You can do it. Further, the transmission permission / inhibition determination unit 606 may acquire information indicating the position of the communication terminal 112 and determine whether or not the transmission device 106 can transmit a packet to the communication terminal 112.

  In this embodiment, the transmission permission / inhibition determination unit 606 is provided inside the transmission device 104. However, in another example, the transmission permission / inhibition determination unit 606 may be provided outside the transmission device 104. For example, as a system different from the transmission apparatus 104, a transmission apparatus connected to the packet communication network 116 or 118 and capable of communicating with the communication terminal 112 may be specified in cooperation with the position management system of the communication terminal.

  Based on the determination result of the transmission permission / inhibition determination unit 606, the transmission method determination unit 608 not only transmits the packet addressed to the communication terminal 112 received from the transmission control device 100 from the wireless transmission unit 622 of the transmission device 104 but also the transmission device 106. To determine whether to transmit from the wireless transmission unit. If the transmission device 106 cannot transmit a packet to the communication terminal 112, the transmission method determination unit 608 determines that the packet addressed to the communication terminal 112 is transmitted only from the transmission device 104. When the transmission device 106 can transmit a packet to the communication terminal 112, the transmission method determination unit 608 determines that the packets addressed to the communication terminal 112 are transmitted from the transmission devices 104 and 106.

  Further, even when the transmission apparatus 106 can transmit a packet to the communication terminal 112, the transmission method determination unit 608 is based on the type of packet received from the transmission control apparatus 102 via the packet communication network 118. Whether to transmit only from the wireless transmission unit 622 of 104 or from the wireless transmission unit of the transmission device 106 may be determined. The transmission method determination unit 608 may determine that a packet for which real-time property is required is transmitted only from the transmission device 104. For example, the transmission method determination unit 608 may determine that a packet related to the VoIP application or the chat application is transmitted only from the transmission device 104. On the other hand, the transmission method determination unit 608 may determine that a packet that does not require real-time property is also transmitted from the transmission device 106. For example, the transmission method determination unit 608 may determine that a packet related to an electronic mail application is also transmitted from the transmission device 106.

  Further, even when the transmission apparatus 106 can transmit a packet to the communication terminal 112, the transmission method determination unit 608 performs wireless transmission of the transmission apparatus 104 based on the communication quality between the transmission apparatus 104 and the communication terminal 112. Whether to transmit only from the unit 622 or from the wireless transmission unit of the transmission device 106 may be determined. The transmission method determination unit 608 may determine to transmit a packet only from the transmission device 104 when the communication quality between the transmission device 104 and the communication terminal 112 is better than a predetermined quality. On the other hand, the transmission method determination unit 608 may determine to transmit a packet from the transmission apparatus 106 when the communication quality between the transmission apparatus 104 and the communication terminal 112 is lower than a predetermined quality.

  Further, the transmission method determination unit 608 may determine whether to transmit only from the wireless transmission unit 622 of the transmission device 104 or to transmit from the wireless transmission unit of the transmission device 106 based on an instruction from the communication terminal 112. . In this case, the communication terminal 112 detects whether the packet can be received also from the transmission device 106. Then, when the communication terminal 112 can receive a packet from the transmission device 106, the communication terminal 112 notifies the transmission device 104 that the packet is also received from the transmission device 106. In addition, the communication terminal 112 can receive a packet from the transmission apparatus 106, and when the user of the communication terminal 112 selects to receive a packet from the transmission apparatus 106, the communication terminal 112 receives the packet from the transmission apparatus 106. The transmission apparatus 104 may be notified of the reception.

  Furthermore, the transmission method determination unit 608 may determine whether the transmission apparatuses 104 and 106 transmit the same packet to the communication terminal 112 or different packets. The transmission method determination unit 608 determines that the same packet is transmitted from the transmission devices 104 and 106 to the communication terminal 112 when the received radio wave intensity from the transmission device 104 to the communication terminal 112 is smaller than a predetermined value. It's okay. When the communication terminal 112 receives only from the transmission apparatus 104 by superimposing the radio signal of the packet transmitted from the transmission apparatus 104 and the radio signal transmitted from the transmission apparatus 106 using, for example, OFDM technology Wireless signals can be received with higher reception strength. The transmission method determination unit 608 determines that the transmission devices 104 and 106 transmit different packets to the communication terminal 112 when the communication band from the transmission device 104 to the communication terminal 112 is narrower than a predetermined value. It's okay. The communication terminal 112 receives only from the transmission apparatus 104 by decoding the encoded packet transmitted from the transmission apparatus 104 and the encoded packet transmitted from the transmission apparatus 106 using, for example, MIMO technology. Packets can be received in a wider communication band.

  When the transmission method determination unit 608 determines that the transmission device 104 and 106 transmit different packets to the communication terminal 112, the encoded data generation unit 610 receives the packet received by the packet transmission / reception unit 602 via the packet communication network 118. Then, a packet to be transmitted from the transmission device 104 to the communication terminal 112 and a packet to be transmitted from the transmission device 106 to the communication terminal 112 are generated. The encoded data generation unit 610 encodes a packet received by the packet transmission / reception unit 602 using, for example, MIMO technology and transmits the encoded packet to the communication terminal 112 from the transmission device 104, and the transmission device 106 to the communication terminal. An encoded packet to be transmitted to 112 may be generated.

  The transmission timing control unit 630 transmits the packet to the communication terminal 112 from the wireless transmission unit 622 of the transmission device 104 and the wireless transmission unit of the transmission device 106 that transmit the packet by wireless communication via the packet communication network 118 at the same time. A packet in which information indicating transmission timing is added to the received packet is provided to the wireless transmission unit of the transmission apparatus 106. The transmission timing control unit 630 superimposes the wireless signal of the packet transmitted from the wireless transmission unit 622 of the transmission device 104 and the wireless signal of the packet transmitted from the wireless transmission unit of the transmission device 106 so that the communication terminal 112 The same packet may be provided to the wireless transmission unit 622 of the transmission device 104 and the wireless transmission unit of the transmission device 106 so as to be received by one wireless reception unit. In addition, the transmission timing control unit 630 includes the communication terminal 112 that includes a wireless signal of a packet transmitted from the wireless transmission unit 622 of the transmission device 104 and a wireless signal of a packet transmitted from the wireless transmission unit of the transmission device 106. Different packets may be provided to the wireless transmission unit 622 of the transmission device 104 and the wireless transmission unit of the transmission device 106 so that a plurality of wireless reception units simultaneously receive the data.

  The transmission delay time measurement unit 612 periodically measures the transmission delay time from the transmission device 104 to the transmission device 106. The transmission delay time measurement unit 612 may transmit the delay time measurement packet in which the transmission time of the transmission device 104 is time stamped to the transmission device 106 via the asynchronous I / F unit 600. Then, the transmission delay time measurement unit 612 sends the delay time measurement packet with the time stamp of the reception time or transmission time of the delay time measurement packet by the transmission device 106 from the transmission device 106 via the asynchronous I / F unit 600. You may receive it. The transmission delay time measurement unit 612 may measure the transmission delay time from the transmission device 104 to the transmission device 106 from the transmission time of the transmission device 104 and the reception time or transmission time of the transmission device 106.

  The transmission timing calculation unit 614 sends a packet from the wireless transmission unit 622 and the transmission device 106 of the transmission device 104 to the communication terminal 112 when the transmission method determination unit 608 determines that the transmission device 106 also transmits a packet. A transmission timing indicating a transmission timing is calculated. The transmission timing calculation unit 614 calculates a transmission timing at which the transmission apparatus 106 can transmit a packet based on the transmission delay time from the transmission apparatus 104 to the transmission apparatus 106. The transmission timing calculation unit 614 refers to the external clock signal received by the external clock reception unit 618 and refers to the internal clock signal adjusted by the internal clock generation unit 616 to calculate the transmission timing.

  The transmission timing calculation unit 614 may calculate the transmission timing by adding the transmission delay time from the transmission device 104 to the transmission device 106 to the current time. The transmission timing calculation unit 614 may determine the transmission timing by adding a margin determined in consideration of the transmission delay time, the packet processing speed of the transmission device 106, and the like to the current time. The transmission timing calculation unit 614 supplies the calculated transmission timing to the transmission timing addition unit 604 and the synchronization I / F unit 620. The synchronous I / F unit 620 specifies the transmission timing supplied from the transmission timing calculation unit 614 and supplies the packet to the wireless transmission unit 622. The wireless transmission unit 622 transmits a packet to the communication terminal 112 at the transmission timing specified by the synchronous I / F unit 620.

  The transmission timing calculation unit 614 does not calculate the transmission timing when the transmission method determination unit 608 determines to cause the communication terminal 112 to transmit a packet only from the transmission device 104. Then, the packet transmission / reception unit 602 supplies the packet received via the packet communication network 118 to the wireless transmission unit 622 via the synchronous I / F unit 620 as it is.

  When the transmission method determining unit 608 determines that the transmission apparatus 104 and 106 transmit the same packet to the communication terminal 112, the transmission timing adding unit 604 uses the transmission timing calculated by the transmission timing calculating unit 614 as the packet transmitting / receiving unit. The packet 602 is added to the packet addressed to the communication terminal 112 received. Then, the packet transmitting / receiving unit 602 transmits the packet to which the transmission timing is added to the transmission device 106.

  When the transmission method determining unit 608 determines that the transmission device 104 and 106 transmit different packets to the communication terminal 112, the transmission timing adding unit 604 includes a plurality of encoded packets generated by the encoded data generating unit 610. The transmission timing calculated by the transmission timing calculation unit 614 is added to the encoded packet to be transmitted from the transmission device 106 to the communication terminal 112. Then, the packet transmission / reception unit 602 supplies the encoded packet to be transmitted from the transmission device 104 to the communication terminal 112 to the synchronous I / F unit 620, and transmits the encoded packet to which the transmission timing is added to the transmission device 106. Send.

  The transmission timing adding unit 604 encapsulates the packet received by the packet transmitting / receiving unit 602 via the packet communication network 118 by adding information indicating the transmission timing calculated by the transmission timing control unit 630 and a packet header. The transmission timing adding unit 604 encapsulates a packet to be transmitted to the transmission device 106 and creates an area for writing the transmission timing. The transmission timing adding unit 604 may create an area for writing the transmission timing by, for example, IP-in-IP encapsulation. The transmission timing adding unit 604 may write the absolute time as the transmission timing, or may write the time slot number of the synchronous I / F unit of the transmission apparatus 106 as the transmission timing.

  Further, the packet transmitting / receiving unit 602 may receive a packet addressed to the communication terminal 112 from the transmission control apparatus 102 or the transmission apparatus 106 via the asynchronous I / F unit 600. The transmission timing calculation unit 614 determines whether or not transmission timing is added to the packet received by the packet transmission / reception unit 602. The transmission timing calculation unit 614 extracts the transmission timing written in a specific area of the packet by decapsulating the packet received by the packet transmission / reception unit 602. The transmission timing calculation unit 614 may extract the absolute time as the transmission timing, or may extract the time slot number of the synchronous I / F unit 620.

  When the transmission timing is added to the packet, the transmission timing calculation unit 614 instructs the synchronous I / F unit 620 to transmit the packet at the added transmission timing. When the transmission timing is not added to the packet, the transmission timing calculation unit 614 instructs the synchronous I / F unit 620 to transmit the packet at a transmission timing different from the transmission timing added to other packets. The synchronous I / F unit 620 specifies a transmission timing and supplies a packet to the wireless transmission unit 622 according to an instruction from the transmission timing calculation unit 614. The wireless transmission unit 622 transmits a packet to the communication terminal 112 at the transmission timing specified by the synchronous I / F unit 620.

  According to the transmission device 104 according to the present embodiment, the transmission timing according to the transmission delay time is added to the packet and transmitted to the transmission device 106, so that the packet transmitted via the asynchronous network such as the packet communication network 118 is transmitted. The transmission devices 104 and 106 can transmit to the communication terminal 112 at the same time. Further, according to the transmission device 104 according to the present embodiment, according to the type of packet transmitted to the communication terminal 112, the communication quality between the transmission device 104 and the communication terminal 112, and an instruction from the user of the communication terminal 112 Since the packet transmission method is determined, a comfortable communication environment can be continuously provided to the user of the communication terminal 112. In addition, according to the transmission device 104 according to the present embodiment, the transmission of the packet to which the transmission timing is not added is processed so as not to overlap the transmission of the packet to which the transmission timing is added. Simultaneous transmission from the communication terminal 112 to the communication terminal 112 is not disturbed.

  FIG. 7 shows an example of the hardware configuration of the transmission control device 100 and the transmission device 104 according to this embodiment. The transmission control device 100 and the transmission device 104 according to the present embodiment include a CPU peripheral unit having a CPU 705, a RAM 720, a graphic controller 775, and a display device 780 that are connected to each other by a host controller 782. The transmission control device 100 and the transmission device 104 include an input / output unit having a communication interface 730, a hard disk drive 740, and a CD-ROM drive 760 connected to the host controller 782 by the input / output controller 784. Further, the transmission control device 100 and the transmission device 104 include a legacy input / output unit having a ROM 710, a flexible disk drive 750, and an input / output chip 770 connected to the input / output controller 784.

  The host controller 782 connects the RAM 720 to the CPU 705 and the graphic controller 775 that access the RAM 720 at a high transfer rate. The CPU 705 operates based on programs stored in the ROM 710 and the RAM 720 to control each unit. The graphic controller 775 acquires image data generated by the CPU 705 or the like on a frame buffer provided in the RAM 720 and displays it on the display device 780. Alternatively, the graphic controller 775 may include a frame buffer that stores image data generated by the CPU 705 or the like.

  The input / output controller 784 connects the host controller 782 to the communication interface 730, the hard disk drive 740, and the CD-ROM drive 760, which are relatively high-speed input / output devices. The communication interface 730 communicates with other devices via a network. The hard disk drive 740 stores programs and data used by the CPU 705 in the transmission control device 100 and the transmission device 104. The CD-ROM drive 760 reads a program or data from the CD-ROM 795 and provides it to the hard disk drive 740 via the RAM 720.

  The input / output controller 784 is connected to the ROM 710, the flexible disk drive 750, and the relatively low-speed input / output device of the input / output chip 770. The ROM 710 stores a boot program that the transmission control device 100 and the transmission device 104 execute at startup, a program that depends on the hardware of the transmission control device 100 and the transmission device 104, and the like. The flexible disk drive 750 reads a program or data from the flexible disk 790 and provides it to the hard disk drive 740 via the RAM 720. The input / output chip 770 connects various input / output devices via a flexible disk drive 750, for example, a parallel port, a serial port, a keyboard port, a mouse port, and the like.

  The content providing program provided to the hard disk drive 740 via the RAM 720 is stored in a recording medium such as the flexible disk 790, the CD-ROM 795, or an IC card and provided by the user. The content providing program is read from the recording medium, installed in the hard disk drive 740 in the transmission control device 100 and the transmission device 104 via the RAM 720, and executed by the CPU 705. The content providing program that is installed and executed in the transmission control apparatus 100 and the transmission apparatus 104 works on the CPU 705 and the like to cause the transmission control apparatus 100 and the transmission apparatus 104 to function as the respective units described with reference to FIGS.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiment. It is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

1 shows a configuration of a communication control system 10. The communication control procedure of the communication control system 10 is shown. 2 shows a functional configuration of the transmission control apparatus 100. 2 shows a functional configuration of the transmission apparatus 104. The communication control procedure of the communication control system 10 is shown. 2 shows a functional configuration of the transmission apparatus 104. The hardware configuration of the transmission control apparatus 100 and the transmission apparatus 104 is shown.

Explanation of symbols

10 communication control system 100 transmission control device 102 transmission control device 104 transmission device 106 transmission device 108 transmission device 110 transmission device 112 communication terminal 114 communication terminal 116 packet communication network 118 packet communication network 120 packet communication network 200 packet 202 packet 204 packet 300 asynchronous I / F unit 302 Packet transmission / reception unit 304 Transmission timing addition unit 306 Transmission availability determination unit 308 Transmission method determination unit 310 Encoded data generation unit 312 Transmission delay time measurement unit 314 Transmission timing calculation unit 316 Internal clock generation unit 318 External clock reception unit 330 Transmission Timing Control Unit 400 Asynchronous I / F Unit 402 Packet Reception Unit 404 Transmission Timing Determination Unit 416 Internal Clock Generation Unit 418 External Clock Reception Unit 420 Synchronous I / F Unit 422 Wireless Transmission 500 Packet 502 Packet 504 Packet 600 Asynchronous I / F unit 602 Packet transmission / reception unit 604 Transmission timing addition unit 606 Transmission availability determination unit 608 Transmission method determination unit 610 Encoded data generation unit 612 Transmission delay time measurement unit 614 Transmission timing calculation unit 616 Internal Clock generator 618 External clock receiver 620 Synchronous I / F unit 622 Wireless transmitter 630 Transmission timing controller 705 CPU
710 ROM
720 RAM
730 Communication interface 740 Hard disk drive 750 Flexible disk drive 760 CD-ROM drive 770 Input / output chip 775 Graphic controller 780 Display device 782 Host controller 784 Input / output controller 790 Flexible disk 795 CD-ROM

Claims (12)

A packet in which information indicating transmission timing is added to a packet received via the packet communication network so that the first wireless transmission unit and the second wireless transmission unit that transmit the packet by wireless communication simultaneously transmit the packet to the communication terminal. A communication control system comprising: a transmission timing control unit that provides at least one of the first wireless transmission unit and the second wireless transmission unit. A first transmitter having the first wireless transmitter;
A second transmitter having the second wireless transmitter;
A transmission control device having the transmission timing control unit,
The transmission timing control unit provides the first transmission device and the second transmission device with a packet in which information indicating the transmission timing is added to a packet received via the packet communication network. Communication control system. The transmission timing control unit
A transmission delay time measuring unit for measuring a first transmission delay time from the transmission control device to the first transmission device and a second transmission delay time from the transmission control device to the second transmission device;
A transmission timing calculation unit that calculates the transmission timing at which the first transmission device and the second transmission device can transmit a packet based on the first transmission delay time and the second transmission delay time;
The communication control system according to claim 2, further comprising: a transmission timing adding unit that adds the transmission timing calculated by the transmission timing calculating unit to a packet received via the packet communication network. A first transmitter having the first wireless transmitter and the transmission timing controller;
A second transmitter having the second wireless transmitter;
The communication control system according to claim 1, wherein the transmission timing control unit provides the second transmission device with a packet in which information indicating the transmission timing is added to a packet received via the packet communication network. The transmission timing control unit
A transmission delay time measurement unit for measuring a transmission delay time from the first transmission device to the second transmission device;
A transmission timing calculation unit that calculates the transmission timing at which the second transmission device can transmit a packet based on the transmission delay time;
The communication control system according to claim 4, further comprising: a transmission timing adding unit that adds the transmission timing calculated by the transmission timing calculating unit to a packet received via the packet communication network. The transmission timing control unit
The communication control system according to claim 1, further comprising: a transmission timing addition unit that encapsulates a packet received via the packet communication network by adding information indicating the transmission timing and a packet header. An external clock receiver for receiving an external clock signal referred to by the first wireless transmitter and the second wireless transmitter;
The transmission timing control unit
The communication control system according to claim 1, further comprising: a transmission timing calculation unit that calculates the transmission timing with reference to the external clock signal.   The transmission timing control unit superimposes the wireless signal of the packet transmitted from the first wireless transmission unit and the wireless signal of the packet transmitted from the second wireless transmission unit, and includes one of the communication terminals The communication control system according to claim 1, wherein the same packet is provided to the first wireless transmission unit and the second wireless transmission unit so as to be received by a wireless reception unit.   The transmission timing control unit includes a plurality of radio reception units included in the communication terminal, the radio signal of the packet transmitted from the first radio transmission unit and the radio signal of the packet transmitted from the second radio transmission unit. 2. The communication control system according to claim 1, wherein different packets are provided to the first wireless transmission unit and the second wireless transmission unit so as to be received simultaneously. A transmission method determining unit that determines whether to transmit from one or both of the first wireless transmission unit and the second wireless transmission unit based on a type of packet received via the packet communication network The communication control system according to claim 1. A packet in which information indicating transmission timing is added to a packet received via the packet communication network so that the first wireless transmission unit and the second wireless transmission unit that transmit the packet by wireless communication simultaneously transmit the packet to the communication terminal. A transmission control method comprising: a transmission timing control step of providing at least one of the first wireless transmission unit and the second wireless transmission unit. A program for a communication control system, wherein the communication control system is
A packet in which information indicating transmission timing is added to a packet received via the packet communication network so that the first wireless transmission unit and the second wireless transmission unit that transmit the packet by wireless communication simultaneously transmit the packet to the communication terminal. That functions as a transmission timing control unit that provides at least one of the first wireless transmission unit and the second wireless transmission unit.

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