JP4951771B2 - Communication control system, communication control method, and program - Google Patents

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 that simultaneously transmit data to a communication terminal from a plurality of radio base stations.

In a mobile communication system, a technique for switching between wireless LAN communication and wireless telephone communication is used according to the purpose of communication or the current location of a communication terminal (for example, Patent Document 1 and Patent). Reference 2). In mobile communication systems, a technique for handing over a radio base station that performs radio communication with a communication terminal according to the current position of the communication terminal is used (see, for example, Patent Document 3). Thereby, even when the communication terminal moves outside the base station area during data communication, it can continue to perform data communication in the adjacent base station area.
JP 2005-188060 A Japanese Patent Laying-Open No. 2003-110751 JP-A-8-331043

  However, in the prior art, even if a communication terminal exists in an overlapping area where a plurality of base station areas overlap, any one of the plurality of radio base stations is not connected to the communication terminal. Perform data communication. In the above overlapping area, the distance is often far from any of the plurality of radio base stations, and the radio wave intensity of the radio waves that can be received by the communication terminal is weak regardless of the data transmitted from any of the radio base stations. For this reason, in the said overlapping area, the communication quality and communication speed of the data communication by a communication terminal fall.

  In order to solve the above-described problem, in a first aspect of the present invention, a communication control system, a data receiving unit that receives data to be transmitted to a communication terminal, a first wireless transmission unit, and a second wireless transmission A transmission method determining unit that determines whether to transmit data to the communication terminal using one of the units or to transmit data to the communication terminal using both the first wireless transmission unit and the second wireless transmission unit; When it is determined to transmit data to the communication terminal using both the wireless transmission unit and the second wireless transmission unit, the data is simultaneously transmitted from the first wireless transmission unit and the second wireless transmission unit to the communication terminal. A synchronization control unit that transmits the information to be indicated.

  The above summary of the invention does not enumerate all the necessary features of the present invention, and sub-combinations of these feature groups can also be the 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 a communication control system 10 according to the embodiment. The communication control system 10 includes an SAE GW (System Architecture Evolution Gateway) 100, a first additional device 120A, a second additional device 120B, a first radio base station 130A, and a second radio base station 130B.

  The first radio base station 130A includes a first radio transmission unit and an antenna. The first radio base station 130A performs radio communication with the communication terminal 140A and the communication terminal 140B that exist in the first base station area 135A. The second radio base station 130B has a second radio transmission unit and an antenna. The second radio base station 130B performs radio communication with the communication terminal 140B and the communication terminal 140C that exist in the second base station area 135B. The first additional device 120A is connected to the first wireless transmission unit. The second additional device 120B is connected to the second wireless transmission unit.

  For example, the communication control system 10 controls a communication system for mobile phones using LTE (Long Term Evolution) and OFDM (Orthogonal Frequency Division Multiplexing). The communication control system 10 may control a communication system using other communication methods or other communication standards, such as a wireless LAN (Local Area Network) and WiMAX (Worldwide Interoperability for Microwave Access).

  In the following description, the first additional device 120A and the second additional device 120B may be collectively referred to as the additional device 120. In addition, the first radio base station 130A and the second radio base station 130B may be collectively referred to as a radio base station 130. Further, the first base station area 135A and the second base station area 135B may be collectively referred to as a base station area 135. Communication terminal 140A, communication terminal 140B, and communication terminal 140C may be collectively referred to as communication terminal 140.

  In the communication control system 10, an existing communication control system may be used except for the additional device 120. For example, the communication control system 10 may be constructed by providing the additional device 120 on the communication path between the SAE GW 100 and the radio base station 130 with respect to the existing communication control system. In this case, the specification of the input / output interface of the additional device 120 is preferably the same as the specification of the input / output interface used for connection between the SAE GW 100 and the radio base station 130. Thereby, when the use of the additional device 120 is started, the additional device 120 can be easily provided to the existing communication control system. Further, when the use of the additional device 120 is abolished, the existing communication control system can be easily restored.

  The SAE GW 100 controls a communication path for data transmitted to the communication terminal 140. Specifically, the SAE GW 100 receives data transmitted from the data transmission source communication terminal 140. Also, the SAE GW 100 specifies the current position of the communication terminal 140 that is the data transmission destination. For example, the SAE GW 100 refers to the terminal movement information 115 to identify the current position of the data transmission destination communication terminal 140. Then, the SAE GW 100 transmits the received data to the radio base station 130 corresponding to the current position of the communication terminal 140 that is the data transmission destination.

  The radio base station 130 wirelessly connects the communication terminal 140 to the communication network. Then, the radio base station 130 performs radio communication with the communication terminal 140. For example, the radio base station 130 receives data transmitted from the SAE GW 100. The radio base station 130 then wirelessly transmits the received data to the communication terminal 140 that is the data transmission destination.

  The communication terminal 140 is a wireless communication terminal, and is connected to the communication network via the wireless base station 130. The communication terminal 140 performs data communication with other communication terminals 140 via a communication network.

  The communication terminal 140 receives data from other communication terminals 140 via a communication network. Then, the communication terminal 140 reproduces the received data. An example of the communication terminal 140 is a mobile phone. Examples of data transmitted and received by the communication terminal 140 include voice data, text data, and image data.

  The additional device 120 is provided on a communication path between the SAE GW 100 and the radio base station 130. The additional device 120 controls data transmission from the radio base station 130 to the communication terminal 140 on the communication path between the SAE GW 100 and the radio base station 130.

  When the communication terminal 140 exists in the single base station area 135, the additional device 120 transmits data from the single radio base station 130 to the communication terminal 140. When the communication terminal 140 exists in an overlapping area that overlaps the plurality of base station areas 135, the additional device 120 transmits data from the plurality of radio base stations 130 to the communication terminal 140. In particular, the additional device 120 transmits data from the plurality of radio base stations 130 to the communication terminal 140 at the same time.

  For example, communication terminal 140A exists in base station area 135A. For this reason, the first additional device 120A transmits data from the first radio base station 130A to the communication terminal 140A. Moreover, the communication terminal 140C exists in the base station area 135B. For this reason, the second additional device 120B transmits data from the second radio base station 130B to the communication terminal 140C.

  Communication terminal 140B exists in an overlapping area where base station area 135A and base station area 135B overlap. For this reason, the first additional device 120A transmits data from the first radio base station 130A to the communication terminal 140B. At the same time, the second additional device 120B transmits data from the second radio base station 130B to the communication terminal 140B.

  For example, the first additional device 120A calculates the transmission time of data to be transmitted to the communication terminal 140B. Then, the first additional device 120A notifies the calculated transmission time to the second additional device 120B.

  The first additional device 120A transmits a transmission timing signal to the first radio base station 130A at the transmission time. At the same time, the second additional device 120B transmits a transmission timing signal to the second radio base station 130B. Thereby, the first radio base station 130A and the first radio base station 130A simultaneously transmit data to the communication terminal 140B.

  As described above, according to the communication control system 10 of the present embodiment, data is simultaneously transmitted from the plurality of radio base stations 130 to the communication terminal 140B existing in the overlapping area overlapping the plurality of base station areas 135. . Thereby, the propagation path of the data to the communication terminal 140B can be multiplexed. In addition, the radio field intensity of data received by communication terminal 140B can be increased. For this reason, in the said duplication area, the communication quality and communication speed of the data communication by the communication terminal 140B can be improved.

  FIG. 2 shows a functional configuration example of the first additional device 120A according to the embodiment. The first additional device 120A includes a data reception unit 202, a data transmission unit 204, an encoded data generation unit 206, a transmission availability determination unit 208, and a transmission method determination unit 210. The first additional device 120 </ b> A includes a transmission delay time measurement unit 212, a transmission timing calculation unit 214, an external clock reception unit 216, a high precision time synchronization unit 218, and a synchronization control unit 220. Further, the first additional device 120A includes a network I / F 222, a network I / F 224, and a synchronization I / F 226.

  The second additional device 120B has the same configuration and function as the first additional device 120A. For this reason, the description of the functional configuration example of the second additional device 120B is omitted.

  The data receiving unit 202 receives data to be transmitted to the communication terminal 140. For example, the data receiving unit 202 receives data to be transmitted to the communication terminal 140 from the SAE GW 100 via the network I / F 222.

  The data transmission unit 204 transmits data to be transmitted to the communication terminal 140. For example, the data transmission unit 204 transmits data to be transmitted to the communication terminal 140 to one of the first wireless transmission unit and the second wireless transmission unit. The data transmission unit 204 may transmit data to be transmitted to the communication terminal 140 to both the first wireless transmission unit and the second wireless transmission unit.

  The encoded data generation unit 206 encodes the data received by the data reception unit 202 to generate first encoded data and second encoded data. For example, the encoded data generation unit 206 may generate the first encoded data and the second encoded data by space-time encoding the data received by the data receiving unit 202. The encoded data generation unit 206 may generate the first encoded data and the second encoded data by space-time encoding the data received by the data receiving unit 202 using a MIMO technique. When the encoded data generation unit 206 generates the first encoded data and the second encoded data, the data transmission unit 204 sends the first encoded data generated by the encoded data generation unit 206 to the first wireless transmission unit. You may send it. In addition, the data transmission unit 204 may transmit the second encoded data generated by the encoded data generation unit 206 to the second wireless transmission unit.

  The transmission permission determination unit 208 determines whether each of the first wireless transmission unit and the second wireless transmission unit can transmit data to the communication terminal 140. Based on the current position of communication terminal 140, transmission permission determination unit 208 may determine whether each of the first wireless transmission unit and the second wireless transmission unit is in a state in which data transmission to communication terminal 140 is possible. For example, the transmission permission determination unit 208 may specify the current position of the communication terminal 140 by referring to the terminal movement information 115 via the network I / F 222.

  The transmission method determination unit 210 transmits data to the communication terminal 140 using one of the first wireless transmission unit and the second wireless transmission unit, or data using both the first wireless transmission unit and the second wireless transmission unit. Is transmitted to the communication terminal 140. Based on the determination result of the transmission permission determination unit 208, the transmission method determination unit 210 transmits data to the communication terminal 140 using one of the first wireless transmission unit and the second wireless transmission unit, or the first wireless transmission unit Whether to transmit data to the communication terminal 140 may be determined using both the second wireless transmission unit and the second wireless transmission unit.

  For example, when the transmission permission determination unit 208 determines that the first wireless transmission unit is ready to transmit data to the communication terminal 140, the transmission method determination unit 210 uses the first wireless transmission unit to transmit data to the communication terminal 140. You may decide to send to. In addition, when the transmission permission determination unit 208 determines that the second wireless transmission unit is ready to transmit data to the communication terminal 140, the transmission method determination unit 210 uses the second wireless transmission unit to transmit data to the communication terminal 140. You may decide to send to. In addition, when the transmission permission determination unit 208 determines that both the first wireless transmission unit and the second wireless transmission unit are in a state where data transmission to the communication terminal 140 is possible, the transmission method determination unit 210 includes the first wireless transmission unit The data may be determined to be transmitted to the communication terminal 140 using both the second wireless transmission unit and the second wireless transmission unit.

  The transmission method determination unit 210 transmits data to the communication terminal 140 using one of the first wireless transmission unit and the second wireless transmission unit based on the user setting of the communication terminal 140 or the first wireless transmission unit and the first wireless transmission unit. Whether to transmit data to the communication terminal 140 using both of the two wireless transmission units may be determined. For example, even when the transmission permission determination unit 208 determines that both the first wireless transmission unit and the second wireless transmission unit are ready to transmit data to the communication terminal 140, the user setting of the communication terminal 140 is When it is set that data is transmitted to the communication terminal 140 using one of the first wireless transmission unit and the second wireless transmission unit, the transmission method determination unit 210 includes the first wireless transmission unit and the second wireless transmission unit. It may be determined that data is transmitted to the communication terminal 140 using one of the above.

  When the transmission method determination unit 210 determines to transmit data to the communication terminal 140 using both the first wireless transmission unit and the second wireless transmission unit, the data transmission unit 204 includes the first wireless transmission unit and the first wireless transmission unit. The data received by the data reception unit 202 may be transmitted to both of the two wireless transmission units. When the transmission method determination unit 210 determines to transmit data to the communication terminal 140 using one of the first wireless transmission unit and the second wireless transmission unit, the data transmission unit 204 includes the first wireless transmission unit and the first wireless transmission unit. The data received by the data reception unit 202 may be transmitted to one of the two wireless transmission units. When the transmission method determination unit 210 determines to transmit data to the communication terminal 140 using both the first wireless transmission unit and the second wireless transmission unit, the encoded data generation unit 206 includes a data reception unit The data received by 202 may be encoded to generate first encoded data and second encoded data.

  The external clock receiver 216 receives an external clock signal. For example, the external clock receiving unit 216 may receive an external clock signal from a GPS unit that calculates the current time based on a GPS signal emitted from a GPS satellite. The external clock receiving unit 216 may receive an external clock signal via the network I / F 222.

  For example, the external clock receiving unit 216 may receive an external clock signal from an NTP (Network Time Protocol) server. Further, the external clock receiving unit 216 may receive a JJY signal as an external clock signal.

  The high accuracy time synchronization unit 218 increases the accuracy of the internal clock in synchronization with the external clock signal received by the external clock reception unit 216. For example, the high-accuracy time synchronization unit 218 synchronizes with the nano-sec precision external clock signal received by the external clock reception unit 216 and increases the accuracy of the internal clock signal.

  The transmission delay time measurement unit 212 measures the transmission delay time from the first additional device 120A to the second additional device 120B. For example, the transmission delay time measurement unit 212 transmits a packet for network communication confirmation to the second additional device 120B via the network I / F 222, thereby transmitting delay from the first additional device 120A to the second additional device 120B. Time may be measured.

  The transmission timing calculation unit 214 calculates a transmission timing at which the first wireless transmission unit and the second wireless transmission unit can simultaneously transmit information indicating data to be transmitted to the communication terminal 140. For example, the transmission timing calculation unit 214 generates information indicating data that the first wireless transmission unit and the second wireless transmission unit should transmit to the communication terminal 140 based on the transmission delay time measured by the transmission delay time measurement unit 212. The transmission timing that can be transmitted simultaneously is calculated. The transmission timing calculation unit 214 may calculate the transmission timing with reference to the external clock signal received by the external clock reception unit 216. The transmission timing calculation unit 214 may calculate the transmission timing with reference to the internal clock signal that has been highly accurate by the high accuracy time synchronization unit 218.

  The synchronization control unit 220 causes the communication terminal 140 to transmit information indicating data to be transmitted to the communication terminal 140 simultaneously from the first wireless transmission unit and the second wireless transmission unit. The synchronization control unit 220 simultaneously transmits a transmission timing signal from the first radio transmission unit and the second radio transmission unit to the communication terminal 140, so that the first radio transmission unit and the second radio transmission unit communicate with the communication terminal 140. At the same time, information indicating data to be transmitted to the communication terminal 140 may be transmitted.

  The synchronization control unit 220 generates the first encoded data and the encoded data generation unit 206 generated by the encoded data generation unit 206 simultaneously from the first wireless transmission unit and the second wireless transmission unit to the communication terminal 140. The second encoded data may be transmitted. For example, the synchronization control unit 220 causes the first wireless transmission unit to transmit the first encoded data generated by the encoded data generation unit 206 to the communication terminal 140, and at the same time from the second wireless transmission unit to the communication terminal 140. On the other hand, the second encoded data generated by the encoded data generation unit 206 may be transmitted.

  When the transmission method determination unit 210 determines to transmit data to the communication terminal 140 using both the first wireless transmission unit and the second wireless transmission unit, the synchronization control unit 220 Information indicating data to be transmitted to the communication terminal 140 may be transmitted simultaneously from the second wireless transmission unit to the communication terminal 140. Synchronization control unit 220 transmits to communication terminal 140 when transmission method determining unit 210 determines to transmit data to communication terminal 140 using both the first wireless transmission unit and the second wireless transmission unit. Information indicating data to be transmitted is transmitted to the first wireless transmission unit and the second additional device 120B, and data to be transmitted to the communication terminal 140 simultaneously from the first wireless transmission unit and the second wireless transmission unit to the communication terminal 140 May be transmitted.

  The synchronization control unit 220 refers to the external clock signal received by the external clock reception unit 216, and transmits data to be transmitted to the communication terminal 140 from the first wireless transmission unit or the second wireless transmission unit to the communication terminal 140. The information shown may be transmitted. In addition, the synchronization control unit 220 refers to the internal clock signal that has been improved in accuracy by the high-accuracy time synchronization unit 218, from the first wireless transmission unit or the second wireless transmission unit to the communication terminal 140, Information indicating data to be transmitted may be transmitted.

  Thus, according to the first additional device 120A of the present embodiment, data is simultaneously transmitted from the plurality of radio base stations 130 to the communication terminal 140B existing in the overlapping area overlapping the plurality of base station areas 135. Can be made. Thereby, the propagation path of the data to the communication terminal 140B can be multiplexed. In addition, the radio field intensity of data received by communication terminal 140B can be increased. For this reason, in the said duplication area, the communication quality and communication speed of the data communication by the communication terminal 140B can be improved.

  FIG. 3 shows another example of the communication control system according to the embodiment. 3 is different from the communication control system 10 shown in FIG. 1 in that the communication control system 10 shown in FIG. Hereinafter, differences from the communication control system 10 illustrated in FIG. 1 will be described.

  In the communication control system 10, an existing communication control system may be used except for the additional device 120 and the cooperative transmission control device 110. For example, by providing the additional device 120 on the communication path between the SAE GW 100 and the radio base station 130 with respect to the existing communication control system, the additional device 120 and the cooperative transmission control device 110 are connected to communicate with each other. The control system 10 may be constructed. In this case, the specification of the input / output interface of the additional device 120 is preferably the same as the specification of the input / output interface used for connection between the SAE GW 100 and the radio base station 130. Thereby, when the use of the additional device 120 and the cooperative transmission control device 110 is started, the additional device 120 and the cooperative transmission control device 110 can be easily provided to the existing communication control system. In addition, when the use of the additional device 120 and the cooperative transmission control device 110 is abolished, the existing communication control system can be easily restored.

  The coordinated transmission control device 110 controls data transmission to the communication terminal 140 by the radio base station 130 by cooperating with the additional device 120. Specifically, when communication terminal 140 exists in a single base station area 135, coordinated transmission control apparatus 110 transmits data from single radio base station 130 to communication terminal 140. When the communication terminal 140 exists in an overlapping area that overlaps the plurality of base station areas 135, the coordinated transmission control device 110 transmits data from the plurality of radio base stations 130 to the communication terminal 140. In particular, the coordinated transmission control device 110 transmits data from the plurality of radio base stations 130 to the communication terminal 140 simultaneously.

  For example, communication terminal 140A exists in base station area 135A. For this reason, the coordinated transmission control apparatus 110 transmits data from the first radio base station 130A to the communication terminal 140A. Moreover, the communication terminal 140C exists in the base station area 135B. For this reason, the coordinated transmission control apparatus 110 transmits data from the second radio base station 130B to the communication terminal 140C.

  Communication terminal 140B exists in an overlapping area where base station area 135A and base station area 135B overlap. For this reason, the coordinated transmission control apparatus 110 transmits data from the first radio base station 130A to the communication terminal 140B. At the same time, the coordinated transmission control apparatus 110 transmits data from the second radio base station 130B to the communication terminal 140B.

  For example, coordinated transmission control apparatus 110 calculates a transmission time at which data should be transmitted from radio base station 130A to communication terminal 140B. Then, the cooperative transmission control device 110 notifies the calculated transmission time to both the first additional device 120A and the second additional device 120B.

  The first additional device 120A transmits a transmission timing signal to the first radio base station 130A at the transmission time. At the same time, the second additional device 120B transmits a transmission timing signal to the second radio base station 130B. Thereby, the first radio base station 130A and the first radio base station 130 simultaneously transmit data to the communication terminal 140B.

  As described above, according to the communication control system 10 of the present embodiment, data is simultaneously transmitted from the plurality of radio base stations 130 to the communication terminal 140B existing in the overlapping area overlapping the plurality of base station areas 135. . Thereby, the propagation path of the data to the communication terminal 140B can be multiplexed. In addition, the radio field intensity of data received by communication terminal 140B can be increased. For this reason, in the said duplication area, the communication quality and communication speed of the data communication by the communication terminal 140B can be improved.

  FIG. 4 shows another functional configuration example of the first additional device 120A according to the embodiment. The first additional device 120A includes a data reception unit 202, a data transmission unit 204, an encoded data generation unit 206, a transmission availability determination unit 208, and a transmission method determination unit 210. The first additional device 120 </ b> A includes an external clock receiving unit 216, a high precision time synchronization unit 218, and a transmission timing supply unit 402. Further, the first additional device 120A includes a network I / F 222, a network I / F 224, and a synchronization I / F 226.

  The second additional device 120B has the same configuration and function as the first additional device 120A. For this reason, the description of the functional configuration example of the second additional device 120B is omitted.

  The data receiving unit 202 receives data to be transmitted to the communication terminal 140. For example, the data receiving unit 202 receives data to be transmitted to the communication terminal 140 from the SAE GW 100 via the network I / F 222.

  The data transmission unit 204 transmits data to be transmitted to the communication terminal 140. For example, the data transmission unit 204 transmits data to be transmitted to the communication terminal 140 to one of the first wireless transmission unit and the second wireless transmission unit. The data transmission unit 204 may transmit data to be transmitted to the communication terminal 140 to both the first wireless transmission unit and the second wireless transmission unit.

  The encoded data generation unit 206 encodes the data received by the data reception unit 202 to generate first encoded data and second encoded data. For example, the encoded data generation unit 206 may generate the first encoded data and the second encoded data by space-time encoding the data received by the data receiving unit 202. When the encoded data generation unit 206 generates the first encoded data and the second encoded data, the data transmission unit 204 sends the first encoded data generated by the encoded data generation unit 206 to the first wireless transmission unit. You may send it. In addition, the data transmission unit 204 may transmit the second encoded data generated by the encoded data generation unit 206 to the second wireless transmission unit.

  The transmission permission determination unit 208 determines whether each of the first wireless transmission unit and the second wireless transmission unit can transmit data to the communication terminal 140. Based on the current position of communication terminal 140, transmission permission determination unit 208 may determine whether each of the first wireless transmission unit and the second wireless transmission unit is in a state in which data transmission to communication terminal 140 is possible. For example, the transmission permission determination unit 208 may specify the current position of the communication terminal 140 by referring to the terminal movement information 115 via the network I / F 222.

  The transmission method determination unit 210 transmits data to the communication terminal 140 using one of the first wireless transmission unit and the second wireless transmission unit, or data using both the first wireless transmission unit and the second wireless transmission unit. Is transmitted to the communication terminal 140. Based on the determination result of the transmission permission determination unit 208, the transmission method determination unit 210 transmits data to the communication terminal 140 using one of the first wireless transmission unit and the second wireless transmission unit, or the first wireless transmission unit Whether to transmit data to the communication terminal 140 may be determined using both the second wireless transmission unit and the second wireless transmission unit.

  For example, when the transmission permission determination unit 208 determines that the first wireless transmission unit is ready to transmit data to the communication terminal 140, the transmission method determination unit 210 uses the first wireless transmission unit to transmit data to the communication terminal 140. You may decide to send to. In addition, when the transmission permission determination unit 208 determines that the second wireless transmission unit is ready to transmit data to the communication terminal 140, the transmission method determination unit 210 uses the second wireless transmission unit to transmit data to the communication terminal 140. You may decide to send to. In addition, when the transmission permission determination unit 208 determines that both the first wireless transmission unit and the second wireless transmission unit are in a state where data transmission to the communication terminal 140 is possible, the transmission method determination unit 210 includes the first wireless transmission unit The data may be determined to be transmitted to the communication terminal 140 using both the second wireless transmission unit and the second wireless transmission unit.

  The transmission method determination unit 210 transmits data to the communication terminal 140 using one of the first wireless transmission unit and the second wireless transmission unit based on the user setting of the communication terminal 140 or the first wireless transmission unit and the first wireless transmission unit. Whether to transmit data to the communication terminal 140 using both of the two wireless transmission units may be determined. For example, even when the transmission permission determination unit 208 determines that both the first wireless transmission unit and the second wireless transmission unit are ready to transmit data to the communication terminal 140, the user setting of the communication terminal 140 is When it is set that data is transmitted to the communication terminal 140 using one of the first wireless transmission unit and the second wireless transmission unit, the transmission method determination unit 210 includes the first wireless transmission unit and the second wireless transmission unit. It may be determined that data is transmitted to the communication terminal 140 using one of the above.

  When the transmission method determination unit 210 determines to transmit data to the communication terminal 140 using both the first wireless transmission unit and the second wireless transmission unit, the data transmission unit 204 includes the first wireless transmission unit and the first wireless transmission unit. The data received by the data reception unit 202 may be transmitted to both of the two wireless transmission units. When the transmission method determination unit 210 determines to transmit data to the communication terminal 140 using one of the first wireless transmission unit and the second wireless transmission unit, the data transmission unit 204 includes the first wireless transmission unit and the first wireless transmission unit. The data received by the data reception unit 202 may be transmitted to one of the two wireless transmission units. When the transmission method determination unit 210 determines to transmit data to the communication terminal 140 using both the first wireless transmission unit and the second wireless transmission unit, the encoded data generation unit 206 includes a data reception unit The data received by 202 may be encoded to generate first encoded data and second encoded data.

  The external clock receiver 216 receives an external clock signal. For example, the external clock receiving unit 216 may receive an external clock signal from a GPS unit that calculates the current time based on a GPS signal emitted from a GPS satellite. The external clock receiving unit 216 may receive an external clock signal via the network I / F 222. For example, the external clock receiving unit 216 may receive an external clock signal from an NTP server. Further, the external clock receiving unit 216 may receive a JJY signal as an external clock signal.

  The high accuracy time synchronization unit 218 increases the accuracy of the internal clock in synchronization with the external clock signal received by the external clock reception unit 216. For example, the high-accuracy time synchronization unit 218 synchronizes with the nano-sec precision external clock signal received by the external clock reception unit 216 and increases the accuracy of the internal clock signal.

  The transmission timing supply unit 402 supplies a transmission timing of information indicating data to be transmitted to the communication terminal 140 to the first wireless transmission unit. The transmission timing supply unit 402 may supply the transmission timing to the first wireless transmission unit based on the control signal transmitted from the coordinated transmission control device 110 and indicating the transmission timing of data to be transmitted to the terminal device 140. Good. Further, the transmission timing supply unit 402 may supply a transmission timing signal indicating the transmission timing to the first wireless transmission unit via the synchronization I / F 226.

  The transmission timing supply unit 402 may supply a transmission timing of information indicating data to be transmitted to the communication terminal 140 to the first wireless transmission unit with reference to the external clock signal received by the external clock reception unit 216. The transmission timing supply unit 402 supplies the first wireless transmission unit with the transmission timing of information indicating the data to be transmitted to the communication terminal 140 with reference to the internal clock signal that has been made highly accurate by the high accuracy time synchronization unit 218. May be.

  FIG. 5 shows a functional configuration example of the cooperative transmission control apparatus 110 according to the embodiment. The coordinated transmission control device 110 includes a transmission delay time measurement unit 506, an external clock reception unit 508, a high accuracy time synchronization unit 510, a transmission timing calculation unit 512, a synchronization control unit 514, and a network I / F 516.

  The transmission delay time measurement unit 506 measures the first transmission delay time from the cooperative transmission control device 110 to the first additional device 120A and the second transmission delay time from the cooperative transmission control device 110 to the second additional device 120B. . For example, the transmission delay time measuring unit 506 may measure the first transmission delay time by transmitting a network communication confirmation packet to the first additional device 120A via the network I / F 516. The transmission delay time measurement unit 506 may measure the second transmission delay time by transmitting a network communication confirmation packet to the second additional device 120B via the network I / F 516.

  The external clock receiving unit 508 receives an external clock signal. For example, the external clock receiving unit 508 may receive an external clock signal from a GPS unit that calculates the current time based on a GPS signal emitted from a GPS satellite. The external clock receiving unit 508 may receive an external clock signal via the network I / F 222.

  For example, the external clock receiving unit 508 may receive an external clock signal from an NTP server. Further, the external clock receiving unit 508 may receive a JJY signal as an external clock signal via the network I / F 222. When the external clock receiving unit 508 receives the external clock signal, the transmission delay time measuring unit 506 refers to the external clock signal received by the external clock receiving unit 508 and determines the first transmission delay time and the second transmission delay time. You may measure.

  The high accuracy time synchronization unit 510 increases the accuracy of the internal clock in synchronization with the external clock signal received by the external clock reception unit 508. For example, the high-accuracy time synchronization unit 510 synchronizes with the nano-sec precision external clock signal received by the external clock reception unit 508, and increases the accuracy of the internal clock. When the high-accuracy time synchronization unit 510 synchronizes with the external clock signal to increase the accuracy of the internal clock, the transmission delay time measurement unit 506 refers to the internal clock signal that the high-accuracy time synchronization unit 510 has improved, The first transmission delay time and the second transmission delay time may be measured.

  Based on the first transmission delay time and the second transmission delay time measured by the transmission delay time measurement unit 506, the transmission timing calculation unit 512 is transmitted from the first wireless transmission unit and the second wireless transmission unit to the communication terminal 140. A transmission timing at which information indicating power data can be transmitted simultaneously is calculated. The transmission timing calculation unit 512 may calculate the transmission timing with reference to the external clock signal received by the external clock reception unit 508. Further, the transmission timing calculation unit 512 may calculate the transmission timing with reference to the internal clock signal that has been improved in accuracy by the high accuracy time synchronization unit 510.

  The synchronization control unit 514 causes the communication terminal 140 to transmit information indicating data to be transmitted to the communication terminal 140 simultaneously from the first wireless transmission unit and the second wireless transmission unit. When the transmission method determination unit 210 of the first additional device 120A determines to transmit data to the communication terminal 140 using both the first wireless transmission unit and the second wireless transmission unit, the synchronization control unit 514 Information indicating data to be transmitted to the communication terminal 140 may be transmitted simultaneously from the first wireless transmission unit and the second wireless transmission unit to the communication terminal 140.

  The synchronization control unit 514 may transmit a control signal indicating the transmission timing of data to be transmitted to the terminal device 140 to the transmission timing supply unit 402 of each of the first additional device 120A and the second additional device 120B. Thereby, the synchronization control unit 514 may cause the communication terminal 140 to transmit information indicating data to be transmitted to the communication terminal 140 simultaneously from both the first wireless transmission unit and the second wireless transmission unit.

  The synchronization control unit 514 simultaneously transmits the first encoded data and the second code generated by the encoded data generation unit 206 of the first additional device 120A from the first wireless transmission unit and the second wireless transmission unit to the communication terminal 140. The digitized data may be transmitted. For example, the synchronization control unit 514 causes the first wireless transmission unit to transmit the first encoded data generated by the encoded data generation unit 206 of the first additional device 120A to the communication terminal 140, and at the same time performs the second wireless transmission. The second encoded data generated by the encoded data generation unit 206 of the first additional device 120A may be transmitted from the unit to the communication terminal 140.

  When the transmission method determination unit 210 of the first additional device 120A determines to transmit data to the communication terminal 140 using both the first wireless transmission unit and the second wireless transmission unit, the synchronization control unit 514 Information indicating data to be transmitted to the communication terminal 140 may be transmitted simultaneously from the first wireless transmission unit and the second wireless transmission unit to the communication terminal 140. The synchronization control unit 514 refers to the external clock signal received by the external clock reception unit 216, and transmits data to be transmitted to the communication terminal 140 from the first wireless transmission unit or the second wireless transmission unit to the communication terminal 140. The information shown may be transmitted. In addition, the synchronization control unit 514 refers to the internal clock signal that has been improved by the high-accuracy time synchronization unit 510 from the first radio transmission unit or the second radio transmission unit to the communication terminal 140 to the communication terminal 140. Information indicating data to be transmitted may be transmitted.

  As described above, according to the first additional device 120A and the coordinated transmission control device 110 of the present embodiment, a plurality of radio base stations 130 are provided for the communication terminal 140B existing in the overlapping area overlapping the plurality of base station areas 135. Thus, data can be transmitted simultaneously. Thereby, the propagation path of the data to the communication terminal 140B can be multiplexed. In addition, the radio field intensity of data received by communication terminal 140B can be increased. For this reason, in the said duplication area, the communication quality and communication speed of the data communication by the communication terminal 140B can be improved.

  FIG. 6 shows an example of processing by the communication control system 10. The communication terminal 140B existing in the first base station area 135A moves from the first base station area 135A to an overlapping area where the first base station area 135A and the second base station area 135B overlap. T1 shown in FIG. 6 indicates the timing at which the communication terminal 140B moves from the first base station area 135A to the overlapping area.

  When the communication terminal 140B exists in the first base station area 135A, the SAE GW 100 detects that the communication terminal 140B can receive data from the first radio base station 130A. Thereby, SAE GW100 transmits data B1-B3 to be transmitted to communication terminal 140B toward first radio base station 130A.

  The first additional device 120A provided on the communication path between the SAE GW 100 and the first radio base station 130A receives the data B1-B3 transmitted from the SAE GW 100. The first additional device 120A detects that the communication terminal 140B can receive data from the first radio base station 130A. Thereby, the first additional device 120A transmits the data B1-B3 and the transmission timing signal to the first radio base station 130A. The first radio base station 130A transmits data B1-B3 to the communication terminal 140B at the timing of receiving the transmission timing signal. The communication terminal 140B reproduces the data B1-B3 received from the first radio base station 130A.

  When the communication terminal 140B moves from the first base station area 135A to the overlapping area, the SAE GW 100 can receive data from both the first radio base station 130A and the second radio base station 130B. To detect. The SAE GW 100 specifies the first radio base station 130A among the first radio base station 130A and the second radio base station 130B as a radio base station that can emit a strong radio wave to the communication terminal 140B. Thereby, SAE GW100 transmits data B4 and B5 to be transmitted to communication terminal 140B toward first radio base station 130A.

  The first additional device 120A receives the data B4 and B5 transmitted from the SAE GW 100. The first additional device 120A detects that the communication terminal 140B can receive data from both the first radio base station 130A and the second radio base station 130B.

  Thereby, the first additional device 120A transmits the data B′4 and B′5 to the first radio base station 130A. The first additional device 120A transmits the data B ″ 4 and B ″ 5 to the second additional device 120B.

  The first additional device 120A may transmit the data B4 and B5 transmitted from the SAE GW 100 to the first radio base station 130A as data B′4 and B′5 as they are. In addition, the first additional device 120A may transmit the data B4 and B5 transmitted from the SAE GW 100 to the second additional device 120B as data B ″ 4 and B ″ 5 as they are.

  Also, the first additional device 120A encodes the data B4 and B5 transmitted from the SAE GW 100, thereby encoding the encoded data B′4 and B′5 and the encoded data B ″ 4, B ″ 5 may be generated. Then, the first additional device 120A may transmit the encoded data B′4 and B′5 to the first radio base station 130A. In addition, the first addition device 120A may transmit the encoded data B ″ 4 and B ″ 5 to the second addition device 120B.

  By the time the transmission timing time calculated by the first additional device 120A or the coordinated transmission control device 110 is reached, the first additional device 120A transmits data B′4 and B′5 to the first radio base station 130A. Further, the second additional device 120B transmits data B ″ 4 and B ″ 5 to the second radio base station 130B.

  The first additional device 120A transmits a timing signal to the first radio base station 130A at the timing when the transmission timing time calculated by the first additional device 120A or the coordinated transmission control device 110 is reached. At the same time, the second additional device 120B transmits a timing signal to the second radio base station 130B.

  Thereby, the first radio base station 130A transmits data B′4 and B′5 to the communication terminal 140B. At the same time, the second radio base station 130B transmits data B ″ 4 and B ″ 5 to the communication terminal 140B.

  The communication terminal 140B receives data B′4, B′5 and data B ″ 4, B ″ 5 from the first radio base station 130A and the second radio base station 130B. The communication terminal 140B reproduces the received data B′4, B′5 and data B ″ 4, B ″ 5 as data B4, B5. The communication terminal 140B may decode the data B4 and B5 from the received data B′4 and B′5 and the data B ″ 4 and B ″ 5. The data B4 and B5 may be reproduced from the decrypted data B4 and B5.

  As described above, according to the communication control system 10 of the present embodiment, data is simultaneously transmitted from the plurality of radio base stations 130 to the communication terminal 140B existing in the overlapping area overlapping the plurality of base station areas 135. be able to. The communication control system 10 can increase the radio field intensity of data received by the communication terminal 140B by making the frequencies of the plurality of data transmitted from the plurality of radio base stations 130 to the communication terminal 140B the same. Further, the communication control system 10 generates a plurality of encoded data, and simultaneously transmits the generated plurality of encoded data from the plurality of radio base stations 130 to the communication terminal 140B, thereby communicating with the communication terminal 140B. A plurality of bands in the route can be used effectively.

  FIG. 7 shows another example of processing by the communication control system 10. The communication terminal 140B existing in the first base station area 135A moves from the first base station area 135A to an overlapping area where the first base station area 135A and the second base station area 135B overlap. Furthermore, the communication terminal 140B moves from the overlapping area to the second base station area 135B.

  T1 shown in FIG. 7 indicates the timing at which the communication terminal 140B moves from the first base station area 135A to the overlapping area. T2 indicates the timing at which the radio base station 130A communicating with the communication terminal 140B performs H / O (handover) from the first radio base station 130A to the second radio base station 130B. T3 indicates the timing at which the communication terminal 140B moves from the overlapping area to the second base station area 135B.

  When the communication terminal 140B exists in the first base station area 135A, the SAE GW 100 detects that the communication terminal 140B can receive data from the first radio base station 130A. Thereby, SAE GW100 transmits data B1-B3 to be transmitted to communication terminal 140B toward first radio base station 130A.

  The first additional device 120A provided on the communication path between the SAE GW 100 and the first radio base station 130A receives the data B1-B3 transmitted from the SAE GW 100. The first additional device 120A detects that the communication terminal 140B can receive data from the first radio base station 130A. Thereby, the first additional device 120A transmits the data B1-B3 and the transmission timing signal to the first radio base station 130A. Thereby, the first radio base station 130A transmits data B1-B3 to the communication terminal 140B. The communication terminal 140B reproduces the data B1-B3 received from the first radio base station 130A.

  When the communication terminal 140B moves from the first base station area 135A to the overlapping area, the SAE GW 100 can receive data from both the first radio base station 130A and the second radio base station 130B. To detect. The SAE GW 100 specifies the first radio base station 130A among the first radio base station 130A and the second radio base station 130B as a radio base station that can emit a strong radio wave to the communication terminal 140B. Thereby, SAE GW100 transmits data B4 and B5 to be transmitted to communication terminal 140B toward first radio base station 130A.

  The first additional device 120A receives the data B4 and B5 transmitted from the SAE GW 100. The first additional device 120A detects that the communication terminal 140B can receive data from both the first radio base station 130A and the second radio base station 130B.

  Thereby, the first additional device 120A transmits the data B′4 and B′5 to the first radio base station 130A. The first additional device 120A transmits the data B ″ 4 and B ″ 5 to the second additional device 120B.

  The first additional device 120A may transmit the data B4 and B5 transmitted from the SAE GW 100 to the first radio base station 130A as data B′4 and B′5 as they are. In addition, the first additional device 120A may transmit the data B4 and B5 transmitted from the SAE GW 100 to the second additional device 120B as data B ″ 4 and B ″ 5 as they are.

  Also, the first additional device 120A encodes the data B4 and B5 transmitted from the SAE GW 100, thereby encoding the encoded data B′4 and B′5 and the encoded data B ″ 4, B ″ 5 may be generated. Then, the first additional device 120A may transmit the encoded data B′4 and B′5 to the first radio base station 130A. In addition, the first addition device 120A may transmit the encoded data B ″ 4 and B ″ 5 to the second addition device 120B.

  By the time the transmission timing time calculated by the first additional device 120A or the coordinated transmission control device 110 is reached, the first additional device 120A transmits data B′4 and B′5 to the first radio base station 130A. Further, the second additional device 120B transmits data B ″ 4 and B ″ 5 to the second radio base station 130B.

  The first additional device 120A transmits a transmission timing signal to the first radio base station 130A at the timing when the transmission timing time calculated by the first additional device 120A or the coordinated transmission control device 110 is reached. At the same time, the second additional device 120B transmits a transmission timing signal to the second radio base station 130B.

  Thereby, the first radio base station 130A transmits data B′4 and B′5 to the communication terminal 140B. At the same time, the second radio base station 130B transmits data B ″ 4 and B ″ 5 to the communication terminal 140B.

  The communication terminal 140B receives data B′4, B′5 and data B ″ 4, B ″ 5 from the first radio base station 130A and the second radio base station 130B. The communication terminal 140B reproduces the received data B′4, B′5 and data B ″ 4, B ″ 5 as data B4, B5. The communication terminal 140B may decode the data B4 and B5 from the received data B′4 and B′5 and the data B ″ 4 and B ″ 5. Then, the communication terminal 140B may reproduce the decrypted data B4 and B5.

  When the communication terminal 140B moves in the overlapping area, the SAE GW 100 has the second radio base station 130B out of the first radio base station 130A and the second radio base station 130B stronger than the communication terminal 140B. It is specified as a radio base station that can emit radio waves. The SAE GW 100 H / Os (hands over) the radio base station 130 that performs communication with the communication terminal 140B from the first radio base station 130A to the second radio base station 130B. Thereby, SAE GW100 transmits data B6 and B7 to be transmitted to communication terminal 140B toward second radio base station 130B.

  The second additional device 120B provided on the communication path between the SAE GW 100 and the second radio base station 130B receives the data B6 and B7 transmitted from the SAE GW 100. The second additional device 120B detects that the communication terminal 140B can receive data from both the first radio base station 130A and the second radio base station 130B.

  As a result, the second addition device 120B transmits the data B′6 and B′7 to the first addition device 120A. Further, the second additional device 120B transmits data B ″ 6 and B ″ 7 to the second radio base station 130B.

  The second additional device 120B may transmit the data B6 and B7 transmitted from the SAE GW 100 to the first additional device 120A as data B′6 and B′7 as they are. Further, the second additional device 120B may transmit the data B6 and B7 transmitted from the SAE GW 100 to the second radio base station 130B as data B ″ 6 and B ″ 7 as they are.

  The second additional device 120B encodes the data B6 and B7 transmitted from the SAE GW 100, thereby encoding the encoded data B′6 and B′7 and the encoded data B ″ 6, B ″ 7 may be generated. Then, the second addition device 120B may transmit the encoded data B′6 and B′7 to the first addition device 120A. In addition, the first additional device 120A may transmit the encoded data B ″ 6 and B ″ 7 to the second radio base station 130B.

  By the time the transmission timing time calculated by the first additional device 120A or the coordinated transmission control device 110 is reached, the first additional device 120A transmits data B′6 and B′7 to the first radio base station 130A. Further, the second additional device 120B transmits data B ″ 6 and B ″ 7 to the second radio base station 130B.

  The first additional device 120A transmits a transmission timing signal to the first radio base station 130A at the timing when the transmission timing time calculated by the first additional device 120A or the coordinated transmission control device 110 is reached. At the same time, the second additional device 120B transmits a transmission timing signal to the second radio base station 130B.

  Thereby, the first radio base station 130A transmits data B′6 and B′7 to the communication terminal 140B. At the same time, the second radio base station 130B transmits data B ″ 6 and B ″ 7 to the communication terminal 140B.

  The communication terminal 140B receives data B′6, B′7 and data B ″ 6, B ″ 7 from the first radio base station 130A and the second radio base station 130B. The communication terminal 140B reproduces the received data B′6, B′7 and data B ″ 6, B ″ 7 as data B6, B7. The communication terminal 140B may decode the data B6 and B7 from the received data B′6 and B′7 and the data B ″ 6 and B ″ 7. Then, the communication terminal 140B may reproduce the decrypted data B4 and B5.

  When the communication terminal 140B moves from the overlapping area to the second base station area 135B, the SAE GW 100 detects that the communication terminal 140B can receive data from the second radio base station 130B. As a result, the SAE GW 100 transmits data B8 and B9 to be transmitted to the communication terminal 140B toward the second radio base station 130B.

  The second additional device 120B receives the data B8 and B9 transmitted from the SAE GW 100. The second additional device 120B detects that the communication terminal 140B can receive data from the second radio base station 130B. Thereby, the second additional device 120B transmits the data B8, B9 and the transmission timing signal to the second radio base station 130B. As a result, the second radio base station 130B transmits data B8 and B9 to the communication terminal 140B. The communication terminal 140B reproduces the data B8 and B9 received from the second radio base station 130B.

  As described above, according to the communication control system 10 of the present embodiment, data is simultaneously transmitted from the plurality of radio base stations 130 to the communication terminal 140B existing in the overlapping area overlapping the plurality of base station areas 135. be able to. The communication control system 10 can increase the radio field intensity of data received by the communication terminal 140B by making the frequencies of the plurality of data transmitted from the plurality of radio base stations 130 to the communication terminal 140B the same. Further, the communication control system 10 generates a plurality of encoded data, and simultaneously transmits the generated plurality of encoded data from the plurality of radio base stations 130 to the communication terminal 140B, thereby communicating with the communication terminal 140B. A plurality of bands in the route can be used effectively.

  FIG. 8 shows an example of processing by the communication control system 10. The communication terminal 140B existing in the first base station area 135A moves from the first base station area 135A to an overlapping area where the first base station area 135A and the second base station area 135B overlap. T1 illustrated in FIG. 8 indicates timing when the communication terminal 140B moves from the first base station area 135A to the overlapping area.

  In the example illustrated in FIG. 8, the first radio base station 130A includes a first radio transmission unit and two antennas. The second radio base station 130B has two second radio transmission units and two antennas. The first additional device 120A is connected to each of the two first wireless transmission units. The second additional device 120B is connected to each of the two second wireless transmission units.

  When the communication terminal 140B exists in the first base station area 135A, the SAE GW 100 detects that the communication terminal 140B can receive data from the first radio base station 130A. Thereby, SAE GW100 transmits data B1-B3 to be transmitted to communication terminal 140B toward first radio base station 130A.

  The first additional device 120A provided on the communication path between the SAE GW 100 and the first radio base station 130A receives the data B1-B3 transmitted from the SAE GW 100. The first additional device 120A detects that the communication terminal 140B can receive data from the first radio base station 130A.

  Accordingly, the first additional device 120A transmits the data B′1-B′3 to one first wireless transmission unit. The first additional device 120A transmits the data B ″ 1-B ″ 3 to the other first wireless transmission unit.

  The first additional device 120A may transmit the data B1-B3 transmitted from the SAE GW 100 to the first first wireless transmission unit as data B′1-B′3 as it is. Further, the first additional device 120A may transmit the data B1-B transmitted from the SAE GW 100 as it is to the other first wireless transmission unit as data B ″ 1-B ″ 3.

  Further, the first additional device 120A encodes the data B1-B3 transmitted from the SAE GW 100, thereby encoding the encoded data B′1-B′3 and the encoded data B ″ 1-. B ″ 3 may be generated. Then, the first additional device 120A may transmit the encoded data B′1-B′3 to one first wireless transmission unit. In addition, the first additional device 120A may transmit the encoded data B ″ 1-B ″ 3 to the other first wireless transmission unit.

  At the timing when the transmission timing time calculated by the first additional device 120A or the coordinated transmission control device 110 is reached, the first additional device 120A transmits a transmission timing signal to both first wireless transmission units. Thereby, both the 1st radio | wireless transmission parts transmit data B'1-B'3 and data B''1-B''3 to communication terminal 140B simultaneously.

  The communication terminal 140B receives data B′1-B′3 and data B ″ 1-B ″ 3 from both first wireless transmission units. The communication terminal 140B reproduces the received data B′1-B′3 and data B ″ 1-B ″ 3 as data B1-B3. The communication terminal 140B may decode the data B1-B3 from the received data B′1-B′3 and data B ″ 1-B ″ 3. Then, the communication terminal 140B may reproduce the decrypted data B1-B3.

  When the communication terminal 140B moves from the first base station area 135A to the overlapping area, the SAE GW 100 can receive data from both the first radio base station 130A and the second radio base station 130B. To detect. The SAE GW 100 specifies the first radio base station 130A among the first radio base station 130A and the second radio base station 130B as a radio base station that can emit a strong radio wave to the communication terminal 140B. Thereby, SAE GW100 transmits data B4 and B5 to be transmitted to communication terminal 140B toward first radio base station 130A.

  The first additional device 120A receives the data B4 and B5 transmitted from the SAE GW 100. The first additional device 120A detects that the communication terminal 140B can receive data from both the first radio base station 130A and the second radio base station 130B.

  Accordingly, the first additional device 120A transmits the data B′4 and B′5 to one of the first wireless transmission units. The first additional device 120A transmits the data B ″ 4 and B ″ 5 to the other first wireless transmission unit. At the same time, the first additional device 120A transmits data B′4, B′5 and data B ″ 4, B ″ 5 to the second additional device 120B.

  The first additional device 120A may transmit the data B4 and B5 transmitted from the SAE GW 100 to the first first wireless transmission unit and the second additional device 120B as data B′4 and B′5 as they are. Further, the first additional device 120A transmits the data B4 and B5 transmitted from the SAE GW 100 as data B ″ 4 and B ″ 5 to the other first wireless transmission unit and the second additional device 120B. May be.

  Also, the first additional device 120A encodes the data B4 and B5 transmitted from the SAE GW 100, thereby encoding the encoded data B′4 and B′5 and the encoded data B ″ 4, B ″ 5 may be generated. Then, the first addition device 120A may transmit the encoded data B′4 and B′5 to one of the first wireless transmission unit and the second addition device 120B. In addition, the first addition device 120A may transmit the encoded data B ″ 4 and B ″ 5 to the other first wireless transmission unit and the second addition device 120B.

  By the time the transmission timing time calculated by the first additional device 120A or the coordinated transmission control device 110 is reached, the second additional device 120B transmits the data B′4 and B′5 to one of the second wireless transmission units. Further, the second additional device 120B transmits the data B ″ 4 and B ″ 5 to the other second wireless transmission unit.

  At the timing when the transmission timing time calculated by the first additional device 120A or the coordinated transmission control device 110 is reached, the first additional device 120A transmits a transmission timing signal to both first wireless transmission units. At the same time, the second additional device 120B transmits the transmission timing signal to both the second wireless transmission units. Thereby, both the 1st radio | wireless transmission parts and both the 2nd radio | wireless transmission parts transmit data B "4, B'5 and data B" 4, B "5 to the communication terminal 140B simultaneously.

  The communication terminal 140B receives data B ″ 4, B′5 and data B ″ 4, B ″ 5 from both first wireless transmission units and both second wireless transmission units. The communication terminal 140B reproduces the received data B′4, B′5 and data B ″ 4, B ″ 5 as data B4, B5. The communication terminal 140B may decode the data B4 and B5 from the received data B′4 and B′5 and the data B ″ 4 and B ″ 5. Then, the communication terminal 140B may reproduce the decrypted data B4 and B5.

  Thus, according to the communication control system 10 of the present embodiment, data can be transmitted simultaneously from a plurality of wireless transmission units to the communication terminal 140B. The communication control system 10 can increase the radio field intensity of data received by the communication terminal 140B by making the frequencies of the plurality of data transmitted from the plurality of wireless transmission units to the communication terminal 140B the same. In addition, the communication control system 10 generates a plurality of encoded data, and simultaneously transmits the generated plurality of encoded data from a plurality of wireless transmission units to the communication terminal 140B, thereby communicating with the communication terminal 140B. A plurality of bands in can be used effectively.

  FIG. 9 shows an example of the radio field intensity of data transmitted to the communication terminal 140. FIG. 9A shows the radio field intensity of data when either the first radio base station 130A or the second radio base station 130B transmits data to the communication terminal 140. In FIG. 9A, even if the communication terminal 140 exists in an overlapping area where the first base station area 135A and the second base station area 135B overlap, the first radio base station 130A or the second radio base station Either one of the base stations 130B transmits data. For this reason, the communication terminal 140 receives data with low radio field intensity transmitted from either the first radio base station 130A or the second radio base station 130B.

  On the other hand, FIG. 9B shows the radio field intensity of data when both the first radio base station 130A and the second radio base station 130B transmit data to the communication terminal 140 at the same time. In FIG. 9B, when the communication terminal 140 exists in an overlapping area where the first base station area 135A and the second base station area 135B overlap, the first radio base station 130A and the second radio base station 130B Both transmit data simultaneously. For this reason, the communication terminal 140 can receive data with strong radio field intensity transmitted from both the first radio base station 130A and the second radio base station 130B.

  The communication control system 10 increases the radio field intensity of the data in the overlapping area by setting the radio wave of the data transmitted by the first radio base station 130A and the radio wave of the data transmitted by the second radio base station 130B to the same frequency. be able to. Further, the communication control system 10 allows each of the communication terminals 140 even if the radio wave of the data transmitted by the first radio base station 130A and the radio wave of the data transmitted by the second radio base station 130B have different frequencies. By providing an antenna capable of detecting a radio wave having a frequency, communication data propagation paths can be multiplexed.

  FIG. 10 shows an example of the hardware configuration of the cooperative transmission control device 110 and the additional device 120. Note that the coordinated transmission control device 110 has a hardware configuration similar to that of the additional device 120. For this reason, description of the hardware configuration of the cooperative transmission control apparatus 110 is omitted.

  The additional device 120 includes a CPU peripheral unit having a CPU 1505, a RAM 1520, a graphic controller 1575, and a display device 1580 that are connected to each other by a host controller 1582. Further, the additional device 120 includes an input / output unit having a communication I / F 1530, a hard disk drive 1540, and a CD-ROM drive 1560 connected to the host controller 1582 by an I / O (input / output) controller 1584. Further, the additional device 120 includes a legacy input / output unit having a ROM 1510 connected to an I / O controller 1584, an FD (flexible disk) drive 1550, and an I / O (input / output) chip 1570.

  The host controller 1582 connects the RAM 1520 to the CPU 1505 and the graphic controller 1575 that access the RAM 1520 at a high transfer rate. The CPU 1505 operates based on programs stored in the ROM 1510 and the RAM 1520 to control each unit. The graphic controller 1575 acquires image data generated by the CPU 1505 or the like on a frame buffer provided in the RAM 1520 and displays the image data on the display device 1580. Alternatively, the graphic controller 1575 may include a frame buffer that stores image data generated by the CPU 1505 or the like.

  The I / O controller 1584 connects the host controller 1582 to the communication I / F 1530, the hard disk drive 1540, and the CD-ROM drive 1560, which are relatively high-speed input / output devices. The communication I / F 1530 communicates with an external 1598 via a network. The hard disk drive 1540 stores programs and data used by the CPU 1505. The CD-ROM drive 1560 reads a program or data from the CD-ROM 1595 and provides it to the hard disk drive 1540 via the RAM 1520.

  The I / O controller 1584 is connected to the ROM 1510, the FD drive 1550, and the relatively low-speed input / output device of the I / O chip 1570. The ROM 1510 stores a boot program executed by the CPU 1505 when the additional device 120 is activated, a program depending on the hardware of the additional device 120, and the like. The FD drive 1550 reads a program or data from the flexible disk 1590 and provides it to the hard disk drive 1540 via the RAM 1520. The I / O chip 1570 connects various input / output devices via the FD drive 1550, for example, a parallel port, a serial port, a keyboard port, a mouse port, and the like.

  A program provided to the hard disk drive 1540 via the RAM 1520 is stored in a recording medium such as the flexible disk 1590, the CD-ROM 1595, or an IC card and provided by the user. The program is read from the recording medium, installed in the hard disk drive 1540 in the additional device 120 via the RAM 1520, and executed by the CPU 1505. The program installed and executed in the additional device 120 works on the CPU 1505 or the like to cause the additional device 120 to function as each unit 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 an example of a communication control system according to an embodiment. The function structural example of 120 A of 1st addition apparatuses which concern on embodiment is shown. The other example of the communication control system which concerns on embodiment is shown. Another functional configuration example of the first additional device 120A according to the embodiment is shown. The function structural example of the cooperative transmission control apparatus 110 which concerns on embodiment is shown. An example of the process by the communication control system 10 is shown. Another example of processing by the communication control system 10 is shown. Another example of processing by the communication control system 10 is shown. An example of the radio field intensity of the data transmitted to the communication terminal 140 is shown. An example of the hardware configuration of the cooperative transmission control device 110 and the additional device 120 is shown.

Explanation of symbols

10 Communication control system 100 SAE GW
115 terminal movement information 120A first additional device 120B second additional device 130A first radio base station 130B second radio base station 135A first base station area 135B second base station area 140A communication terminal 140B communication terminal 140C communication terminal 202 data reception Unit 204 data transmission unit 206 encoded data generation unit 208 transmission availability determination unit 210 transmission method determination unit 212 transmission delay time measurement unit 214 transmission timing calculation unit 216 external clock reception unit 218 high-precision time synchronization unit 220 synchronization control unit 222 network I / F
224 Network I / F
226 I / F for synchronization
402 Transmission timing supply unit 506 Transmission delay time measurement unit 508 External clock reception unit 510 High-precision time synchronization unit 512 Transmission timing calculation unit 514 Synchronization control unit 516 Network I / F
1505 CPU
1510 ROM
1520 RAM
1530 Communication I / F
1540 Hard disk drive 1550 FD drive 1560 CD-ROM drive 1570 I / O chip 1575 Graphic controller 1580 Display device 1582 Host controller 1584 I / O controller 1590 Flexible disk 1595 CD-ROM
1598 External

Claims (8)

A first data receiving unit for receiving data to be transmitted to the communication terminal from the gateway ;
The data is transmitted to the communication terminal using one of a first wireless transmission unit and a second wireless transmission unit, or the data is communicated using both the first wireless transmission unit and the second wireless transmission unit. A first transmission method determination unit for determining whether to transmit to a terminal;
When it is determined to transmit the data to the communication terminal using both the first wireless transmission unit and the second wireless transmission unit, the first wireless transmission unit and the second wireless transmission unit A first synchronization control unit for simultaneously transmitting information indicating the data to the communication terminal;
A first additional device connected to the first wireless transmission unit;
A second data receiving unit for receiving data to be transmitted to the communication terminal from the gateway;
The data is transmitted to the communication terminal using one of the first wireless transmission unit and the second wireless transmission unit, or the data is transmitted using both the first wireless transmission unit and the second wireless transmission unit. A second transmission method determination unit for determining whether to transmit to the communication terminal;
When it is determined to transmit the data to the communication terminal using both the first wireless transmission unit and the second wireless transmission unit, the first wireless transmission unit and the second wireless transmission unit A second synchronization control unit for simultaneously transmitting information indicating the data to the communication terminal;
And a second additional device connected to the second wireless transmission unit,
With
When the first synchronization control unit is determined to transmit the data to the communication terminal using both the first wireless transmission unit and the second wireless transmission unit, the first synchronization control unit transmits information indicating the data to the communication terminal. Transmitting to the first wireless transmission unit and the second additional device, the information indicating the data is simultaneously transmitted from the first wireless transmission unit and the second wireless transmission unit to the communication terminal,
The specification of the input / output interface of the first additional device is the same as the specification of the input / output interface used for connection between the gateway and the first wireless transmission unit,
The specification of the input / output interface of the second additional device is the same as the specification of the input / output interface used for connection between the gateway and the second wireless transmission unit . It said first additional device further comprises a transmission determining unit for each of the first wireless transmission unit and the second radio transmission unit determines whether the data can be transmitted state to the communication terminal,
The first transmission method determination unit transmits the data to the communication terminal using one of the first wireless transmission unit and the second wireless transmission unit based on a determination result of the transmission permission determination unit, The communication control system according to claim 1, wherein it is determined whether to transmit the data to the communication terminal using both the first wireless transmission unit and the second wireless transmission unit. When it is determined that the first additional device transmits the data to the communication terminal using both the first wireless transmission unit and the second wireless transmission unit, the first wireless transmission unit and the first wireless transmission unit further comprising a data transmission unit that transmits the data to both the second wireless transmission unit,
The communication control system according to claim 2, wherein the first synchronization control unit causes the first wireless transmission unit and the second wireless transmission unit to simultaneously transmit the data to the communication terminal. The first additional device includes:
When it is determined to transmit the data to the communication terminal using both the first wireless transmission unit and the second wireless transmission unit, the data is encoded and the first encoded data and the second code are encoded. An encoded data generation unit for generating encoded data;
It said first transmitting said first encoded data to the radio transmitting unit further includes a data transmitting unit that transmits the second encoded data to the second wireless transmission unit,
The first synchronization control unit causes the first encoded data and the second encoded data to be transmitted simultaneously from the first wireless transmission unit and the second wireless transmission unit to the communication terminal. The communication control system described. If the first transmit method determining unit has the data using both of the first wireless transmission unit and the second radio transmission unit determines to transmit to the communication terminal,
The first synchronization control unit adds the information indicating the transmission timing of the information indicating the data, transmitted to the second additional device, to the communication terminal from the first wireless transmission unit, the data Is transmitted at the transmission timing,
The second synchronization control unit, one from the second radio transmission unit to the communication terminal, the first information indicating the data received from the additional apparatus of claims 1 to be transmitted to the transmission timing 4 the communication control system according to any one of claims. The first additional device includes:
A transmission delay time measuring unit for measuring a transmission delay time from the first additional device to the second additional device;
On the basis of the transmission delay time, the first wireless transmission unit and the second wireless transmitting unit, according to claim further comprising a transmission timing calculation unit that calculates the transmission timing information can be transmitted simultaneously indicating the data 5 The communication control system described in 1. A program for causing a computer to function as the communication control system according to any one of claims 1 to 6. A first data receiving stage in which a first additional device connected to the gateway and the first wireless transmission unit receives data to be transmitted to the communication terminal from the gateway ;
The first additional device transmits the data to the communication terminal using one of the first wireless transmission unit and the second wireless transmission unit, or both the first wireless transmission unit and the second wireless transmission unit A first transmission method determination step for determining whether to transmit the data to the communication terminal using
When it is determined that the first additional device transmits the data to the communication terminal using both the first wireless transmission unit and the second wireless transmission unit, the first wireless transmission unit and the first wireless transmission unit A first synchronization control step of simultaneously transmitting information indicating the data from the second wireless transmission unit to the communication terminal ;
A second data receiving step in which a second additional device connected to the gateway and the second wireless transmission unit receives data to be transmitted to the communication terminal from the gateway;
The second additional device transmits the data to the communication terminal using one of the first radio transmission unit and the second radio transmission unit, or the first addition unit and the second radio transmission unit A second transmission method determining step for determining whether to transmit the data to the communication terminal using both;
When it is determined that the second additional device transmits the data to the communication terminal using both the first wireless transmission unit and the second wireless transmission unit, the first wireless transmission unit and the second wireless transmission unit A second synchronization control step of simultaneously transmitting information indicating the data from the second wireless transmission unit to the communication terminal;
With
In the first synchronization control step, when it is determined to transmit the data to the communication terminal using both the first wireless transmission unit and the second wireless transmission unit, information indicating the data is Transmitting to the first wireless transmission unit and the second additional device, the information indicating the data is simultaneously transmitted from the first wireless transmission unit and the second wireless transmission unit to the communication terminal,
The specification of the input / output interface of the first additional device is the same as the specification of the input / output interface used for connection between the gateway and the first wireless transmission unit,
The communication control method , wherein the specification of the input / output interface of the second additional device is the same as the specification of the input / output interface used for connection between the gateway and the second wireless transmission unit .

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