JP2014232934A - Communication system, communication device, upper-level device and communication control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allocate a time slot pair for use for a TCH to a communication device by an upper-level device, in consideration of a time slot pair used by another upper-level device as a CCH.SOLUTION: A communication system 10 adopting a TDMA/TDD method includes an upper-level device 30 and a communication device 20 for relaying data transmitted and received between the upper-level device 30 and a communication terminal 40. The communication device 20 generates and transmits communication control information used by the upper-level device 30 for communication control with the self-communication device 20. At the transmission, the communication device 20 generates a time slot included in a communication frame in which a control signal is transmitted from a peripheral upper-level device 30 and communication control information based on information related to the radio field intensity of the control signal, so as to transmit the communication control information to an upper-level device 30 having the strongest radio field intensity.

Description

  The present invention relates to a communication system, a communication device, a host device, and a communication control method.

  A communication device that relays data wirelessly may be installed in a place where a radio signal from a base station is difficult to reach or a place where a large amount of cost is required for laying a wired line when the base station is installed. In this communication apparatus, there are a relay station that relays data transmitted and received between an adjacent base station and a communication terminal, and a base station that is connected to an upper network by a wireless backhaul (for example, see Patent Document 1). .)

  The above-described communication device wirelessly connects to a host device such as a base station using wireless resources. For example, in a communication system that employs a TDMA / TDD PHS, the communication apparatus performs control such that the upper apparatus transmits and receives control signals among four time slot pairs included in a communication frame used for wireless communication with the upper apparatus. Any one of three time slot pairs other than the time slot pair used for the channel (CCH) is used for the communication channel (TCH), and wireless communication is performed with the host device.

JP 2001-298399 A

  However, if a communication device uses a time slot pair having the same timing as a time slot pair used as a CCH by a higher-level device 1 as a TCH with another higher-level device 2, the communication device A connection request cannot be transmitted to the device 1. This is because the communication apparatus must make a connection request to the upper apparatus 1 using (upstream) time slots included in the time slot pair used by the upper apparatus 1 as CCH. Therefore, a communication device that cannot make a connection request to the higher-level device 1 cannot wirelessly connect to the higher-level device 1.

  Therefore, a host device that allocates a time slot pair to be used for TCH to a communication device that can be wirelessly connected to a plurality of host devices is assigned a time slot pair in consideration of a time slot pair that another host device uses for CCH. It is hoped that

  In view of such a problem, the present invention enables a higher-level device to assign a time slot pair used by a communication device for a TCH in consideration of a time slot pair used by another higher-level device for a CCH. It is an object of the present invention to provide a communication system, a communication device, a host device, and a communication control method.

  In order to solve the above-described problem, a typical configuration of the present invention is a TDMA / TDD including a host device and a communication device that relays data transmitted and received between the host device and a communication terminal. A communication system adopting a method, wherein the communication device generates a first communication unit that performs wireless communication with the host device, and communication control information that the host device uses for communication control with the host device, A first control unit that transmits the communication control information via the first communication unit, and the first control unit includes a time slot in which a control signal is transmitted from a surrounding host device, The communication control information based on information related to the radio field intensity of the control signal is generated, and the communication control information is transmitted to a host device having the highest radio field intensity.

  In addition, the upper device performs communication control on the communication device using a second communication unit that performs wireless communication with the communication device, and the communication control information received via the second communication unit. Two control units.

  In addition, the first control unit ranks the time slot pairs included in the communication frame based on information on a time slot in which a control signal is transmitted from the host device and a radio wave intensity of the control signal. The ranking result may be generated as the communication control information.

  Further, the second control unit may determine a time slot pair for performing data communication with the communication device based on the ranking result indicated by the communication control information transmitted from the communication device. .

  In addition, the first control unit uses the number of host devices that transmit control signals in each time slot included in the communication frame and a value indicating the radio field intensity of the control signals transmitted by the host devices, Ranking may be performed.

  In order to solve the above-described problem, another configuration according to the present invention includes a TDMA / TDD including a host device and a communication device that relays data transmitted and received between the host device and a communication terminal. A communication unit that employs a communication system, wherein a communication unit that performs wireless communication with the host device, and communication control information that the host device uses for communication control with the host device are generated, and the communication unit A control unit that transmits the communication control information, and the control unit is configured to control the communication control information based on information related to a time slot in which a control signal is transmitted from a surrounding host device and a radio wave intensity of the control signal. And the communication control information is transmitted to the host device having the highest radio field intensity.

  In order to solve the above-described problem, another configuration according to the present invention includes a TDMA / TDD including a host device and a communication device that relays data transmitted and received between the host device and a communication terminal. A higher-level device of a communication system that employs a communication method, a communication unit that performs wireless communication with the communication device, and a control unit that performs communication control on the communication device using communication control information received via the communication unit And the communication control information is generated based on information related to a time slot in which a control signal is transmitted from a host device around the communication device and a radio wave intensity of the control signal. It is transmitted to the host device with the highest radio field intensity.

  In order to solve the above-described problem, another configuration according to the present invention includes a TDMA / TDD including a host device and a communication device that relays data transmitted and received between the host device and a communication terminal. A communication control method for a communication system employing a method, wherein the communication device generates communication control information used by the host device for communication control with the own device, and transmits the communication control information. In the step, the communication control information is generated based on information on a time slot included in a communication frame in which a control signal is transmitted from a surrounding host device and a radio wave intensity of the control signal, and the communication control information is , And transmitted to the host device having the highest radio field intensity.

  According to the present invention, the host device assigns the time slot pair used for the TCH to the communication device in consideration of the time slot pair used by the other host device as the CCH. Can be improved.

It is the figure which showed the schematic structure of the communication system which concerns on this embodiment. It is the block diagram which showed the schematic structure of the communication apparatus which concerns on this embodiment. It is the flowchart which showed the process of the communication apparatus which concerns on this embodiment. It is a figure explaining the process of the communication apparatus which concerns on this embodiment. It is the flowchart which showed the process of the communication apparatus which concerns on this embodiment. It is the block diagram which showed the schematic structure of the high-order apparatus which concerns on this embodiment. It is the flowchart which showed the process of the high-order apparatus which concerns on this embodiment. It is a figure explaining the process of the high-order apparatus which concerns on this embodiment. It is the flowchart which showed the process of the high-order apparatus which concerns on this embodiment.

  Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

  FIG. 1A is a diagram showing a configuration of a communication system according to an embodiment of the present invention. The communication system 10 includes a communication device 20, a host device 30, and a communication terminal 40.

  The communication system 10 is a communication system that employs a TDMA / TDD PHS. The communication device 20, the host device 30, and the communication terminal 40 in the communication system 10 perform wireless communication using a time slot pair included in a communication frame shown in FIG. This time slot pair includes an upstream uplink time slot in which data is transmitted from the communication terminal 40 in the direction of the host device 30 and a downstream downlink time slot in which data is transmitted from the host device 30 in the direction of the communication terminal 40. It is associated in advance. Here, in FIG. 1B, four time slot pairs are formed in the communication frame. As shown in FIG. 1B, numbers 1 to 4 are assigned to each time slot pair in the communication frame. The communication device 20 transmits / receives a control signal using any time slot pair of a communication frame used for wireless communication with the higher-level device 30 as a CCH, and wirelessly connects to any higher-level device 30. Any other time slot pair is used as a TCH to relay data transmitted and received between the host device 30 and the communication terminal 40 wirelessly connected to the own device. The host device 30 transmits / receives a control signal using any time slot pair of a communication frame used for wireless communication with the communication device 20 or the communication terminal 40 as a CCH, and wirelessly connects to the own device. Data transmission / reception with the communication device 30 or the communication terminal 40 is performed using any other time slot pair for the TCH.

  FIG. 2 is a diagram illustrating a configuration of the communication apparatus according to the present embodiment. As illustrated in FIG. 2, the communication device 20 includes a first communication unit 21, a second communication unit 22, a radio wave intensity measurement unit 23, a storage unit 24, and a control unit 25.

  The first communication unit 21 receives the downlink radio signal transmitted from the higher-level device 30 via an antenna (not shown), converts it into a baseband signal (down-conversion), and then performs demodulation and decoding processing to obtain data. The first communication unit 21 outputs the obtained data to the control unit 25.

  The first communication unit 21 performs coding and modulation of data from the control unit 25 to obtain a baseband signal, and then converts (upconverts) the baseband signal into an uplink radio signal. The first communication unit 21 transmits an uplink radio signal to the host device 30 via an antenna (not shown).

  The second communication unit 22 receives the uplink radio signal transmitted from the communication terminal 40 via an antenna (not shown), converts it into a baseband signal (down-conversion), and obtains data by performing demodulation and decoding processing. The second communication unit 22 outputs the obtained data to the control unit 25.

  The second communication unit 22 performs coding and modulation of data from the control unit 25 to obtain a baseband signal, and then converts (upconverts) the baseband signal into a downlink radio signal. The second communication unit 22 transmits a downlink radio signal to the communication terminal 40 via an antenna (not shown).

  The radio wave intensity measuring unit 23 measures the radio wave intensity of the control signal received from each host device 30 received by the first communication unit 21. As the radio field intensity to be measured, for example, there is a received signal strength indication (RSSI). Then, the radio wave intensity measurement unit 23 outputs a value indicating the radio wave intensity as a measurement result to the control unit 25.

  The storage unit 24 is configured by a memory, for example, and stores various types of information used for control and the like in the communication device 20. Here, the information stored in the storage unit 24 includes a search result list described later.

  The control part 25 is comprised by CPU, for example, and controls the various functions with which the communication apparatus 20 is provided. The control unit 25 transmits data received from the higher-level device 30 via the first communication unit 21 to the communication terminal 40 via the second communication unit 22, while from the communication terminal 40 via the second communication unit 22. A relay operation is performed in which the received data is transmitted to the host device 30 via the first communication unit 21. At this time, the control unit 25 uses the time slot pair assigned to the higher-level device 30 for the TCH in the communication frame used for wireless communication with the higher-level device 30 for data transmission / reception with the higher-level device 30. And do it. In addition, the control unit 25 performs data transmission / reception with the communication terminal 40 by using the time slot pair assigned by the control unit 25 for the TCH in a communication frame used for wireless communication with the communication terminal 40. .

  The control unit 25 selects the host device 30 to be a wireless connection destination when performing the above-described relay operation. And the control part 25 produces | generates the communication control information which the selected high-order apparatus 30 uses for a communication process with the own communication apparatus 20, and the high-order apparatus which selected the produced | generated communication control information via the 1st communication part 21 30. Thereafter, when the control unit 25 receives a wireless connection request from the communication terminal 40 via the second communication unit 22, the control unit 25 sends a wireless connection request to the higher-level device 30 selected as the wireless connection destination via the first communication unit 21. Send. Hereinafter, details of the processing related to the communication processing in the control unit 25 will be described with reference to FIGS.

  FIG. 3 is a flowchart illustrating processing until the control unit 25 of the communication device 20 selects the higher-level device 30 that is a wireless connection destination and transmits communication control information to the selected higher-level device 30.

  In step S <b> 101, the control unit 25 identifies the higher-level device 30 that exists in the vicinity. The control unit 25 receives a control signal transmitted from the host device 30 when specifying the host device 30 existing in the vicinity. In a communication system that employs PHS, the host device 30 transmits a control signal once in one superframe (20 communication frames: 100 ms). Therefore, the control unit 25 performs a search in at least one superframe period, that is, receives a control signal via the first communication unit 21, and refers to an identification ID indicating a transmission source included in the control signal. The host device 30 existing around can be identified. At the same time, the control unit 25 identifies a time slot pair used by the host device 30 for transmission / reception of the control signal from the time slot in which the host device 30 existing in the vicinity transmits the control signal.

  In step S102, the control unit 25 instructs the radio field intensity measurement unit 23 to measure the radio field intensity of the control signal transmitted by the higher-level device 30 existing in the specified surroundings. The received signal strength of the control signals of the surrounding host devices 30 is measured, and the measurement result is output to the control unit 25.

  In step S103, the control unit 25 outputs the radio wave intensity of the control signal output from the radio wave intensity measurement unit 23, the identification ID of the host device 30 that has transmitted the control signal, and the time of the CCH at which the control signal is transmitted. A search result list in which the slot pair (number) is associated with the order determined in accordance with the strength of the radio wave intensity of the control signal is generated, and the generated search result list is stored in the storage unit 24.

  FIG. 4A shows a search result list generated by the control unit 25 and stored in the storage unit 24 in step S103. Here, based on the measurement result of the radio wave intensity in step S102, the rank of the higher-level device 30 with the identification ID having the highest radio wave intensity XXXA02 is set as the first.

  Returning to FIG. In step S104, the control unit 25 selects, as the wireless connection destination, the host device 30 that ranks first in the search result list generated in S103. And the control part 25 produces | generates and transmits communication control information (time slot notification message) with respect to the selected high-order apparatus 30. FIG. At this time, the control unit 25 avoids the assignment to the time slot notification message when the upper device 30 assigns the time slot pair to the own communication device 20 at the time of wireless connection to the upper device 30 selected by the own communication device 20. Including the information indicating the priority order of the time slot pairs to be received. With reference to FIG. 4B, the setting of the priority order of the time slot pairs to avoid assignment in the control unit 25 will be described.

  FIG. 4B shows a table indicating the correspondence between the ranks set in the search result list and the time slot pairs used for the CCH to which the higher rank apparatus 30 transmits the control signal, and the contents of the search result list. And a table showing the priorities of time slot pairs that are determined to be assigned to avoid allocation. First, the control unit 25 excludes the time slot pair used for the CCH by the higher rank apparatus 30 having the first rank in the search result list from the target of setting the priority order of the time slot pair to avoid allocation. . This is because the host device 30 that is ranked first in the search result list is the host device 30 selected as the wireless connection destination by the control unit 25, and therefore the communication device 20 itself uses the time slot pair to be excluded. This is because the control signal must be transmitted and received. Next, the control unit 25 refers to the search result list, identifies the time slot pair to which the most received control signal is transmitted among the time slot pairs included in the communication frame, and prioritizes the identified time slot pair. The ranking is determined to be first. For example, in the table shown in FIG. 4B, since the time slot pair 2 is most used for transmission and reception of control signals, the control unit 25 sets the priority of the time slot pair 2 as the first priority, 4 is determined to be the second priority. When there are a plurality of time slot pairs having the same number of received control signals, the control unit 25 determines the priority order of the time slot pairs used for the CCH by the host device 30 having the higher rank in the search result list. Set higher than And the control part 25 produces | generates the communication control information (time slot notification message) containing the determined priority.

  FIG. 4C shows communication control information (time slot notification message) generated by the control unit 25 in step S104. In this time slot communication message, the message header, the identification ID of the own communication device 20, the number of data, and the number of the time slot pair to avoid allocation are stored in order from the first priority. Here, the above-mentioned number of data indicates the number of time slot pair numbers stored in the time slot notification message (for example, the numbers of the two time slot pairs having the first and second priorities are stored). If it is, the number of data is “2”.) Then, the control unit 25 is ranked first in the search result list of the host device 30 (for example, FIG. 4A) selected as the wireless connection destination in the time slot notification message in the first place in the search result list. It transmits via the 1st communication part 21 with respect to identification ID: XXXA02).

  Next, processing when the communication apparatus 20 receives a wireless connection request from the wireless terminal 40 will be described with reference to FIG. FIG. 5 is a flowchart illustrating processing in the control unit 25 when the communication device 20 receives a wireless connection request from the wireless terminal 40 and wirelessly connects to the higher-level device 30.

  In step S <b> 201, the control unit 25 receives a wireless connection request from the wireless terminal 40 via the second communication unit 22.

  In step S202, the control unit 25 selects the host device 30 that has been ranked first in the search result list generated in S103, which was selected in step S104 of FIG.

  In step S203, the control unit 25 transmits a wireless connection request via the first communication unit 21 to the higher-level device 30 selected in step S202.

  In step S204, the control unit 25 receives a wireless connection response via the first communication unit 21 from the higher-level device 30 that has transmitted the wireless connection request in step S203. The received wireless connection response includes information regarding the time slot pair allocated to the communication device 20 or information indicating that the time slot pair cannot be allocated.

  In step S205, when the time slot pair is assigned, the control unit 25 establishes a wireless connection using the assigned time slot pair (corresponding to step S205 Yes), and ends the process. On the other hand, when the assigned time slot pair is not assigned (corresponding to No in step S205), the control unit 25 proceeds to step S202. Here, the control part 25 will transmit a radio | wireless connection request | requirement via the 1st communication part 21 with respect to the high-order apparatus 30 after the 2nd position of a search result list | wrist, if it transfers to step S202.

  FIG. 6 is a diagram illustrating the configuration of the host device according to the present embodiment. As shown in FIG. 6, the host device 30 includes a communication unit 31, an interface (I / F) unit 32, a storage unit 33, and a control unit 34.

  The communication unit 31 receives the uplink radio signal transmitted from the communication device 20 via an antenna (not shown), converts it to a baseband signal (down-conversion), and then performs demodulation and decoding processing to obtain data. The communication unit 31 outputs the obtained data to the control unit 34.

  In addition, the communication unit 31 encodes and modulates data from the control unit 34 to obtain a baseband signal, and then converts (upconverts) the baseband signal into a downlink radio signal. The communication unit 31 transmits a downlink radio signal to the communication device 20 via an antenna (not shown).

  The I / F unit 32 receives data from the wired network and transmits the data received from the communication device 20 to the network.

  The storage unit 33 is configured by a memory, for example, and stores various types of information used for control and the like in the host device 30. Here, the information stored in the storage unit 33 includes a time slot pair allocation avoidance list.

  The control unit 34 is configured by a CPU, for example, and controls various functions that the host device 30 has. When receiving the wireless connection request from the communication device 20 or the communication terminal 40, the control unit 34 assigns a time slot pair included in the communication frame to the communication device 20 or the communication terminal 40 that has transmitted the wireless connection request. When assigning a time slot pair to the communication device 20, the control unit 34 uses information included in the communication control information (time slot notification message) received from the communication device. Details of this process in the control unit 34 will be described below with reference to FIGS.

  FIG. 7 is a flowchart showing processing when the control unit 34 receives communication control information (time slot notification message) from the communication device 20.

  In step S <b> 301, the control unit 34 receives communication control information (time slot notification message) from the communication device 20.

  In step S302, the control unit 34 stores the identification ID of the communication device 20 that is the transmission source of the message included in the time slot notification message received in step S301 in the time slot pair allocation avoidance list stored in the storage unit 33. It is determined whether or not it exists. If the identification ID exists in the time slot pair assignment avoidance list (corresponding to step S302 Yes), the process proceeds to step S303. If the identification ID does not exist (corresponding to step S302 No), the process proceeds to step S304.

  In step S303, the control unit 34 updates the item associated with the identification ID determined in S302, which is included in the time slot pair allocation avoidance list, to the information included in the time slot notification message received in step S301. Further, the expiration date of the updated information is set and the process is terminated.

  On the other hand, in step S304, the control unit 34 stores and stores the identification ID determined in S302 and the information included in the time slot notification message received in step S301 in association with the time slot pair allocation avoidance list. Set the expiration date of the information and finish the process.

  Here, FIG. 8 shows a time slot pair allocation avoidance list stored in the storage unit 33. In this time slot pair allocation avoidance list, the identification ID of the communication device 20 is associated with the expiration date of the information, the time slot pair whose allocation is to be avoided, and the priority order thereof. Then, when the expiration date expires, the control unit 34 deletes information such as the identification ID of the communication device 20 associated with the expired expiration date.

  Next, a process when the upper apparatus 30 receives a wireless connection request will be described with reference to FIG. FIG. 9 is a flowchart showing processing in the control unit 34 when the upper level apparatus 30 receives a wireless connection request and assigns a time slot pair.

  In step S <b> 401, the control unit 34 receives a wireless connection request via the communication unit 31.

  In step S402, the control unit 34 determines whether or not the transmission source of the wireless connection request received in step S401 is the communication device 20. When the control unit 34 determines that the communication device 20 is the transmission source (corresponding to Yes in step S402), the control unit 34 proceeds to step S403. On the other hand, if it determines with the communication terminal 40 being a transmission source (equivalent to step S402No), it will transfer to step S405.

  In step S403, the control unit 34 determines whether or not the identification ID of the communication device 20 that has transmitted the wireless connection request received in step S401 is an identification ID included in the time slot pair assignment avoidance list stored in the storage unit 33. judge. If the control unit 34 determines that the identification ID is included in the time slot pair allocation avoidance list (corresponding to step S403 Yes), the control unit 34 proceeds to step S404. On the other hand, if it is determined that the ID is not included in the time slot pair allocation avoidance list (corresponding to step S403 No), the process proceeds to step S405.

  In step S404, the control unit 34 refers to the time slot pair assignment avoidance list and performs time slot pair assignment processing for the communication device 20. First, the control unit 34 checks whether there is an empty time slot pair. And the control part 34 judges that it cannot allocate, when an empty time slot pair does not exist. On the other hand, when there is an empty time slot pair, the control unit 34 refers to the time slot pair assignment avoidance list and determines an empty time slot to be assigned.

  For example, the communication device 20 with the identification ID XXXB02 included in the time slot allocation avoidance list shown in FIG. 8 is the transmission source of the wireless connection request received in step S401. At this time, the number of the existing free time slot pair is Suppose that it was 1,3. In this case, the control unit 34 first refers to the time slot pair that is associated with the identification ID of XXXB02 and that is to be prevented from being assigned, and its priority. Here, the first priority is set to time slot pair 2, the second priority is set to time slot pair 1, and the third priority is set to time slot pair 3. Therefore, the control unit 34 determines to assign the empty time slot pair 3 having the lower priority among the empty time slot pairs as the time slot pair used for wireless communication with the communication device 20 having the identification ID XXXB02.

  On the other hand, in step S <b> 405, the control unit 34 performs time slot pair allocation processing for the communication device 20 or the communication terminal 40 that does not include the identification ID in the time slot allocation avoidance list. First, the control unit 34 checks whether there is an empty time slot pair. And the control part 34 judges that it cannot allocate, when an empty time slot pair does not exist. On the other hand, when there is an empty time slot pair, the control unit 34 refers to the time slot pair assignment avoidance list and determines an empty time slot pair to be assigned.

  For example, when a wireless connection request is received in step S401, the time slot allocation avoidance list shown in FIG. 8 is stored in the storage unit 33. At this time, the number of existing free time slot pairs is 1 and 3. Suppose. In this case, the control unit 34 first refers to the time slot pair that is ranked first in the priority order of the time slot pair that is requested to avoid the assignment of each communication device 20 stored in the time slot assignment avoidance list. Here, in the time slot allocation avoidance list, the numbers of the time slot pairs whose priority is set to the first place are 3, 2, and 3. Then, the control unit 34 communicates the empty time slot pair 3 which is the largest number of priorities and is an empty time slot pair with no identification ID included in the time slot allocation avoidance list. The time slot pair is assigned to the device 20 or the communication terminal 40. In addition, regarding the time slot pair allocation, when there are the same number of time slot pairs with the same number set as the priority order, the control unit 34 has the largest number of times set as the second priority order. A time slot pair that is a slot pair and is an empty time slot pair is assigned as a time slot pair for the communication device 20 or the communication terminal 40 whose identification ID is not included in the time slot assignment avoidance list.

  In step S405, when the information to be referred to in the time slot allocation avoidance list is not stored, the control unit 34 sends the communication device 20 or the communication terminal 40 whose identification ID is not included in the time slot allocation avoidance list. On the other hand, time slot pairs are allocated using the conventional method. A detailed description of the conventional assignment of time slot pairs is omitted.

  When the control unit 34 can allocate a time slot pair in step S404 or step S405 (corresponding to step S406 Yes), in step S407, the control unit 34 determines the wireless connection request received in step S401. A wireless connection response including information on the assigned time slot pair is transmitted to the transmission source, and the process ends.

  On the other hand, if the control unit 34 cannot allocate the time slot pair in step S404 or step S404 (corresponding to No in step S406), the control unit 34 also receives the wireless communication received in step S401. A wireless connection response including information indicating that a time slot pair cannot be allocated is transmitted to the connection request transmission source, and the process ends.

  Although the present invention has been described based on the drawings and examples, it should be noted that those skilled in the art can easily make various modifications and corrections based on the present disclosure. Therefore, it should be noted that these variations and modifications are included in the scope of the present invention.

  For example, functions included in each member, each means, each step, etc. can be rearranged so as not to be logically contradictory, and a plurality of means, steps, etc. can be combined or divided into one. Is possible.

  In the above-described embodiment, the wireless device connected to the wired network has been described as a host device. However, the host device is not limited to this, and the communication device described above can also operate as a host device. In this case, the communication device 20 that operates as the host device 30 is performed by the control unit 25 described above based on the communication control information (time slot notification message) generated and transmitted by the other communication device 20. By performing the same process as the process, a time slot pair allocation avoidance list is generated and stored in the storage unit 24. When a wireless connection request is received from another communication device 20 or communication terminal 40, the control unit 34 described above is received. The process similar to the process performed by is performed, and a process of assigning a time slot pair to the other communication device 20 and communication terminal 40 is performed.

DESCRIPTION OF SYMBOLS 10 Communication system, 20 Communication apparatus, 21 1st communication part, 22 2nd communication part, 23 Radio field intensity measurement part, 24,33 Memory | storage part, 25,34 Control part, 30 Host apparatus, 31 Communication part, 32 I / F Part, 40 communication terminal

Claims (8)

A communication system adopting a TDMA / TDD system, comprising a host device and a communication device that relays data transmitted and received between the host device and a communication terminal,
The communication device
A first communication unit that performs wireless communication with the host device;
A first control unit that generates communication control information used by the host device for communication control with the host device, and transmits the communication control information via the first communication unit;
The first controller is
The communication control information is generated based on information on the time slot in which the control signal is transmitted from the surrounding host device and the radio wave intensity of the control signal. Communication system. The host device is
A second communication unit for performing wireless communication with the communication device;
The communication system according to claim 1, further comprising: a second control unit that performs communication control on the communication device using the communication control information received via the second communication unit. The first controller is
Based on the information on the time slot in which the control signal is transmitted from the host device and the radio wave intensity of the control signal, the time slot pairs included in the communication frame are ranked, and the ranking result is the communication control. The communication system according to claim 1 or 2, which is generated as information. The second controller is
The communication system according to claim 3, wherein a time slot pair for performing data communication with the communication device is determined based on the ranking result indicated by the communication control information transmitted from the communication device. The first controller is
5. The ranking is performed using the number of host devices that transmit control signals in each time slot included in a communication frame and a value indicating the radio field intensity of the control signals transmitted by the host devices. The communication system according to 1. A communication device of a communication system adopting a TDMA / TDD system, comprising a host device and a communication device that relays data transmitted and received between the host device and a communication terminal,
A communication unit for performing wireless communication with the host device;
A control unit that generates communication control information used by the host device for communication control with its own device, and transmits the communication control information via the communication unit, and
The controller is
The communication control information is generated based on information on the time slot in which the control signal is transmitted from the surrounding host device and the radio wave intensity of the control signal, and the communication control information is transmitted to the host device having the strongest radio wave intensity. A communication device that transmits. A host device of a communication system adopting a TDMA / TDD system, comprising a host device and a communication device that relays data transmitted and received between the host device and a communication terminal,
A communication unit for performing wireless communication with the communication device;
A control unit that performs communication control for the communication device using communication control information received via the communication unit,
The communication control information is generated based on information on a time slot in which the communication device transmits a control signal from a host device around the communication device and the radio wave intensity of the control signal, and the radio wave intensity is strongest. A host device that is sent to a host device. A communication control method for a communication system adopting a TDMA / TDD system, comprising a host device and a communication device that relays data transmitted and received between the host device and a communication terminal,
The communication device is
The host device generates communication control information used for communication control with its own device, and transmits the communication control information.
In the step,
The communication control information is generated based on information related to a time slot included in a communication frame in which a control signal is transmitted from a surrounding host device and the radio wave intensity of the control signal. A communication control method for transmitting to a strong host device.

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