JP2015070571A - Radio base station device, control method for radio base station device, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To more surely hold information necessary for AP switching by a communication terminal.SOLUTION: A radio base station device 12C includes: a determination part 1611 for determining whether or not the radio base station device 12C is in a communicable state where it is able to communicate with a radio base station device 11C; a request transmission part 1612 for, when it is determined that the radio base station device is in the communicable state by the determination part 1611, transmitting a request signal for requesting control information generated by the radio base station device 11C in accordance with connection establishment with a communication terminal, that is, control information as information necessary for radio communication with the communication terminal; a reception part 1613 for receiving the control information transmitted by the radio base station device 11C in accordance with the request signal; and an establishment part 121C for executing connection establishment with the communication terminal 21 by using the control information received by the reception part 1613.

Description

  The present invention relates to a radio base station apparatus, a radio base station apparatus control method, and a program.

  Conventionally, a WLAN (Wireless Local Area Network) using a wireless communication terminal and a wireless base station apparatus (hereinafter also referred to as an access point or AP (Access Point)) that communicates with the wireless communication terminal via a wireless link has been used. Has been. The wireless communication terminal can communicate with other communication devices (such as a Web server or a mail server) on the network connected to the WLAN via the WLAN.

  An area (hereinafter referred to as a wireless communicable area) in which one wireless base station apparatus can communicate via a wireless communication link (hereinafter also referred to as a communication link) is limited. When a wireless communication terminal is used in a wide space that cannot be covered by only one wireless base station device, a plurality of wireless base station devices are installed. At that time, the wireless communication terminal establishes a communication link with any one of the wireless base station devices. When communication via the communication link cannot be performed for some reason and the wireless communication terminal can establish a communication link with another wireless base station device, the wireless communication terminal Communication can be continued (AP switching) by establishing a communication link with the station apparatus.

  Patent Document 1 discloses a communication control program that enables a wireless communication terminal to switch a wireless base station device that establishes a communication link. According to the technique disclosed in Patent Literature 1, it is possible to perform AP switching of a communication terminal by exchanging control information between a plurality of radio base station apparatuses.

JP 2010-68488 A

  However, the radio base station apparatus is not always operating normally, and may be unable to communicate due to various factors. When the radio base station apparatus cannot communicate, control information cannot be exchanged normally, and as a result, AP switching by the communication terminal is not performed normally.

  The present invention has been made to solve the above-described problem, and an object of the present invention is to provide a radio base station apparatus that more reliably holds information necessary for AP switching by a communication terminal.

  In order to solve the above-described problem, a radio base station apparatus according to an aspect of the present invention includes: When the determination unit determines that the wireless base station device is in the communicable state, control information generated by the counterpart base station device by establishing a connection with a communication terminal, and wireless communication with the communication terminal A request transmission unit that transmits a request signal for requesting control information that is information necessary for the reception, a reception unit that receives the control information transmitted in response to the request signal by the counterpart base station device, and the reception unit And an establishing unit that establishes a connection with the communication terminal using the control information received.

  According to this, when the radio base station apparatus is in a state where it can communicate with the counterpart base station apparatus, it can request the control information necessary for AP switching by the communication terminal to the counterpart base station apparatus and acquire the control information. it can. In particular, since control information is requested when it is determined that communication with a counterpart base station apparatus is possible, control information can be acquired more reliably. Therefore, the radio base station apparatus can more reliably hold information necessary for AP switching by the communication terminal.

  Conventionally, the control information is generated by the counterpart base station apparatus and transmitted to the radio base station apparatus. However, since there is no predetermined timing for transmission, it is natural that the transmitted control information may not reach the radio base station apparatus. On the other hand, according to the present invention, the radio base station apparatus requests the control information when it is determined that the radio base station apparatus can communicate with the counterpart base station apparatus, so that the control information can be acquired more reliably. .

  The determination unit may determine that the radio base station apparatus is in a communicable state when detecting that the radio base station apparatus is in an operating state.

  According to this, the radio base station apparatus requests control information when it is detected that the radio base station apparatus is in operation. Therefore, even when the other base station device is generating and transmitting control information to the wireless base station device when it is not in operation because the power of the wireless base station device has been turned off, The radio base station apparatus can request and acquire control information after it enters an operating state. Therefore, the radio base station apparatus can more reliably hold information necessary for AP switching by the communication terminal.

  Further, the determination unit determines that the wireless base station device is in a communicable state when the communication line is restored after the communication line connecting the wireless base station device and the counterpart base station device is cut off. May be determined.

  According to this, the radio base station apparatus requests control information when detecting that the communication line connecting the radio base station apparatus and the counterpart base station apparatus has been restored. Therefore, even when communication is not possible due to the communication line being interrupted or the like, even if the counterpart base station apparatus generates and transmits control information, control is performed after the communication line is restored. Request and obtain information. Therefore, the radio base station apparatus can more reliably hold information necessary for AP switching by the communication terminal.

  The control information may include key information generated by the partner base station device by establishing a connection with a communication terminal.

  According to this, key information generated by the partner base station device by establishing a connection with the communication terminal, which is information necessary for AP switching by the terminal device, is exchanged between the radio base station device and the partner base station device. be able to.

  The radio base station apparatus may perform communication conforming to the IEEE 802.11r standard, and the control information may be an RRB (Remote Request Broker).

  According to this, the wireless base station device and the counterpart base station device can realize high-speed roaming according to the wireless communication standard IEEE802.11r by exchanging RRB as control information when they can communicate with each other.

  In addition, in order to solve the above problem, a control method for a radio base station apparatus according to an aspect of the present invention determines whether or not the radio base station apparatus is in a communicable state in which communication with a counterpart base station apparatus is possible. Control information generated by the counterpart base station device by establishing a connection with a communication terminal when the determination step determines that the wireless base station device is in the communicable state in the determination step, and the communication terminal A request transmission step for transmitting a request signal for requesting control information necessary for wireless communication with the receiver, a reception step for receiving the control information transmitted in response to the request signal by the counterpart base station device, and the reception And establishing the connection with the communication terminal using the control information received in step as control information in communication between the radio base station apparatus and the communication terminal. .

  Thereby, there exists an effect similar to said radio base station apparatus.

  In order to solve the above problems, a program according to an aspect of the present invention is a program for causing a computer to execute the control method described above.

  Thereby, there exists an effect similar to said radio base station apparatus.

  Note that the present invention can be realized not only as an apparatus but also as a method using steps as processing units constituting the apparatus, as a program for causing a computer to execute the steps, or as a computer read recording the program. It can also be realized as a possible recording medium such as a CD-ROM, or as information, data or a signal indicating the program. These programs, information, data, and signals may be distributed via a communication network such as the Internet.

  According to the present invention, information necessary for AP switching by a communication terminal can be held more reliably.

1 is a network configuration diagram of a radio communication system according to Embodiment 1. FIG. FIG. 2 is a hardware configuration diagram of the radio base station apparatus according to Embodiment 1. FIG. 3 is a functional block diagram of the radio base station apparatus according to Embodiment 1. FIG. 4 is a flowchart of the radio communication system according to the first embodiment. FIG. 5A is a sequence diagram of the radio communication system according to Embodiment 1. FIG. 5B is a detailed sequence diagram of the radio communication system according to Embodiment 1. FIG. 6 is an explanatory diagram of mode switching of the radio base station apparatus according to Embodiment 1. FIG. 7 is a network configuration diagram of the radio communication system according to the second embodiment. FIG. 8A is a first example of a flowchart of the wireless communication system according to the second embodiment. FIG. 8B is an explanatory diagram of received radio wave intensity of the radio base station apparatus according to Embodiment 2. FIG. 9A is a second example of a flowchart of the wireless communication system according to the second embodiment. FIG. 9B is an explanatory diagram of the transfer priority of the radio base station apparatus according to Embodiment 2. FIG. 10 is a network configuration diagram of a radio communication system according to the third embodiment. FIG. 11 is a configuration diagram of a radio base station apparatus according to Embodiment 3. FIG. 12 is a flowchart of the radio communication system according to the third embodiment. FIG. 13 is a sequence diagram of the radio communication system according to the third embodiment. FIG. 14 is a sequence diagram of a wireless communication system according to related technology. FIG. 15 is a functional block diagram of a radio base station apparatus according to Embodiment 4. FIG. 16 is a detailed functional block diagram of the inside of the sharing unit according to the fourth embodiment. FIG. 17A is a first flowchart of the radio base station apparatus according to Embodiment 4. FIG. 17B is a second flowchart of the radio base station apparatus according to Embodiment 4. FIG. 18 is a sequence diagram of the radio communication system according to the fourth embodiment.

(Knowledge that became the basis of the present invention)
As described in the “Background Technology” column, when communication via a communication link cannot be performed for some reason and a wireless communication terminal can establish a communication link with another wireless base station device, The communication terminal can continue communication (AP switching) by establishing a communication link with the other radio base station apparatus. The AP switching is performed, for example, at the time of handover when the wireless communication terminal moves away from the wireless base station device that has established the communication link and approaches another wireless base station device. In addition, when a wireless communication terminal existing in a communicable area of two wireless base station apparatuses establishes a communication link with one wireless base station apparatus, AP switching is also performed when the communication quality of the communication link deteriorates. Is done. In this case, a communication link can be established with the other radio base station apparatus by AP switching. Furthermore, AP switching is also performed when a radio base station apparatus with which a radio communication terminal has established a communication link stops due to a failure or when the radio base station apparatus is powered off by a maintenance person.

  Patent Document 1 discloses a communication control program that enables a wireless communication terminal to switch a wireless base station device that establishes a communication link. According to the technique disclosed in Patent Literature 1, it is possible to perform AP switching of a communication terminal by exchanging control information between a plurality of radio base station apparatuses.

  However, the radio base station apparatus does not always operate normally, and may be unable to communicate due to various factors.

  The present invention has been made to solve the above problem, and an object of the present invention is to provide a radio base station apparatus that holds information necessary for AP switching more reliably.

  Hereinafter, embodiments will be specifically described with reference to the drawings.

Each of the embodiments described below shows a preferred specific example of the present invention. The numerical values, shapes, materials, constituent elements, arrangement positions and connecting forms of the constituent elements, steps, order of steps, and the like shown in the following embodiments are merely examples, and are not intended to limit the present invention. In addition, among the constituent elements in the following embodiments, constituent elements that are not described in the independent claims indicating the highest concept of the present invention are described as optional constituent elements that constitute a more preferable embodiment.

  In addition, the same code | symbol is attached | subjected to the same component and description may be abbreviate | omitted.

(Embodiment 1)
In this embodiment, a radio base station apparatus that establishes a communication link with a new radio base station at the time of AP switching that occurs due to a handover, and a radio communication system that includes the radio base station apparatus will be described. .

  FIG. 1 is a network configuration diagram of a wireless communication system 40 according to the present embodiment.

  As shown in FIG. 1, a radio communication system 40 according to the present embodiment includes a radio base station apparatus 11, a radio base station apparatus 12, a LAN (Local Area Network) 31, and a communication terminal 21.

  The radio base station apparatus 11 is a radio base station apparatus (also referred to as a radio base station) having a radio communication interface, establishes a communication link 25 with a communication terminal 21 existing in a radio communicable area, and performs radio communication. Do. Further, the radio base station apparatus 11 is connected to the LAN 31, and transfers the communication frame toward the destination according to the destination of the communication frame (communication packet) used for radio communication. Specifically, the radio base station apparatus 11 receives a communication frame addressed to a terminal on the LAN 31 side (a terminal connected to the LAN 31 or a terminal connected to a network connected to the LAN 31) from the communication terminal 21. Then, the communication frame is transferred to the LAN 31. In addition, when receiving a communication frame destined for the communication terminal 21 from a terminal on the LAN 31 side, the radio base station apparatus 11 transfers the communication frame to the communication terminal 21. Further, the radio base station apparatus 11 shares control information necessary for communication with the communication terminal 21 with the radio base station apparatus 12. Note that the wireless communication is realized by a wireless LAN that conforms to, for example, the IEEE 802.11a, b, g, and n standards.

  The radio base station apparatus 12 is a radio base station apparatus having a radio communication interface, and establishes a communication link 26 with the communication terminal 21 to perform radio communication. Further, the radio base station apparatus 12 shares control information necessary for communication with the communication terminal 21 with the radio base station apparatus 11.

  The LAN 31 is a communication network (local area network) used for communication between the radio base station apparatus 11 and the radio base station apparatus 12. The LAN 31 is realized by, for example, a wired LAN conforming to the IEEE 802.3 standard.

  The communication terminal 21 is a wireless communication terminal having a wireless communication interface. The communication terminal 21 establishes a communication link 25 with the radio base station apparatus 11 or establishes a communication link 26 with the radio base station apparatus 12 to perform radio communication. The communication terminal 21 can communicate with a terminal on the LAN 31 side via the communication link 25 and the radio base station apparatus 11 or the communication link 25 and the radio base station apparatus 12.

  In the present embodiment, first, the communication terminal 21 establishes the communication link 25 with the radio base station apparatus 11 and then establishes the communication link 26 with the radio base station apparatus 12 by handover. A process in this case will be described. According to the radio communication system according to the present embodiment, the no-communication period generated by this handover can be further shortened. The radio base station apparatus that established the communication link before the communication terminal 21 is handed over is the handover source base station, and the radio base station apparatus that established the communication link after the communication terminal 21 is handed over is the handover destination base station, respectively. May be described.

  FIG. 2 is a hardware configuration diagram of radio base station apparatus 11 according to the present embodiment.

  As illustrated in FIG. 2, the radio base station apparatus 11 includes a CPU (Central Processing Unit) 101, a ROM (Read Only Memory) 102, a RAM (Random Access Memory) 103, a storage device 104, and a WNIC (Wireless). A network interface card (NIC) 105 and a network interface card (NIC) 106 are provided. Note that the radio base station apparatus 12 according to the present embodiment has the same hardware configuration as that of the radio base station apparatus 11.

  The CPU 101 is a processor that executes a control program stored in the ROM 102.

  The ROM 102 is a read-only storage area that holds a control program and the like.

  The RAM 103 is a volatile storage area used as a work area used when the CPU 101 executes a control program.

  The storage device 104 is a non-volatile storage area that holds a control program or image data.

  The WNIC 105 is a wireless communication interface that performs wireless communication with the communication terminal 21. The WNIC 105 is a wireless LAN communication interface that conforms to, for example, the IEEE 802.11a, b, g, and n standards.

  The NIC 106 is a communication interface that transmits communication data to the LAN 31 or receives communication data from the LAN 31. The NIC 106 may be a wired LAN interface that conforms to the IEEE 802.3 standard or the like, or may be a wireless LAN interface that conforms to the IEEE 802.11a, b, g, n standard, or the like. The NIC 106 may be realized using the WNIC 105.

  As described above, radio base station apparatus 12 according to the present embodiment has the same hardware configuration as radio base station apparatus 11, and thus detailed description of radio base station apparatus 12 will be omitted.

  FIG. 3 is a functional block diagram of radio base station apparatuses 11 and 12 according to the present embodiment.

  As illustrated in FIG. 3, the radio base station apparatus 11 includes an establishing unit 111, a sharing unit 112, a control unit 113, and a transfer unit 114. The radio base station apparatus 12 includes an establishing unit 121, a sharing unit 122, a control unit 123, and a transfer unit 124. Here, the communication terminal 21 first establishes the communication link 25 with the radio base station apparatus 11, and then establishes the communication link 26 with the radio base station apparatus 12 by handover. Will be described. That is, the radio base station apparatus 11 will be described as a handover source base station, and the radio base station apparatus 12 will be described as a handover destination base station. Of course, it is possible to realize a radio base station apparatus having both functions of the radio base station apparatus 11 and the radio base station apparatus 12.

  The establishment unit 111 generates control information necessary for wireless communication with the communication terminal 21 existing in the wireless communicable area of the wireless base station device 11 through device authentication and connection establishment, thereby communicating with the communication terminal 21. A link 25 (first communication link) is established. Here, the control information necessary for communication with the communication terminal 21 is, for example, a common key necessary for communication between the radio base station apparatus 11 and the communication terminal 21, and is generated dynamically by the device authentication described above. Includes key. Specifically, first, the establishing unit 111 exchanges a predetermined signal with the communication terminal 21 to generate control information including the common key. The generated control information is used for encryption communication performed with the communication terminal 21. In addition to the above-mentioned common key, the control information is created at the time of association, for example, the MAC address of the radio base station apparatus 11, IEEE 802.11 authentication information, key information necessary for WPA used for encryption, and the like And association IDs that are sequentially allocated. Since the communication terminal 21 can perform encrypted communication by holding the control information, the communication terminal 25 may be expressed as having established the communication link 25 with the communication terminal 21. it can. The exchange of signals with the communication terminal 21 before the generation of control information will be described in detail later. The establishing unit 111 is realized by the CPU 101, the ROM 102, the RAM 103, the WNIC 105, and the like. The establishment unit 111 corresponds to a first establishment unit.

  The sharing unit 112 shares the control information generated by the establishing unit 111 with the radio base station apparatus 12. Specifically, the sharing unit 112 shares the control information with the radio base station device 12 by transmitting the control information including the common key generated by the establishing unit 111 to the radio base station device 12 through the LAN 31. The sharing unit 112 is realized by the CPU 101, the ROM 102, the RAM 103, the NIC 106, and the like. The sharing unit 112 corresponds to the first sharing unit.

  The control unit 113 acquires the communication quality in the communication link 25, and transmits a communication control signal to the radio base station apparatus 12 when the acquired communication quality is lower than the predetermined quality. The communication quality is obtained by, for example, the received radio wave intensity of a communication frame received through the communication link 25. Specifically, the control unit 113 acquires the received radio wave intensity of communication in the communication link 25, and when the acquired received radio wave intensity is smaller than a predetermined threshold, the control unit 113 wirelessly transmits a communication control signal including information indicating the communication quality. It transmits to the base station apparatus 12. As the predetermined threshold value, for example, the minimum reception sensitivity defined in the wireless communication standard to be used (for wireless communication standard IEEE802.11a, Minimum sensitivity in the ARIB STD-T71 standard) can be used. When the minimum reception sensitivity varies depending on the transmission rate or the modulation method, a value corresponding to the transmission rate or the modulation method in the communication link 25 may be used as the predetermined threshold value. Note that the communication quality may be obtained by, for example, a frame loss rate or a bit error rate of a communication frame received through the communication link 25. The control unit 113 is realized by the CPU 101, the ROM 102, the RAM 103, the NIC 106, and the like. The control unit 113 corresponds to a first control unit.

  The transfer unit 114 transfers the communication frame transmitted / received to / from the communication terminal 21 through the communication link 25 to the final destination of the communication frame. In addition, the transfer unit 114 has a transfer mode for transferring a communication frame as described above and a stop mode for not transferring a communication frame, and these can be switched under the control of the control unit 113. The transfer unit 114 corresponds to a first transfer unit.

  The sharing unit 122 shares the control information generated by the establishing unit 111 of the radio base station apparatus 11 with the radio base station apparatus 11. Specifically, the sharing unit 122 shares the control information with the radio base station apparatus 11 by receiving the control information transmitted from the radio base station apparatus 11. The sharing unit 122 is realized by a CPU, a ROM, a RAM, a NIC, and the like. The sharing unit 122 corresponds to a second sharing unit.

  The establishing unit 121 establishes the communication link 26 (second communication link) with the communication terminal 21 by holding the control information shared by the sharing unit 122 as control information necessary for communication with the communication terminal 21. That is, the establishing unit 121 holds control information necessary for communication with the communication terminal 21 without exchanging a predetermined signal with the communication terminal 21. When the control unit 123 receives a communication control signal from the radio base station apparatus 11, the communication link 26 with the communication terminal 21 is established using the held control information. The establishing unit 121 is realized by a CPU, ROM, RAM, WNIC, and the like. The establishment unit 121 corresponds to a second establishment unit.

  The control unit 123 receives a communication control signal from the radio base station apparatus 11. And the control part 123 is controlled so that the establishment part 121 establishes the communication link 26 with the communication terminal 21, when the said notification is received. The control unit 123 is realized by a CPU, ROM, RAM, NIC, and the like. The control unit 123 corresponds to a second control unit.

  The transfer unit 124 transfers a communication frame transmitted / received to / from the communication terminal 21 through the communication link 26 to the final destination of the communication frame. In addition, the transfer unit 124 has a transfer mode for transferring a communication frame as described above and a stop mode for not transferring a communication frame, and can be switched under the control of the control unit 123. The transfer unit 124 corresponds to a first transfer unit.

  FIG. 4 is a flowchart of radio communication system 40 according to the present embodiment. FIG. 5A is a sequence diagram of radio communication system 40 according to the present embodiment. FIG. 5B is a detailed sequence diagram of the radio communication system according to the present embodiment. A handover process in radio communication system 40 according to the present embodiment will be described with reference to FIGS. 4, 5A, and 5B. In FIG. 4, FIG. 5A, and FIG. 5B, the communication terminal is described as “STA”, and the radio base station apparatus is described as “AP”. The same description may be used in the subsequent figures.

  First, the communication terminal 21 transmits a connection request to the radio base station apparatus 11 (step S401). Specifically, as illustrated in FIG. 5A, the communication terminal 21 detects a probe request message (Probe-REQ) (hereinafter, simply “probe request”) that is a message for searching for a communicable radio base station device. Send). Here, assuming that the communication terminal 21 and the radio base station apparatus 11 exist in positions where they can communicate with each other, the establishment unit 111 of the radio base station apparatus 11 receives the probe request message transmitted by the communication terminal 21. Then, a probe response message (Probe-RES) (hereinafter, also simply referred to as “probe response”) is transmitted to the communication terminal 21 as the response. The communication terminal 21 receives the probe response from the radio base station apparatus 11 and knows that the radio base station apparatus 11 exists in the radio communicable area.

  Returning to FIG. 4, next, the establishing unit 111 of the radio base station apparatus 11 generates control information necessary for radio communication with the communication terminal 21 by device authentication and connection establishment, so that A communication link 25 is established (step S402). The control information includes at least a common key (PMK (Pairwise Master Key)) used for communication between the radio base station apparatus 11 and the communication terminal 21. Specifically, as illustrated in FIG. 5A, the radio base station apparatus 11 performs communication (authentication or the like) for device authentication and connection establishment with the communication terminal 21. Details of this communication are shown in FIG. 5B. As shown in FIG. 5B, first, the communication terminal 21 transmits an authentication request (Authentication-REQ) to the radio base station apparatus 11, and the radio base station apparatus 11 that has received the authentication request sends an authentication response (Authentication) to the communication terminal 21. -RES) is transmitted (step S4021). In step S4021, device authentication is performed between the radio base station apparatus 11 and the communication terminal 21, and the PMK is shared. Next, the communication terminal 21 transmits a connection request (Association-REQ) to the radio base station apparatus 11, and the radio base station apparatus 11 that has received the connection request transmits a connection response (Association-RES) to the communication terminal 21 ( Step S4022). Connection establishment is performed between the radio base station apparatus 11 and the communication terminal 21 by step S4022. After this, IEEE802.1X authentication communication (step S4023) and a temporary shared key (PTK (Pairwise Transient Key)) used for wireless communication are generated between the communication terminal 21 and the wireless base station device 11. 4-way handshake communication (step S4024) may be performed. Through these communications, the radio base station apparatus 11 establishes a communication link 25 for communications performed with the communication terminal 21 using the PMK.

  Returning to FIG. 4, next, the sharing unit 112 of the radio base station apparatus 11 transmits control information to the sharing unit 122 of the radio base station apparatus 12 (step S403). The sharing unit 122 of the radio base station apparatus 12 receives and holds control information from the radio base station apparatus 11 (step S404). Thereby, control information is shared between the radio base station apparatus 11 and the radio base station apparatus 12. Note that steps S403 and S404 are not necessarily performed after step S402 is completed. Steps S403 and S404 can be executed after the control information is generated in step S402.

  When step S402 is completed, the radio base station apparatus 11 is in a state where it can communicate with the communication terminal 21 on the communication link 25 (step S405).

  Here, the description will be continued assuming that the communication terminal 21 moves away from the radio base station apparatus 11 and moves closer to the radio base station apparatus 12.

  When the communication terminal 21 moves so as to approach the radio base station apparatus 12 (step S406), the radio base station apparatus 11 detects that the communication quality of the communication link 25 is lower than a predetermined quality, and notifies the radio base station apparatus 12 A communication control signal is transmitted (step S407). Specifically, the radio base station apparatus 11 acquires the communication quality in the communication link 25 after establishing the communication link 25 in step S402. The communication quality is obtained by, for example, the received radio wave intensity of a communication frame received through the communication link 25. Further, the communication quality may be acquired from all communication frames received through the communication link 25 or may be acquired every predetermined period. Note that the communication quality may be obtained by, for example, a frame loss rate of a communication frame received through the communication link 25, a bit error rate, or the like.

  The radio base station apparatus 11 transmits a communication control signal to the radio base station apparatus 12 when the acquired received radio wave intensity is smaller than a predetermined threshold.

  When receiving the communication control signal from the radio base station apparatus 11, the radio base station apparatus 12 holds the control information shared by the sharing unit 122 as control information necessary for communication with the communication terminal 21, thereby enabling the communication terminal 21. Is established (step S408). Specifically, the radio base station apparatus 12 establishes the communication link 26 with the communication terminal 21 using the control information received and held by the establishing unit 121 in step S404. At that time, the radio base station apparatus 12 can establish the communication link 26 without performing communication for device authentication and connection establishment with the communication terminal 21 or generation of control information. That is, the radio base station apparatus 12 communicates with the communication terminal 21 without performing the communication in step S402 (more specifically, each step in steps S4021 to S4024) in FIGS. 4, 5A, and 5B. A link 26 can be established. From the viewpoint of the communication terminal 21, wireless communication can be performed using the communication link 26 with the radio base station apparatus 12 in the same manner as using the communication link 25 with the radio base station apparatus 11.

  Through the series of processes described above, the communication terminal 21 can move from a state of communicating with the radio base station apparatus 11 to a state of communicating with the radio base station apparatus 12. The wireless communication system that performs the above processing can further shorten the non-communication period that occurs due to handover. Conventionally, a communication terminal needs communication for establishing device authentication and connection with a new (destination) radio base station apparatus at the time of handover, or processing for establishing a communication link. In the radio base station apparatus according to the present invention, since it is not necessary to perform the above processing, the no-communication period can be further shortened. It is also possible that no communication period occurs at all (set to zero).

  Note that, in the above, there is no limitation on whether or not to continue communication with the radio base station apparatus 11 when the communication terminal 21 shifts to a state of communicating with the radio base station apparatus 12.

  Next, a radio communication system that stops communication between the communication terminal 21 and the radio base station apparatus 11 when the communication terminal 21 shifts to a state in which communication with the radio base station apparatus 12 is performed will be described.

  FIG. 6 is an explanatory diagram of mode switching of the radio base station apparatuses 11 and 12 according to the present embodiment. In FIG. 6, the modes of the radio base station apparatus 11 and the radio base station apparatus 12 are shown so as to advance downward in the drawing as time passes.

  First, consider a state in which the radio base station apparatus 11 (transfer unit 114) is in the transfer mode and the radio base station apparatus 12 (transfer unit 124) is in the stop mode. This state corresponds to the state after the communication link 25 is established in step S402.

  Here, when the radio base station apparatus 11 transmits a communication control signal to the radio base station apparatus 12 in step S407, the radio base station apparatus 11 transits to the stop mode. Further, when the radio base station apparatus 12 receives the communication control signal, the radio base station apparatus 12 transitions to the transfer mode. In this way, the transfer mode and the stop mode can be switched between the radio base station apparatus 11 and the radio base station apparatus 12 with the transmission / reception of the communication control signal as a boundary. The above can also be expressed using the concept of “transfer right”. That is, the wireless base station device in the transfer mode is expressed as having a transfer right. It is expressed that the transfer right is transferred from the radio base station apparatus 11 to the radio base station apparatus 12 by the above processing.

  Through the above processing, the communication terminal 21 can move from the state of communicating only with the radio base station apparatus 11 to the state of communicating only with the radio base station apparatus 12, and the non-communication period generated at that time is the conventional one. It can be shorter than that in the wireless communication system. In addition, it is also possible not to generate the no-communication period that occurs at that time (set to zero).

  As described above, according to the radio communication system according to the present embodiment, the second radio base station communicates using the second communication link established using the control information generated by the first radio base station. Encrypted communication with the terminal can be performed. At this time, since it is not necessary to perform a new device authentication or a process for establishing a new communication link between the second radio base station and the communication terminal, it is possible to suppress the occurrence of a non-communication period. Therefore, the wireless communication system can further shorten the non-communication period that occurs due to handover.

  Further, the first radio base station can control the second radio base station to perform communication with the communication terminal when communication quality in communication between the first radio base station and the communication terminal is deteriorated. . When a communication terminal that initially exists near the first radio base station subsequently moves near the second radio base station, handover control can be performed according to a change in communication quality.

  Further, the radio base station that transfers a communication frame to be transmitted / received to / from the communication terminal at the time of handover can be changed from the first radio base station to the second radio base station. That is, the first radio base station stops transmission and reception of communication frames with the communication terminal that has decided to perform communication with the second radio base station, and the second radio base station communicates with the communication terminal. Transmission / reception of communication frames between them can be started.

  Further, the radio communication system can control the handover of the communication terminal based on the received radio wave intensity of the communication frame transmitted by the communication terminal in the radio base station.

  In addition, the first radio base station and the second radio base station share new control information by transmitting control information directly from the first radio base station to the second radio base station, thereby enabling new device authentication, Or generation | occurrence | production of a no-communication period can be suppressed, without performing the process for establishment of a new communication link.

  Moreover, the wireless communication system can further shorten the non-communication period at the time of handover of the communication terminal by sharing the shared key between the first wireless base station and the second wireless base station.

(Embodiment 2)
In the present embodiment, handover in a radio communication system including three or more radio base station apparatuses will be described. In this radio communication system, there are a plurality of candidates as a handover destination base station of a communication terminal. Note that the same components as those in Embodiment 1 are denoted by the same reference numerals, and detailed description thereof may be omitted.

  FIG. 7 is a network configuration diagram of the wireless communication system 41 according to the present embodiment. As illustrated in FIG. 7, the wireless communication system 41 according to the present embodiment includes wireless base station apparatuses 11 to 19, a LAN (Local Area Network) 31, and a communication terminal 21.

  Each of radio base station apparatuses 11 to 19 has a function equivalent to radio base station apparatus 11 or radio base station apparatus 12 in the first embodiment.

  In the present embodiment, first, the communication terminal 21 establishes the communication link 25 with the radio base station apparatus 11 and then establishes the communication link 26 with the radio base station apparatus 12 by handover. A process in this case will be described. The difference from Embodiment 1 is that there are three or more radio base station apparatuses. Therefore, there are a plurality of candidates in the handover destination base station of the communication terminal 21, and the radio communication system 41 needs to perform a process of determining an appropriate handover destination base station from the plurality of candidates. The determining process includes (1) a method based on received radio wave intensity and (2) a method based on transfer priority.

  First, (1) a method based on received radio wave intensity will be described.

  FIG. 8A is a first example of a flowchart of radio communication system 41 according to the present embodiment.

  In the radio communication system according to the present embodiment, similarly to steps S401 to S406 in FIG. 4, radio base station apparatus 11 broadcasts control information to radio base station apparatuses 12 to 19, and radio base station apparatuses 12 to 19 Receive and hold control information. On the other hand, the communication terminal 21 moves closer to the radio base station apparatus 12 after establishing the communication link 25 with the radio base station apparatus 11.

  Next, each of the radio base station apparatuses 11 to 19 transmits a communication control signal including the received radio wave intensity of the target frame at its own station to a radio base station apparatus (another station) other than its own station (step S801). . Here, each of the radio base station apparatuses 11 to 19 transmits the communication control signal by broadcast transmission or by sequentially executing unicast transmission to each of the other stations.

  As described above, each of the radio base station apparatuses 11 to 19 receives the communication control signal including the received radio wave intensity from the other station (step S802).

  Next, each of the radio base station apparatuses 11 to 19 acquires the received radio wave intensity included in the received communication control signal (step S803), and receives the target frame at its own station from any of the acquired received radio wave intensity. If the radio wave intensity is high (Yes in step S804), a communication link with the communication terminal 21 is established (step S805). In addition, each of the radio base station apparatuses 11 to 19 may switch the transfer unit to the transfer mode in the above case.

  FIG. 8B is an explanatory diagram of the received radio wave intensity of radio base station apparatuses 11, 12, 13 and 19 according to the present embodiment. In FIG. 8B, the horizontal axis indicates the elapsed time, and the vertical axis indicates the received radio wave intensity. A line 811 indicates the received radio wave intensity of the target frame in the radio base station apparatus 11. Similarly, lines 812, 813, and 819 indicate the received radio wave strengths of the target frames in the radio base station apparatuses 12, 13, and 19, respectively.

  When the received radio wave intensity 811 of the target frame in the radio base station apparatus 11 starts to fall below R at the elapsed time T, the radio base station apparatus 11 transmits a communication control signal including the received radio wave intensity of the target frame to its own station. It transmits to other radio base station apparatuses 11-19. Similarly, the radio base station apparatus other than the radio base station apparatus 11 transmits a communication control signal including the received radio wave intensity of the target frame to the radio base station apparatus other than the own station. Thereby, each of the radio base station apparatuses 11 to 19 acquires the received radio wave intensity of the target frame in each of the radio base station apparatuses 11 to 19, and the target frame in the local station is higher than any of the acquired received radio wave intensities. The communication link 26 with the communication terminal 21 is established when the received radio wave intensity is high. That is, in the example of FIG. 8B, the radio base station apparatus 12 has received radio wave strengths 822 (at the elapsed time T) of the target frame received by the local station. And the communication link 26 with the communication terminal 21 is established.

  If there are a plurality of communication terminals, a radio base station apparatus that establishes a communication link is determined for each communication terminal.

  Next, (2) a method based on transfer priority will be described.

  FIG. 9A is a second example of a flowchart of radio communication system 41 according to the present embodiment.

  In the radio communication system according to the present embodiment, as in steps S401 to S406 in FIG. 4, communication terminal 21 establishes communication link 25 with radio base station apparatus 11 and then approaches radio base station apparatus 12. Move to.

  Next, each of the radio base station apparatuses 11 to 19 transmits a communication control signal including the transfer priority of the own station to a radio base station apparatus (another station) other than the own station (step S901).

  As described above, each of the radio base station apparatuses 11 to 19 receives the communication control signal including the transfer priority from the other station (step S902).

  Next, each of the radio base station apparatuses 11 to 19 acquires the transfer priority included in the received communication control signal (step S903), and the transfer priority of the own station is higher than any of the acquired transfer priorities. In the case (Yes in Step S904), a communication link with the communication terminal 21 is established (Step S905). In addition, each of the radio base station apparatuses 11 to 19 may switch the transfer unit to the transfer mode in the above case.

  FIG. 9B is an explanatory diagram of transfer priorities of the radio base station apparatuses 11, 12, 13 and 19 according to the present embodiment. In FIG. 9B, the transfer priority of each radio base station apparatus is shown.

  In the example of FIG. 9B, the radio base station apparatus 12 determines that its own transfer priority (5) is higher than any of the transfer priorities in radio base station apparatuses other than its own station, and A communication link 26 is established.

  If there are a plurality of communication terminals, a radio base station apparatus that establishes a communication link is determined for each communication terminal.

  As described above, according to the wireless communication system according to the present embodiment, when the communication terminal moves, the wireless communication system transmits the wireless base station having the highest received radio wave intensity of the communication frame transmitted by the communication terminal, It can be selected as a handover destination base station. Therefore, the communication terminal can perform stable communication after the handover. Note that there is no need to perform a new device authentication or a process for establishing a new communication link between the handover destination base station and the communication terminal, and the occurrence of a no-communication period can be suppressed. This is the same as the first embodiment.

  Further, the radio communication system can select a radio base station having the highest transfer priority as a handover destination base station when the communication terminal moves. Therefore, the communication terminal can perform stable communication after the handover.

(Embodiment 3)
In this embodiment, an example of a radio communication system including a server that receives various information from a radio base station apparatus and transmits the received information to each radio base station apparatus will be described. The same components as those in Embodiment 1 or 2 are denoted by the same reference numerals, and detailed description may be omitted.

  FIG. 10 is a network configuration diagram of the wireless communication system 42 according to the present embodiment. As shown in FIG. 10, the radio communication system 42 according to the present embodiment includes a radio base station apparatus 11A, a radio base station apparatus 12A, a LAN (Local Area Network) 31, a server 35, and a communication terminal 21. With.

  FIG. 11 is a configuration diagram of radio base station apparatuses 11A and 12A according to the present embodiment. As illustrated in FIG. 11, the radio base station apparatus 11A includes an establishing unit 111, a sharing unit 112A, a control unit 113A, and a transfer unit 114. The radio base station apparatus 12A includes an establishment unit 121, a sharing unit 122A, a control unit 123A, and a transfer unit 124.

  Sharing unit 112A has the same function as sharing unit 112 in the first embodiment. However, sharing unit 112A is different from sharing unit 112 in Embodiment 1 in that the control information is transmitted to server 35 to share the control information with radio base station apparatus 12A.

  Control unit 113A has the same function as control unit 113 in the first embodiment. However, the control unit 113A is different from the control unit 113 in Embodiment 1 in that a communication control signal is transmitted to the radio base station apparatus 12.

  Sharing unit 122A has the same function as sharing unit 122 in the first embodiment. However, sharing unit 122A is different from sharing unit 122 in Embodiment 1 in that the control information is received from server 35 and the control information is shared with radio base station apparatus 11A.

  Control unit 123A has the same function as control unit 123 in the first embodiment. However, the control unit 123A is different from the control unit 123 in the first embodiment in that it receives a communication control signal from the server 35.

  FIG. 12 is a flowchart of the radio communication system 42 according to the present embodiment. FIG. 13 is a sequence diagram of radio communication system 42 according to the present embodiment.

  In the radio communication system 42 according to the present embodiment, the communication terminal 21 establishes the communication link 25 with the radio base station apparatus 11 as in steps S401 and S402 in FIG.

  Next, the sharing unit 112A of the radio base station apparatus 11 transmits control information to the server 35 (step S1201). The server 35 receives the control information transmitted from the radio base station apparatus 11, and transmits the received control information to the radio base station apparatus 12 (step S1202). The sharing unit 122A of the radio base station apparatus 12A receives control information from the server 35 and holds it (step S1203). In addition, it can be said that the process of said step S1201-S1203 is a process which performs the process equivalent to the process of step S403 and S404 in Embodiment 1 via the server 35. FIG.

  When step S1203 is completed, the radio base station apparatus 11A is in a state in which it can communicate with the communication terminal 21 on the communication link 25 (step S405).

  When the communication terminal 21 moves so as to approach the radio base station apparatus 12A (step S406), the radio base station apparatus 11A detects that the communication quality of the communication link 25 is lower than a predetermined quality, and sends a communication control signal to the server 35. Is transmitted (step S1211). When the server 35 receives the communication control signal transmitted from the radio base station apparatus 11A, the server 35 transmits the received communication control signal to the radio base station apparatus 12A. When receiving the communication control signal from the server 35, the radio base station apparatus 12 establishes the communication link 26 with the communication terminal 21 using the control information held by the establishing unit 111 (step S1213).

  In the case of a wireless communication system including the server 35 and including three or more wireless communication systems, the following is also possible. That is, when receiving the communication control signal from one radio base station apparatus, the server 35 transmits the received communication control signal so that all of the other radio base station apparatuses can receive it. That is, the server 35 transmits the communication control signal by broadcast transmission or by sequentially executing unicast transmission to each of the other radio base station apparatuses. Further, in this wireless communication system, when a communication control signal including the received radio wave intensity (or transfer priority) is used, the server 35 performs communication including the highest received radio wave intensity (or transfer priority). The communication control signal may be transmitted only to the radio base station apparatus that has transmitted the control signal.

  As described above, according to the radio communication system according to the present embodiment, the first radio base station and the second radio base station share new control information via the server, or new device authentication or Thus, it is possible to suppress the occurrence of a non-communication period without performing a process for establishing a new communication link.

(Embodiment 4)
In this embodiment, a radio base station apparatus that holds information necessary for AP switching more reliably will be described.

  FIG. 14 is a sequence diagram of handover (or also called roaming) by a communication terminal in the related technology related to the present embodiment. With reference to FIG. 14, a handover method by a communication terminal in the related art will be described. Note that the sequence diagram shown in FIG. 14 is implemented, for example, in a handover (also called high-speed roaming) in IEEE 802.11r. In the following, a case where the present embodiment is applied to handover in high-speed roaming in IEEE802.11r will be described as an example, but application of the present invention is not limited to high-speed roaming.

  As shown in FIG. 14, the communication network in the related technology includes a radio base station apparatus 11B, a radio base station apparatus 12B, and a communication terminal 21. The network configuration (not shown) is obtained by replacing the radio base station apparatus 11 with the radio base station apparatus 11B and the radio base station apparatus 12 with the radio base station apparatus 12B in FIG.

  The communication terminal 21 first establishes communication with the radio base station apparatus 11B. Specifically, the communication terminal 21 and the radio base station apparatus 11B are authenticated 1401 (authentication request and authentication response) (Authentication), connection establishment 1402 (connection request and connection response) (Association), IEEE 802.1X authentication 1403, And communication for each of the 4-way handshake 1404 (4-Way Handshake). These are the same as the communications shown in FIG. 5B.

  When the processing from the authentication 1401 to the four-way handshake 1404 is completed, the radio base station apparatus 11B is in a state (1405) that holds the common key PMK generated by the IEEE 802.1X authentication 1403. Further, since the PTK is generated from the PMK by the 4-way handshake, the communication terminal 21 and the radio base station apparatus 11B can communicate with each other using the PTK (1406).

  Next, the radio base station apparatus 11B has an RRB (Remote Request Broker) 1407 that is information including at least information (for example, a MAC address) that can uniquely identify the communication terminal 21 on the network and a common key PMK. Is transmitted to the radio base station apparatus 12B which is another radio base station apparatus. As a result, the radio base station apparatus 12B is in a state (1408) in which the PMK is held. Note that the radio base station apparatus that is the destination for transmitting the RRB 1407 may be registered in advance by an operator or the like, or the radio base station apparatus that is the transmission source may be selected from the radio base station apparatuses registered together with the location information. It may be a radio base station apparatus that is selected as being in a position close to the station apparatus.

  Thereafter, when the communication terminal 21 performs AP switching 1411 from the radio base station apparatus 11B to the radio base station apparatus 12B, the communication terminal 21 and the radio base station apparatus 12B are authenticated 1412 (authentication request and authentication response) ( Authentication) and connection establishment 1413 (connection request and connection response) (Reassociation) are performed, and when these are completed, the communication terminal 21 and the radio base station apparatus 12B are ready to communicate 1414. .

  Here, since the radio base station apparatus 12B has already received the RRB from the radio base station apparatus 11B (1408), communication for each of the IEEE 802.1X authentication and the 4-way handshake is unnecessary. . That is, in IEEE802.11r, there is no need to perform communication for each of the IEEE802.1X authentication and the 4-way handshake between the communication terminal 21 and the radio base station apparatus 12B. Handover, that is, fast handover is realized.

  Specific problems in the related art will be described. In the related art, the radio base station apparatus 12B is not always operating normally, and may be unable to communicate due to various factors. Specifically, the radio base station apparatus 12B may be in a state where the power is not turned on due to a power failure, failure, maintenance, or the like. In addition, the radio base station apparatus 12B may be unable to communicate with the radio base station apparatus 11B due to a failure of a network device with the radio base station apparatus 11B or disconnection of a cable. In such a case, the radio base station apparatus 12B cannot normally acquire or hold the RRB from the radio base station apparatus 11B. As a result, there arises a problem that AP switching from the radio base station apparatus 11B to the radio base station apparatus 12B by the communication terminal 21 is not realized as shown in FIG.

  That is, the radio base station apparatus does not always operate normally, and there is a problem that communication cannot be performed due to various factors. Therefore, an object of the present embodiment is to provide a radio base station apparatus that more reliably holds information necessary for AP switching.

  FIG. 15 is a functional block diagram of radio base station apparatus 11C and radio base station apparatus 12C according to the present embodiment.

  As illustrated in FIG. 15, the radio base station apparatus 11C includes an establishing unit 111C, a sharing unit 112C, a control unit 113C, and a transfer unit 114C. The radio base station apparatus 12C includes an establishment unit 121C, a sharing unit 122C, a control unit 123C, and a transfer unit 124C. Here, when the communication terminal 21 first establishes a communication link with the radio base station apparatus 11C and then enters a state in which a communication link is established with the radio base station apparatus 12C by handover. Processing will be described. That is, the radio base station apparatus 11C will be described as a handover source base station, and the radio base station apparatus 12C will be described as a handover destination base station. Of course, it is possible to realize a radio base station apparatus having both functions of the radio base station apparatus 11C and the radio base station apparatus 12C.

  The establishing unit 111C generates control information necessary for wireless communication with the communication terminal 21 existing in the wireless communicable area of the wireless base station device 11C by device authentication and connection establishment, thereby communicating with the communication terminal 21. Establish a link. That is, the establishment unit 111C performs the processes from the authentication 1401 to the 4-way handshake 1404 in FIG. 14 and the communication for the authentication 1412 and the connection establishment 1413.

  The sharing unit 112C shares the control information generated by the establishing unit 111C with the radio base station device 12C. The internal functions of the sharing unit 112C and the sharing method will be described in detail later.

  The control unit 113C acquires the communication quality in the communication link 25, and transmits a communication control signal to the radio base station apparatus 12C when the acquired communication quality is lower than the predetermined quality.

  The transfer unit 114C transfers a communication frame transmitted / received to / from the communication terminal 21 to the final destination of the communication frame.

  The establishment unit 111C, the control unit 113C, and the transfer unit 114C correspond to the establishment unit 111, the control unit 113, and the transfer unit 114 in the first embodiment, respectively, but have the functions described above. Others may be used.

  The sharing unit 122C shares the control information generated by the establishing unit 111C of the radio base station device 11C with the radio base station device 11C. The internal functions of the sharing unit 122C and the sharing method will be described in detail later.

  The establishing unit 121C establishes a communication link with the communication terminal 21 by holding the control information shared by the sharing unit 122C as control information necessary for communication with the communication terminal 21.

  The control unit 123C receives a communication control signal from the radio base station apparatus 11C. Then, the control unit 123C controls the establishment unit 121C to establish a communication link with the communication terminal 21 when the notification is received.

  The transfer unit 124C transfers the communication frame transmitted / received to / from the communication terminal 21 to the final destination of the communication frame.

  The establishment unit 121C, the control unit 123C, and the transfer unit 124C correspond to the establishment unit 121, the control unit 123, and the transfer unit 124 in the first embodiment, respectively, but have the functions described above. Others may be used.

  FIG. 16 is a detailed functional block diagram inside the sharing unit 112C and the sharing unit 122C according to the present embodiment.

  As illustrated in FIG. 16, the sharing unit 112 </ b> C includes a request reception unit 1601 and a transmission unit 1602. The sharing unit 122C includes a determination unit 1611, a request transmission unit 1612, and a reception unit 1613.

  First, request signals used in the sharing unit 112C and the sharing unit 122C will be described. The request signal is a signal that the sharing unit 122C transmits to the sharing unit 112C, and is a signal for the sharing unit 122C to request the sharing unit 112C to transmit an RRB. The request signal is also referred to as an RRB request.

  The request reception unit 1601 receives the RRB request transmitted by the request transmission unit 1612.

  The transmission unit 1602 is control information generated by the wireless base station device 11C by establishing a connection with the communication terminal 21 in response to the RRB request received by the request reception unit 1601, and is necessary for wireless communication with the communication terminal 21. Send control information. Here, the control information corresponds to information generated by processing such as authentication 1401 by the establishing unit 111C, and includes key information used for communication between the radio base station apparatus 11C and the communication terminal 21. A specific example of the control information is RRB in IEEE 802.11r.

  The determination unit 1611 determines whether or not the wireless base station device 11C is in a communicable state where the wireless base station device 11C can communicate with the wireless base station device 12C. Whether or not the radio base station apparatus 11C is in the above-described communicable state is determined as follows, for example. The determination unit 1611 determines that the radio base station apparatus 12C is in a communicable state, for example, when detecting that the radio base station apparatus 12C is in an operating state. Also, the determination unit 1611 determines, for example, that when the radio base station apparatus 12C is activated from the power-off state, the hardware and software activation processes are completed and the radio base station apparatus is in an operating state. May detect that the wireless base station device 11C is in a communicable state. Further, the determination unit 1611 determines that the radio base station apparatus 12C is in a communicable state when the communication line is recovered after the communication line connecting the radio base station apparatus 11C and the radio base station apparatus 12C is cut off. It may be determined.

  The request transmission unit 1612 transmits an RRB request to the radio base station device 11C when the determination unit 1611 determines that the radio base station device 12C is in a communicable state. The transmission destination of the RRB request may be all wireless base station devices that may be connected when the communication terminal 21 moves, or may be determined based on information registered in advance by an operator or the like. Alternatively, it may be determined based on information created by the wireless base station devices notifying each other at the time of network construction. Further, when there are a plurality of radio base station apparatuses as transmission destination candidates for the RRB request, the RRB transmission destination may be determined based on position information of these radio base station apparatuses.

  The receiving unit 1613 receives the control information transmitted by the radio base station apparatus 11C in response to the RRB request. Then, the reception unit 1613 passes the received control information to the establishment unit 121C. Thereafter, the establishing unit 121C establishes connection with the communication terminal 21 by using the control information as control information in communication between the radio base station apparatus 11C and the communication terminal 21.

  FIG. 17A is a flowchart of radio base station apparatus 11C according to Embodiment 4.

  In step S1701, the radio base station apparatus 11C establishes a communication link with the communication terminal 21 and generates control information. The process for establishing the communication link is a process from authentication 1401 to 4-way handshake 1404 in FIG.

  In step S1702, the radio base station apparatus 11C transmits RRB 1407, which is information including at least the MAC address of the radio base station apparatus 11C and the common key PMK, to the radio base station apparatus 12C.

  FIG. 17B is a flowchart of radio base station apparatus 12C according to Embodiment 4.

  In step S1711, the determination unit 1611 detects whether or not the radio base station apparatus 12C is in an operating state. Then, the determination unit 1611 controls transmission of the RRB request by the request transmission unit 1612 when detecting that the radio base station device 12C is in an operating state.

  In step S1712, the request transmission unit 1612 transmits an RRB request to the radio base station apparatus 11C according to control by the determination unit 1611.

  In step S1713, the control information transmitted by the radio base station apparatus 11C in response to the RRB request is received.

  In step S1714, connection establishment with the communication terminal 21 is performed using the received control information.

  FIG. 18 is a sequence diagram of the radio communication system according to the present embodiment. With reference to FIG. 18, the method of handover by the communication terminal in the present embodiment will be described in comparison with the handover in the related technique in FIG.

  The communication terminal 21 first establishes communication with the radio base station apparatus 11B. The specific processing is the same as the processing from authentication 1401 to 4-way handshake in FIG. 14, and detailed description thereof is omitted. At this point, the wireless base station device 11C is in a state (1405) holding the common key PMK. At this time, the communication terminal 21 and the radio base station apparatus 11C can communicate with each other (1406).

  Next, the radio base station apparatus 11C transmits the RRB 1407 to the radio base station apparatus 12C.

  At this time, if the radio base station apparatus 12C is in the power OFF state, the radio base station apparatus 12C cannot receive the RRB 1407. Thereafter, after the radio base station apparatus 12C is turned on, the radio base station apparatus 12C cannot receive the RRB 1407 unless any new processing is performed. With this, the radio base station apparatus 12C cannot establish a communication link with the communication terminal 21 by high-speed roaming.

  According to radio base station apparatus 12C in the present embodiment, when power of radio base station apparatus 12C is turned on, determination unit 1611 of radio base station apparatus 12C indicates that radio base station apparatus 12C is in an operating state. And the transmission of the RRB request 1801 by the request transmission unit 1612 is controlled (step S1711). The request transmission unit 1612 transmits the RRB request 1801 to the radio base station apparatus 11C according to the above control (step S1712). Then, the radio base station apparatus 12C receives the RRB 1802 transmitted by the radio base station apparatus 11C in response to the RRB request 1801 (step S1713). As a result, the radio base station apparatus 12C enters a state (1803) in which the PMK is held. This state is equivalent to the state (1408) in FIG. 14. When the communication terminal 21 performs AP switching 1411 from the wireless base station device 11C to the wireless base station device 12C after this, the same processing as in FIG. 14 is performed. Fast handover is realized.

  Note that the present invention may be realized as a wireless communication system including the communication terminal 21, the wireless base station device 11C, and the wireless base station device 12C.

  As described above, according to the radio base station apparatus in the present embodiment, when the radio base station apparatus is in a state where it can communicate with the counterpart base station apparatus, control information necessary for AP switching by the communication terminal is transmitted to the counterpart base station. Requests can be made to the station device to obtain control information. In particular, since control information is requested when it is determined that communication with a counterpart base station apparatus is possible, control information can be acquired more reliably. Therefore, the radio base station apparatus can more reliably hold information necessary for AP switching by the communication terminal.

  Conventionally, the control information is generated by the counterpart base station apparatus and transmitted to the radio base station apparatus. However, since there is no predetermined timing for transmission, it is natural that the transmitted control information may not reach the radio base station apparatus. On the other hand, according to the present invention, the radio base station apparatus requests the control information when it is determined that the radio base station apparatus can communicate with the counterpart base station apparatus, so that the control information can be acquired more reliably. .

  The radio base station apparatus requests control information when it is detected that the radio base station apparatus is in an operating state. Therefore, even when the other base station device is generating and transmitting control information to the wireless base station device when it is not in operation because the power of the wireless base station device has been turned off, The radio base station apparatus can request and acquire control information after it enters an operating state. Therefore, the radio base station apparatus can more reliably hold information necessary for AP switching by the communication terminal.

  The radio base station apparatus requests control information when it detects that the communication line connecting the radio base station apparatus and the counterpart base station apparatus has been restored. Therefore, even when communication is not possible due to the communication line being interrupted or the like, even if the counterpart base station apparatus generates and transmits control information, control is performed after the communication line is restored. Request and obtain information. Therefore, the radio base station apparatus can more reliably hold information necessary for AP switching by the communication terminal.

  Also, key information generated by the partner base station device by establishing a connection with the communication terminal, which is information necessary for AP switching by the terminal device, can be exchanged between the wireless base station device and the partner base station device. .

  Further, the wireless base station device and the counterpart base station device can realize high-speed roaming according to the wireless communication standard IEEE 802.11r by exchanging RRB as control information when they can communicate with each other.

  A part or all of each of the above embodiments can be described as in the following supplementary notes, but is not limited to the following description.

[Appendix 1]
A wireless communication system including a first wireless base station and a second wireless base station,
The first radio base station is
Establishing a first communication link with the communication terminal by generating control information necessary for wireless communication with a communication terminal existing in the wireless communicable area of the first wireless base station through device authentication and connection establishment A first establishment section to
The control information generated by the first establishment unit comprises a first sharing unit that shares with the second radio base station,
The second radio base station is
A second sharing unit that shares the control information with the first radio base station;
A second establishing unit that establishes a second communication link with the communication terminal by holding the control information shared by the second sharing unit as control information necessary for communication with the communication terminal. Communications system.

[Appendix 2]
The first radio base station further includes
A communication control signal is obtained when the communication quality in the first communication link is acquired and the acquired communication quality is lower than a predetermined quality;
The second radio base station further includes
The wireless communication system according to claim 1, further comprising: a second control unit that controls establishment of a second communication link by the second establishment unit when the communication control signal transmitted by the first control unit is received.

[Appendix 3]
The first radio base station further includes
A first transfer unit having a transfer mode for transferring a communication frame transmitted to and received from the communication terminal through the first communication link to a final destination of the communication frame, and a stop mode for not transferring the communication frame;
The first transfer unit transitions to the stop mode when the first control unit transmits the communication control signal,
The second radio base station further includes
A second transfer unit having a transfer mode for transferring a communication frame transmitted to and received from the communication terminal through the second communication link to a final destination of the communication frame, and a stop mode for not transferring the communication frame;
The wireless communication system according to claim 1 or 2, wherein the second transfer unit transitions to the transfer mode when the second control unit receives the communication control signal.

[Appendix 4]
The first establishment unit
Receiving a target frame which is one of communication frames transmitted by the communication terminal;
The first controller is
The first strength that is the received radio wave strength of the target frame received by the first establishment unit is acquired as the communication quality, and the first strength is included when the acquired first strength is lower than a predetermined value. Transmitting the communication control signal;
The second establishment unit
Receiving the target frame;
The second controller is
According to the acquired second strength, the second strength that is received radio wave strength of the target frame received by the second establishment unit, and the first strength included in the received communication control signal, The wireless communication system according to attachment 2, wherein the establishment of the second communication link is controlled.

[Appendix 5]
The second radio base station includes a plurality of radio base stations,
The second controller is
Obtaining the second intensity from each of a plurality of radio base stations;
The second transfer unit is
When the communication control signal is received, when the second strength of the local station is larger than any of the second strengths acquired by the second control unit, the wireless communication device according to appendix 4, wherein the wireless communication device shifts to the transfer mode. Communications system.

[Appendix 6]
The second radio base station includes a plurality of radio base stations each associated with a transfer priority,
The second controller is
Obtaining the transfer priority from each of a plurality of radio base stations;
The second transfer unit is
When the communication control signal is received, when the transfer priority of the own station is higher than any of the transfer priorities acquired by the second control unit, the wireless communication apparatus according to appendix 4, wherein the wireless communication apparatus shifts to the transfer mode. Communications system.

[Appendix 7]
The first sharing unit is
The sharing by transmitting the control information to a second sharing unit;
The second sharing unit is
The wireless communication system according to any one of appendices 1 to 6, wherein the sharing is performed by receiving the control information transmitted by the first sharing unit.

[Appendix 8]
The second sharing unit is
A determination unit that determines whether the second radio base station is in a communicable state capable of communicating with the first radio base station;
A request transmitting unit that transmits a request signal for requesting the control information when the determination unit determines that the second radio base station is in the communicable state;
A receiver that shares the first wireless base station by receiving the control information transmitted in response to the request signal;
The first sharing unit is
A request receiver for receiving the request signal transmitted by the request transmitter; and
The wireless communication system according to any one of appendices 1 to 6, further comprising: a transmission unit that performs the sharing by transmitting the control information in response to the request signal received by the request reception unit.

[Appendix 9]
The wireless communication system further includes a server,
The first sharing unit is
The sharing by sending the control information to the server;
The server receives the control information transmitted by the first sharing unit, transmits the received control information to the second sharing unit,
The second sharing unit is
The wireless communication system according to any one of appendices 1 to 6, wherein the sharing is performed by receiving the control information transmitted by the server.

[Appendix 10]
The control information is
The wireless communication system according to any one of appendices 1 to 9, including a shared key that is used for encrypted communication between the first wireless base station and the communication terminal and is dynamically generated by the device authentication.

[Appendix 11]
A control method in a radio communication system including a first radio base station and a second radio base station,
The first radio base station generates control information necessary for radio communication with a communication terminal existing in a radio communicable area of the first radio base station by device authentication and connection establishment, so that the communication terminal A first establishing step of establishing a first communication link with
A first sharing step in which the first radio base station shares the control information generated in the first establishment step with the second radio base station;
A second sharing step in which the second radio base station shares the control information with the first radio base station;
A second establishing step of establishing a second communication link with the communication terminal by holding the control information shared in the second sharing step as control information necessary for communication with the communication terminal. Method.

[Appendix 12]
A first establishment step of establishing a first communication link with the communication terminal by generating control information necessary for wireless communication with a communication terminal existing in a wireless communicable area by device authentication and connection establishment;
A sharing step of sharing the control information generated in the first establishment step;
Holding the control information shared in the sharing step as control information necessary for communication with the communication terminal, thereby causing the computer to execute a second establishment step of establishing a second communication link with the communication terminal Program for.

[Appendix 13]
A radio base station apparatus comprising a first radio base station or a second radio base station in the radio communication system according to any one of appendices 1 to 10.

[Appendix 14]
A wireless base station device capable of communicating with a counterpart base station device,
The counterpart base station device is
Establishing a first communication link with the communication terminal by generating control information necessary for wireless communication with a communication terminal existing in the wireless communication area of the counterpart base station device by device authentication and connection establishment The first establishment department,
A transmission unit that transmits the control information generated by the first establishment unit in response to a request signal for requesting the control signal;
The wireless base station device
A determination unit that determines whether or not the wireless base station device is in a communicable state capable of communicating with the counterpart base station device;
A request transmission unit that transmits a request signal for requesting the control information when the determination unit determines that the radio base station apparatus is in the communicable state;
A receiving unit that receives the control information transmitted by the counterpart base station apparatus in response to the request signal;
A radio base station apparatus comprising: an establishing unit that establishes a connection with the communication terminal using the control information received by the receiving unit.

  As described above, the radio base station apparatus of the present invention has been described based on the embodiment. However, the present invention is not limited to this embodiment. Unless it deviates from the meaning of this invention, the form which carried out the various deformation | transformation which those skilled in the art can think to this embodiment, and the structure constructed | assembled combining the component in different embodiment is also contained in the scope of the present invention. .

  The radio base station apparatus of the present invention can more reliably retain information necessary for AP switching by a communication terminal. Therefore, it can be used for a radio base station apparatus in an office or factory.

11, 12, 13, 19, 11A, 11B, 11C, 12A, 12B, 12C Radio base station apparatus 21 Communication terminal 25, 26 Communication link 31 LAN
35 Server 40, 41, 42 Wireless communication system 101 CPU
102 ROM
103 RAM
104 Storage device 105 WNIC
106 NIC
111, 111C, 121, 121C Establishing unit 112, 112C, 122, 122C, 112A, 122A Sharing unit 113, 113C, 123, 123C, 113A, 123A Control unit 114, 114C, 124, 124C Transfer unit 1601 Request receiving unit 1602 Transmission Unit 1611 determination unit 1612 request transmission unit 1613 reception unit

Claims (7)

A wireless base station device,
A determination unit that determines whether or not the wireless base station device is in a communicable state capable of communicating with the counterpart base station device;
When the determination unit determines that the wireless base station device is in the communicable state, control information generated by the counterpart base station device by establishing a connection with a communication terminal, and wireless communication with the communication terminal A request transmission unit that transmits a request signal for requesting control information that is necessary information for
A receiving unit that receives the control information transmitted by the counterpart base station apparatus in response to the request signal;
A radio base station apparatus comprising: an establishing unit that establishes a connection with the communication terminal using the control information received by the receiving unit. The determination unit
The radio base station apparatus according to claim 1, wherein the radio base station apparatus determines that the radio base station apparatus is in a communicable state when it is detected that the radio base station apparatus is in an operating state. The determination unit
2. The wireless base station apparatus determines that the wireless base station apparatus is in a communicable state when the communication line recovers after the communication line connecting the wireless base station apparatus and the counterpart base station apparatus is cut off. The radio base station apparatus described. The control information is
The radio base station apparatus according to any one of claims 1 to 3, including key information generated by the counterpart base station apparatus by establishing a connection with a communication terminal. The radio base station apparatus performs communication conforming to the IEEE 802.11r standard,
The radio base station apparatus according to claim 1, wherein the control information is an RRB (Remote Request Broker). A control method for a radio base station apparatus,
A determination step of determining whether or not the wireless base station device is in a communicable state capable of communicating with the counterpart base station device;
Control information generated by the counterpart base station device by establishing a connection with a communication terminal when the wireless base station device determines in the determination step that the communication is possible, and wireless communication with the communication terminal A request transmission step of transmitting a request signal for requesting control information necessary for
A receiving step of receiving the control information transmitted by the counterpart base station apparatus in response to the request signal;
A control method for a radio base station apparatus, comprising: establishing a connection with the communication terminal using the control information received in the receiving step as control information in communication between the radio base station apparatus and the communication terminal .   The program for making a computer perform the control method of the radio base station apparatus of Claim 6.

Images