JP2011139369A - Radio communication system, control method of radio communication system, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To efficiently perform a connection process when moving a plurality of terminal stations from one control station to another control station. <P>SOLUTION: This invention relates to a radio communication system including a first control station which controls a first radio communication group; a second control station which controls a second radio communication group; and terminal stations included in the first or second radio communication group. The first control station includes an acquisition section for acquiring from the second control station information containing a control station identifier for identifying the second control station, and a transmission section for transmitting the control station identifier acquired by the acquisition section to a terminal station communicating with the first control station. Each of the terminal stations includes a receiving section for receiving the control station identifier transmitted from the first control station, a disconnection section for disconnecting communication with the first control station after the control station identifier is received by the receiving section; and a request section for issuing a connection request to the second control station identified by the control station identifier. The second control station includes a permission section for permitting connection with the second control station in response to the connection request from the terminal station. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a radio communication system, a control method for a radio communication system, and a program.

  In Wireless USB, an authentication process between the host and the device is required before starting communication. Once authentication is performed between the host and the device, communication can be performed using the common key acquired at the first authentication without authentication from the next time.

High Rate Ultra Wideband PHY and MAC Standard (ECMA-368) Wireless Universal Serial Bus Specification v1.0 (www.usb.org)

  In a conventional wireless communication system such as Wireless USB, a set of a plurality of devices (terminal stations) connected to a certain host (control station) can be used by another already authenticated host. In that case, a process is required for the user to connect each device to another host. For example, let us consider a case where 10 peripheral devices as devices are connected to the host PC 1 and those peripheral devices are to be moved to another host PC 2. In that case, the user needs to go through an association procedure for connecting to the PC 2 with 10 peripheral devices as devices. In addition, in the wireless environment, it is impossible to determine from the appearance which peripheral device is connected to the PC 1, and thus it takes time to find the peripheral device.

  As described above, the conventional wireless communication system has a problem that a new connection process is required for each terminal station when a terminal station of a certain communication group is moved to another communication group.

  In view of the above problems, an object of the present invention is to efficiently perform a connection process when moving a plurality of terminal stations from one control station to another control station.

A wireless communication system according to the present invention that achieves the above-described object is as follows.
A wireless communication system comprising: a first control station that controls a first wireless communication group; a second control station that controls a second wireless communication group; and a terminal station included in the first or second wireless communication group. There,
The first control station is
Obtaining means for obtaining information including a control station identifier for identifying the second control station from the second control station;
Transmitting means for transmitting the control station identifier acquired by the acquisition means to a terminal station in communication with the first control station,
The terminal station
Receiving means for receiving the control station identifier transmitted from the first control station;
A disconnecting means for disconnecting communication with the first control station after receiving the control station identifier by the receiving means;
Request means for making a connection request to the second control station identified by the control station identifier,
The second control station is
According to a connection request from the terminal station, a permission unit that permits connection with the second control station is provided.

  According to the present invention, when moving a plurality of terminal stations from one control station to another control station, the connection process can be efficiently performed. Further, since there is no need to find a connected device, the terminal station can be moved to another control station.

(A) Network configuration diagram before host migration, (b) Network configuration diagram after host migration. (A) Functional configuration diagram of host, (b) Functional configuration diagram of device. The sequence diagram of host migration processing. The flowchart of a process of a host. The flowchart of a process of a device.

  A configuration before and after host migration will be described with reference to FIG. FIG. 1A is a network configuration diagram before host migration. The WUSB host 101 is a wireless USB standard host (first control station). The WUSB device 102 and the WUSB device 103 belonging to the first wireless communication group that is communicating with the first control station are wireless USB standard devices (terminal stations). The WUSB host 101, the WUSB device 102, and the WUSB device 103 constitute a network. The WUSB host 104 (second control station) is a wireless USB standard host and constitutes another network. In this situation, it is considered that the WUSB device 102 and the WUSB device 103 are migrated to a network that constitutes the WUSB host 104. That is, the wireless communication group is shifted to the second wireless communication group that is communicating with the second control station. It is assumed that the WUSB host 101, the WUSB device 102, and the WUSB device 103 have already been authenticated. Similarly, it is assumed that the WUSB host 104, the WUSB device 102, and the WUSB device 103 have already been authenticated.

  FIG. 1B is a network configuration diagram after the host is migrated from the WUSB host 101 to the WUSB host 104. The WUSB host 104 forms a network with the WUSB device 102 and the WUSB device 103.

  Next, the internal configuration of the WUSB host 101 and the WUSB host 104 will be described with reference to FIG. FIG. 2A shows a functional configuration of the host. A host according to this wireless communication system includes a CPU 201, a memory 202, an accept button detection unit 203, a release button detection unit 204, a wireless unit 205, a packet reception unit 206, and a packet transmission unit 207.

  The CPU 201 controls each configuration of the host. The memory 202 is a storage device such as a ROM, a RAM, or a hard disk. The acceptance button detection unit 203 detects pressing of the acceptance button by the user. The release button detection unit 204 detects pressing of the release button by the user. The wireless unit 205 wirelessly communicates a wireless USB standard packet or a WiMedia standard packet with each device. The packet receiving unit 206 processes the wireless section data received by the wireless unit 205. The packet transmission unit 207 processes a packet to be transmitted.

  Consider a case in which the WUSB host 101 and the WUSB host 104 want to transmit a wireless USB standard packet or a WiMedia standard packet to each device. In this case, a packet generated using the CPU 201 and the memory 202 is sent to the packet transmission unit 207, and then transmitted to the wireless section by the wireless unit 205.

  Also, consider a case where the WUSB host 101 and the WUSB host 104 want to receive a wireless USB standard packet or a WiMedia standard packet. In that case, the wireless unit 205 receives the data of the wireless section, processes it by the packet receiving unit 206, and passes the data to the CPU 201 and the memory 202 for reception processing. FIG. 2B is a diagram showing a functional configuration of the device. The device according to this wireless communication system includes a CPU 251, a memory 252, a wireless unit 253, a packet receiving unit 254, and a packet transmitting unit 255.

  Consider a case in which the WUSB device 102 and the WUSB device 103 want to transmit a wireless USB standard packet in the same manner as the host described in FIG. In this case, the packet generated using the CPU 251 and the memory 252 is sent to the packet transmission unit 255 and then transmitted to the wireless section by the wireless unit 253. Further, consider a case where the WUSB device 102 and the WUSB device 103 want to receive a wireless USB standard packet. In that case, the wireless section 253 receives the data of the wireless section, processes it by the packet receiving section 254, and passes the data to the CPU 251 and the memory 252 to perform the reception processing.

  The sequence of host migration operations will be described with reference to FIG. In step S300, first, the user presses the “release button” of the WUSB host 101. In step S301, the “accept button” of the WUSB host 104 is pressed at the same time as the “release button” is pressed or within several seconds before and after the “release button” is pressed. In step S302, the WUSB host 104 triggers the pressing of the “accept button” to insert its own Host ID information (control station identifier for identifying the control station) in the WiMedia standard beacon Application Specific Information Element. Broadcast to WiMedia devices around the host 104. Hereinafter, Information Element is abbreviated as “IE”.

  In step S303, the WUSB host 101 acquires the beacon (beacon) of the WUSB host 104 transmitted by broadcast, acquires the Host ID, and stores it in the memory area. Next, in step S304, the WUSB host 101 puts the Host ID of the WUSB host 104 in the Reserved IE of the Wireless USB standard MMC. Then, broadcast transmission is performed to the WUSB device 102 and the WUSB device 103 which are peripheral WirelessUSB devices. MMC is an abbreviation for Micro-scheduled Management Command. In step S305, the WUSB device 102 that has received this broadcast transmits a DN_Disconnect message of the Wireless USB standard to the WUSB host 101, and disconnects communication. Thereafter, in step S306, the WUSB device 102 transmits a DN_Connect of the Wireless USB standard to the WUSB host 104 having the received HostID to make a connection request. In step S307, the WUSB host 104 that has received the DN_Connect request puts the Connect Ack IE information in the WirelessUSB standard MMC and sends it back to the WUSB device 102. As a result, the connection between the WUSB host 104 and the WUSB device 102 is permitted and communication is started.

  The WUSB device 103 shifts from the WUSB host 101 to the WUSB host 104 through steps S308 to S310 in the same procedure as in steps S305 to S307.

  With reference to FIG. 4, each operation of the WUSB host 101 and the WUSB host 104 in the processing of FIG. 3 will be described. First, the operation of the WUSB host 101 will be described.

In step S <b> 402, when the user presses the “release button” of the WUSB host 101, the release button detection unit 204 detects the release button.
In step S 403, it is determined whether the wireless unit 205 and the packet reception unit 206 have received the HostID added to the WiMedia standard beacon Application Specific IE from the WUSB host 104. If not received (step S403; NO), it waits until it is received. On the other hand, if received (step S403; YES), the process proceeds to step S404. In step S <b> 404, the received HostID is entered in the Reserved IE of the Wireless USB standard MMC, and transmitted to each device by the packet transmission unit 207 and the wireless unit 205. Thereafter, DN_Disconnect is received from the WUSB device 102 in step S405. In step S406, a cutting process is performed. Similarly, when a DN_Disconnect request is received from the WUSB device 103, the process proceeds to step S406 and disconnection processing is performed.

  Next, the operation of the WUSB host 104 will be described. In step S <b> 400, when the user presses the acceptance button of the WUSB host 104, the acceptance button detection unit 203 detects it.

  In step S <b> 401, the host ID of the local station is transmitted from the packet transmission unit 207 and the wireless unit 205 by using a WiMedia standard beacon Application Specific IE.

  Thereafter, in step S407, DN_Connect from the WUSB device 102 is received. In step S408, the Wireless USB standard MMC is transmitted with the Connect Ack IE added. In step S409, connection processing is performed. Similarly, in step S407, a DN_Connect is received from the WUSB device 103, and a Connect Ack IE is added to the Wireless USB standard MMC for transmission. In step S409, connection processing is performed.

  In addition, each operation of the WUSB device 102 and the WUSB device 103 in the processing of FIG. 3 will be described with reference to FIG. First, in step S501, it is determined whether or not a WirelessUSB standard MMC Reserved IE has been received from the currently connected WUSB host 101. The reception process is performed using the wireless unit 253 and the packet receiving unit 254. If the Reserved IE has not been received (step S501; NO), the process waits until it is received. On the other hand, if received (step S501; YES), the process proceeds to step S502. In step S502, DN_Disconnect is transmitted to the currently connected WUSB host 101. This transmission processing is performed using the packet transmission unit 255 and the wireless unit 253. In step S503, DN_Connect is transmitted to the WUSB host 101 having the HostID in the received Application Specific IE. In step S504, it is determined whether or not a Connect Ack IE has been received. If it has not been received (step S504; NO), it waits until it is received. On the other hand, if received (step S504; YES), the process proceeds to step S505. In step S505, connection processing is performed and the process returns.

  As described above, according to the present invention, when moving a plurality of terminal stations from one control station to another control station, the connection process can be efficiently performed. Further, since there is no need to find a connected device, there is an effect that the terminal station can be moved to another control station.

(Other embodiments)
The present invention can also be realized by executing the following processing. That is, software (program) that realizes the functions of the above-described embodiments is supplied to a system or apparatus via a network or various storage media, and a computer (or CPU, MPU, or the like) of the system or apparatus reads the program. It is a process to be executed.

Claims (6)

A wireless communication system comprising: a first control station that controls a first wireless communication group; a second control station that controls a second wireless communication group; and a terminal station included in the first or second wireless communication group. There,
The first control station is
Obtaining means for obtaining information including a control station identifier for identifying the second control station from the second control station;
Transmitting means for transmitting the control station identifier acquired by the acquisition means to a terminal station in communication with the first control station,
The terminal station
Receiving means for receiving the control station identifier transmitted from the first control station;
A disconnecting means for disconnecting communication with the first control station after receiving the control station identifier by the receiving means;
Request means for making a connection request to the second control station identified by the control station identifier,
The second control station is
A wireless communication system comprising permission means for permitting connection with a second control station in response to a connection request from the terminal station.   The wireless communication system according to claim 1, wherein the acquisition unit acquires information including the control station identifier added to a beacon in the WiMedia standard from the second control station.   2. The wireless communication system according to claim 1, wherein the transmission unit performs transmission by adding the control station identifier to an MMC (Micro-scheduled Management Command) of WirelessUSB standard. The first or second control station is a wireless USB standard control station,
The wireless communication system according to any one of claims 1 to 3, wherein the terminal station is a wireless USB standard terminal station. A wireless communication system comprising: a first control station that controls a first wireless communication group; a second control station that controls a second wireless communication group; and a terminal station included in the first or second wireless communication group. A control method,
In the first control station,
An obtaining step for obtaining information including a control station identifier for identifying the second control station from the second control station;
A transmission step of transmitting the control station identifier acquired in the acquisition step to a terminal station in communication with the first control station,
In the terminal station,
A receiving step for receiving the control station identifier transmitted from the first control station;
A disconnecting step for disconnecting communication with the first control station after the disconnecting means receives the control station identifier in the receiving step;
A requesting step for making a connection request to the second control station identified by the control station identifier;
In the second control station,
A control method for a radio communication system, characterized in that the permission means includes a permission step of permitting connection with the second control station in response to a connection request from the terminal station.   A program for causing a computer to execute the control method of the wireless communication system according to claim 5.

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