JP4940785B2 - Wireless device, wireless communication system, wireless communication method for wireless device, and wireless communication method for wireless communication system - Google Patents

Description

The present invention relates to a wireless device, a wireless communication system, a wireless communication method for a wireless device, and a wireless communication method for a wireless communication system, and can be applied to, for example, an access point configuring a wireless network.

  For example, a wireless LAN access point of the IEEE 802.11 specification communicates on a best effort basis. Therefore, when performing real-time communication such as VoIP communication, it is not possible to secure a bandwidth necessary for ensuring the communication quality. It was a cause of quality degradation.

  Conventionally, in order to cope with such a problem, as a method of ensuring communication quality (QoS: Quality of Service), when a certain number of calls or a use band is exceeded, an access point triggers the start of the next call. There has been a method for preventing further increase of the used bandwidth by discarding the packet (see Patent Document 1).

JP 2005-012725 A

  However, in the situation where the client terminal is located within the communication range of a plurality of access points, if the conventional method for ensuring the communication quality described above is applied as it is, the following problems may occur. .

  In other words, the client terminal can be connected to a plurality of access points, but the access point that is accidentally connected at the start of communication controls the predetermined number of calls, and cancels the call start request from the client terminal. Therefore, there is a problem that the call of the client terminal cannot be started.

Therefore, in order to perform voice communication of a voice communication terminal connected to an access point in which the radio band is saturated, a radio apparatus that can secure a radio band related to a call of the voice communication terminal and ensure communication quality , There is a need for a wireless communication system, a wireless communication method for a wireless device, and a wireless communication method for a wireless communication system .

In order to solve this problem, the wireless device according to the first aspect of the present invention includes (1) a first communication unit that communicates with a call control device, (2) a second communication unit that communicates with a wireless terminal, and (3) A monitoring unit that monitors a communication band or the number of communication of wireless terminals in a wireless line connected to the second communication unit, and (4) a call control signal processing unit that processes a call control signal, and the first communication unit includes: A first signal that is a call control signal for the first wireless terminal and is a signal for requesting establishment of a session in the call control signal is received from the call control device, and the communication band or the number of communication of the wireless terminal is the first threshold value. When the following is true, the second communication unit transmits the first signal to the first wireless terminal, and when the communication band or the number of communication of the wireless terminal exceeds the first threshold, the call control signal processing unit Before the second communication unit transmits the first signal to the first wireless terminal, the first signal A second signal indicating that a trial is being performed is transmitted to the call control device.
According to a third aspect of the present invention, there is provided a wireless communication method for a wireless device comprising: a first communication unit that communicates with a call control device; a second communication unit that communicates with a wireless terminal; and a communication band in a wireless line connected to the second communication unit. Alternatively, in a wireless communication method of a wireless device including a monitoring unit that monitors the number of communication of wireless terminals and a call control signal processing unit that processes a call control signal, (1) the first communication unit is A first control signal that is a call control signal for one wireless terminal and that requests establishment of a session in the call control signal, and (2) the communication band or the number of communication of the wireless terminal is equal to or less than a first threshold value. In this case, the second communication unit transmits the first signal to the first wireless terminal. (3) When the communication band or the number of communication of the wireless terminal exceeds the first threshold, the call control signal processing unit Before the second communication unit transmits the first signal to the first wireless terminal A second signal indicating that it is attempting to first signal, and transmits to the call controller.

A radio communication system according to a second aspect of the present invention is a radio communication system having a first radio apparatus and a second radio apparatus, wherein the first radio apparatus is the radio apparatus according to the first aspect of the present invention, and the second radio apparatus is The connection processing between the second wireless device and the first wireless terminal described in the first aspect of the present invention is performed, and an eighth signal indicating that the first wireless terminal is connected is transmitted to the first wireless device, A first signal is received from the first wireless device, and the first signal is transmitted to the first wireless terminal.
According to a fourth aspect of the present invention, there is provided a wireless communication method for a wireless communication system including a first wireless device and a second wireless device, wherein the first wireless device is a wireless device according to the first aspect of the present invention. The second wireless device performs connection processing between the second wireless device and the first wireless terminal described in the first aspect of the present invention, and confirms that the first wireless device is connected to the first wireless terminal. 8 is transmitted, the first signal is received from the first wireless device, and the first signal is transmitted to the first wireless terminal.

  According to the present invention, a wireless device that cannot secure a bandwidth sufficient for voice communication suppresses a response to a connection management frame from a connected voice communication terminal, and establishes connection with the voice communication terminal. By forcibly disconnecting, the voice communication terminal can be connected to the newly searched radio device, so that the radio band related to voice communication of the voice communication terminal can be effectively secured.

(A) First Embodiment A wireless device, a wireless communication system, a wireless communication method for the wireless device, and a wireless communication method for the wireless communication system according to the first embodiment of the present invention will be described below with reference to the drawings.

The first embodiment is, for example, a wireless LAN access point in a wireless LAN system adopting the IEEE802.11 standard technology, a case of applying the present onset bright.

(A-1) Configuration of the First Embodiment FIG. 1 is an overall configuration diagram showing the simplest system configuration of the network system according to the first embodiment.

  In FIG. 1, a network system 10 according to the first embodiment includes a plurality (two are shown in FIG. 1) of wireless LAN access points 101 (101-1, 101-2), a wireless LAN client terminal 102, and a network device 200. , The LAN client terminal 201, the SIP server 300, and the like.

  In FIG. 1, the wireless LAN access points 101-1 and 102-1 are wirelessly connected to the wireless LAN client terminal 102 existing in each radio wave reachable range (wireless cell), and adopt an infrastructure mode. Here, it is assumed that the wireless LAN client terminal 102 exists in the radio wave reachable range of each of the two wireless LAN access points 101-1 and 101-2.

  The wireless LAN access points 101-1 and 101-2 perform predetermined access control in response to a connection request from the wireless LAN client terminal 102 in the wireless cell and management related to the connected wireless LAN client terminal 102. .

  In the first embodiment, the wireless LAN access points 101-1 and 101-2 are assumed to be IEEE802.11 specification access points, and as an access control function, for example, CSMA / CA (Carrier Sense Multiple Access With Collision Avoidance). As a managing function with the wireless LAN client terminal 102, for example, according to a connection management frame (for example, a Probe Request frame, an Authentication frame, an Association Request frame, etc.) received from the client terminal 300 A response frame (for example, a Probe Response frame, an Authentication frame, an Association Response frame, a Reassociation Request frame, etc.) is returned, and an authentication function and a connection function for performing authentication processing and connection processing of the wireless LAN client terminal 102, or a wireless LAN The It shall have such power management state management functions Ianto terminal 102.

  Also, the wireless LAN access points 101-1 and 101-2 are connected to the network device 200 via a wired line, and are directly connected to the SIP server 300, other wireless LAN access points, and the network device 200 through the network device 200. Information can be exchanged with the LAN client terminal 201 or the like connected to the network.

  The network device 200 performs information transfer with the wireless LAN access points 101-1 and 100-2, the SIP server 300, the LAN client terminal 201, and the like through a wired line. For example, a switching hub, a router, etc. Network equipment can be applied. Although not shown in FIG. 1, a wired LAN in which another relay device or server is connected to a wired line may be configured.

  The wireless LAN client terminal 102 is a wireless communication terminal equipped with a voice communication function (VoIP function). As the VoIP function of the wireless LAN client terminal 102 of the first embodiment, for example, a voice communication device compatible with SIP (Session Initiation Protocol) is mounted and realized in accordance with SIP. Since it is applicable, detailed description here is omitted. In addition, the wireless communication function of the wireless LAN client terminal 102 can be realized by having a wireless communication device that is compatible with, for example, IEEE 802.11 standardization technology. Further, the wireless LAN client terminal 102 can set and use either an active scan method or a passive scan method as a network search method.

  The SIP server 300 is a SIP server that realizes voice communication between a calling terminal and a called client terminal in response to a call request received through a wired line, and an existing SIP server can be applied.

  The LAN client terminal 201 is a communication terminal that can be connected to a wired line equipped with a voice communication function (VoIP function). The LAN client terminal 201 can be connected to the SIP server 300 through the network device 200. In the first embodiment, the LAN client terminal 201 is a terminal that performs voice communication based on SIP with the wireless LAN client terminal 102. Note that the VoIP function of the LAN client terminal 201 of the first embodiment is a function of a SIP-compatible voice communication device.

  FIG. 2 is a functional block diagram showing the main internal configuration of the wireless LAN access point 101 (101-1 and 101-2).

  As shown in FIG. 2, the wireless LAN access point 101 includes a wired LAN interface unit 110, a wireless LAN interface unit 120, a relay function unit 130, a used bandwidth monitoring unit 140, a disconnection control unit 160, a SIP response unit 170, and a SIP message storage. Unit 180 and message transmission / reception unit 190.

  The wired LAN interface unit 110 is an interface unit for transmitting and receiving information to and from a wired line to be connected, and an existing wired network interface unit can be applied.

  The wireless LAN interface unit 120 is a general wireless LAN interface unit that operates in an infrastructure mode standardized by IEEE 802.11, performs access processing by a channel access control method based on CSMA / CA, and uses a predetermined wireless channel. Thus, a signal is exchanged with the wireless LAN client terminal 102.

  When the relay function unit 130 receives the communication packet received by the wired LAN interface unit 110 and the wireless LAN interface unit 120, the relay function unit 130 converts the packet into a data frame format in accordance with a predetermined protocol so that communication can be performed by wire or wirelessly. This is given to the wireless LAN interface unit 120 and the wired LAN interface unit 110 for relaying.

  The used bandwidth monitoring unit 140 periodically or constantly monitors the communication bandwidth of the wireless line currently used by the wireless LAN interface unit 120. If the used bandwidth exceeds the used bandwidth limit function start threshold, When the determination is made, this is notified to the cutting control unit 160. In this way, the use band monitoring function 140 can be started to maintain communication quality by determining that the use band monitoring unit 140 exceeds the use band restriction function start threshold.

  Here, the use band limiting function start threshold is a threshold for starting the use band limiting function, and is set in the use band monitoring unit 140 in advance in the first embodiment. Further, the use band limiting function start threshold value may be changed by a predetermined operation by a designer or the like after being set once.

  In addition, when the use band limit function end threshold for ending the use band limit function is set in the use band monitoring unit 140 and the use band falls below the use band limit function end threshold, the disconnect control unit 160 may be notified to terminate the use band limiting function. In the first embodiment, the used bandwidth is monitored, but the number of access point communications may be monitored. In this case, when the number of communications exceeds a threshold, a notification to that effect is given. It is good.

  When the disconnect control unit 160 receives a notification from the use band monitoring unit 140 that the use band of the wireless LAN interface unit 120 has exceeded the use band limiting function start threshold, the disconnection control unit 160 notifies the wireless LAN interface unit 120 of the wireless LAN client This is an instruction not to return a response to an IEEE 802.11 format Probe Request frame, Authentication frame, Association Request frame, etc. received from the terminal 102.

  As a result, the connection can be rejected without responding to each connection management frame (Probe Request frame, Authentication frame, Association Request frame, etc.) from the wireless LAN client terminal 102 after the use band exceeds a certain level. Therefore, the connection with the wireless LAN client terminal 102 can be forcibly disconnected, and as a result, each request by the wireless LAN client terminal 102 can be made to another wireless LAN access point. The call opportunity of the client terminal 102 can be effectively provided.

  When the wired LAN interface unit 110 receives from the SIP server 300 an INVITE frame whose destination is the wireless LAN client terminal 102 located in the wireless cell, the SIP response unit 170 responds to the INVITE frame (for example, 100 Trying). Frame etc.) to the SIP server 300.

  When the SIP message storage unit 180 receives an INVITE frame for the wireless LAN client terminal 102 received by the SIP response unit 170, the SIP message storage unit 180 temporarily stores the received INVITE frame. At this time, the SIP message storage unit 180 stores the received INVITE frame in association with the MAC address of the wireless LAN client terminal 102 that is the transmission destination.

  When the message transmission / reception unit 190 receives a connection request from the wireless LAN client terminal 102 in the wireless cell, the message transmission / reception unit 190 transmits a message to the wired interface unit 110 by broadcast to the wired interface unit 110. It is an instruction. Thereby, it is possible to notify other wireless LAN access points that the wireless LAN client terminal 102 is connected. At this time, the message transmission / reception unit 190 includes the MAC address of the wireless LAN client terminal 102 in the message to be transmitted by broadcast.

  Further, when the message transmitting / receiving unit 190 receives a message indicating that the wireless LAN client terminal is connected from another wireless LAN access point, the wireless LAN client of the MAC address is based on the MAC address included in the message. It is determined whether or not an INVITE frame whose destination is the terminal is stored in the SIP message storage unit 180, and when the INVITE frame is stored, the stored INVITE frame is notified that a connection request has been made. The message is transmitted to the wireless LAN access point that has transmitted the message.

(A-2) Operation of First Embodiment Next, an operation when the wireless LAN client terminal 102 realizes a call in the network system 10 of the first embodiment will be described with reference to the drawings.

  In the following, in the network system 10 shown in FIG. 1, it is assumed that the wireless LAN client terminal 102 is connected to the wireless LAN access point 101-1, but is simultaneously present in the wireless cell of the wireless LAN access point 101-2. Suppose you are.

  In such a connection state, in the following, operations when the wireless LAN client terminal 102 starts a call to the LAN client terminal 201 and when the LAN client terminal 201 starts a call to the wireless LAN client terminal 102 are described below. Will be described.

(A-2-1) When a call from the wireless LAN client terminal 102 to the LAN client terminal 201 is started The operation when the wireless LAN client terminal 102 starts a call to the LAN client terminal 201 is described as follows. The network search method is divided into an operation when the active scan method is used and an operation when the passive scan method is used.

  Here, the active scan method is a method in which the wireless LAN client terminal 102 transmits a probe request frame by broadcast or multicast, and the access point that has received the response returns a probe response frame as a response. In this manner, the wireless LAN client terminal 102 searches for the presence of a wireless network in the vicinity. Generally, after transmitting a probe request frame, a timer is activated to wait for a reply of a probe response frame for a certain period of time.

  The passive scan method is a method in which the wireless LAN client terminal 102 monitors reception of a control signal (beacon signal) and searches for the presence of a wireless network based on reception of the control signal (beacon signal). Based on the content of the signal (beacon signal), connection processing with the access point is performed.

  First, the operation when the active scan method is employed will be described with reference to the sequence diagram of FIG.

  In FIG. 3, the wireless LAN client terminal 102 transmits an INVITE frame requesting the start of a call with the LAN client terminal 201 to the SIP server 300 (S101). At this time, the INVITE frame is wirelessly transmitted to the wireless LAN access point 101-1 to which the wireless LAN client terminal 102 is connected.

  When the INVITE frame from the wireless LAN client terminal 102 is given to the wireless LAN access point 101-1, the used bandwidth monitoring unit 140 monitors the used bandwidth of the wireless line at the wireless LAN access point 101-1.

  When the used band is equal to or less than the use band limiting function start threshold, the wireless LAN access point 101-1 performs a normal process of relaying the received INVITE frame to the SIP server 300 through a wired line. It is assumed that the bandwidth exceeds the use bandwidth limit function start threshold.

  Then, the use band monitoring unit 140 notifies the disconnect control unit 160 that the use band exceeds the use band limiting function start threshold, and the disconnect control unit 160 cancels the authentication and transmits a deauthentication frame indicating connection refusal. The wireless LAN interface unit 120 is instructed to transmit to the LAN client terminal 102, and the wireless LAN interface unit 120 transmits a Deauthentication frame to the wireless LAN client terminal 102 (S102).

  At this time, the wireless LAN interface unit 120 of the wireless LAN access point 101-1 controls the probe request (probe Request) frame, authentication request (Authentication) frame, and association request from the wireless LAN client terminal 102 under the control of the disconnection control unit 160. (Assocication Request) A response to a frame or the like is not returned.

  When a Deauthentication frame from the wireless LAN access point 101-1 is given to the wireless LAN client terminal 102, the wireless LAN client terminal 102 performs connection processing with another wireless LAN access point 101-2 according to the set active scan method. To do.

  Specifically, the wireless LAN client terminal 102 transmits a Probe Request frame by broadcasting or the like (S103), and searches for wireless LAN access points that form a wireless network in the vicinity.

  At this time, in the first embodiment, the wireless LAN access point 101-1 does not respond to the Probe Request frame from the wireless LAN client terminal 102, and the wireless LAN access point 101-2 does not respond from the wireless LAN client terminal 102. In response to the Probe Request frame, a Probe Response frame is returned (S104).

  When the wireless LAN client terminal 102 receives the Probe Response frame from the wireless LAN access point 101-2, the IEEE 802.11 format authentication frame is exchanged between the wireless LAN client terminal 102 and the wireless LAN access point 101-2. Then, the wireless LAN client terminal 102 is authenticated by the wireless LAN access point 101-2 (S105, S106).

  Also, the IEEE 802.11 format Association Request frame / Association Response frame is exchanged between the wireless LAN client terminal 102 and the wireless LAN access point 101-2 (S107, S108), and the wireless LAN access point 101-2. The connection process of the wireless LAN client terminal 102 is performed.

  In this way, when the wireless LAN client terminal 102 connects to the wireless LAN access point 101-2, the wireless LAN client terminal 102 again sends an INVITE frame requesting the start of a call with the LAN client terminal 201 to the SIP server 300. The INVITE frame is sent to the SIP server 300 via the wireless LAN access point 101-2 (S109).

  When the INVITE frame from the wireless LAN client terminal 102 is given to the SIP server 300, the SIP server 300 returns a 100 Trying frame (S110), and transmits the INVITE frame to the destination LAN client terminal 201 (S111). ), Call control is performed between the source wireless LAN client terminal 102 and the destination LAN client terminal 201 in accordance with SIP, thereby realizing a call between the two. Note that a description of the call control processing by the SIP server 300 is omitted.

  Next, the operation when the passive scan method is employed will be described with reference to the sequence diagram of FIG.

  4, the wireless LAN client terminal 102 wirelessly transmits to the wireless LAN access point 101-1, an INVITE frame requesting the start of a call with the LAN client terminal 201 directed to the SIP server 300, as in S101 of FIG. (S101).

  The wireless LAN access point 101-1 transmits a Deauthentication frame to the wireless LAN client terminal 102 in the same manner as S102 in FIG. 3 (S102).

  The wireless LAN client terminal 102 that has received the Deauthentication frame from the wireless LAN access point 101-1 sends out an IEEE802.11-format Authentication frame according to the passive scan method (S 201), and other wireless LAN access points constituting the wireless network. Search for.

  Then, the wireless LAN access point 101-2 that has received the Authentication frame from the wireless LAN client terminal 102 returns an Authentication frame to the wireless LAN client terminal 102 (S202).

  Thereafter, as in the processing of S107 to S108 in FIG. 3, the IEEE 802.11 format Association Request frame / Association Response frame is exchanged between the wireless LAN client terminal 102 and the wireless LAN access point 101-2. S107, S108), the wireless LAN client terminal 102 is connected by the wireless LAN access point 101-2.

  Then, similarly to the processing of S109 to S111 in FIG. 3, the SIP server 300 performs call control between the wireless LAN client terminal 102 and the LAN client terminal 201, thereby realizing a call.

(A-2-2) In the case where a call is started from the LAN client terminal 201 to the wireless LAN client terminal 102 Again, the operation when the wireless LAN client terminal 102 uses the active scan method and the operation when the passive scan method is used. Separately described.

  First, the operation when the active scan method is employed will be described with reference to the sequence diagram of FIG.

  In FIG. 5, the LAN client terminal 201 transmits an INVITE frame requesting the start of a call with the wireless LAN client terminal 102 to the SIP server 300 (S301).

  When the INVITE frame from the LAN client terminal 201 is given to the SIP server 300, the SIP server 300 transmits the INVITE frame to the wireless LAN client terminal 102 (S302). At this time, the INVITE frame transmitted by the SIP server 300 is given to the wireless LAN access point 101-1 connected to the wireless LAN client terminal 102.

  When the INVITE frame from the SIP server 300 is given to the wireless LAN access point 101-1, the used bandwidth monitoring unit 140 monitors the used bandwidth of the wireless line at the wireless LAN access point 101-1.

  When the used band is equal to or less than the use band limiting function start threshold, the wireless LAN access point 101-1 performs normal processing for relaying the received INVITE frame to the wireless LAN client terminal 102. Is over the use bandwidth limit function start threshold.

  Then, in the wireless LAN access point 101-1, the SIP response unit 170 returns a 100 Trying frame, which is a response frame being called for the received INVITE frame, to the SIP server 300 (S303), and the received wireless LAN client terminal The INVITE frame addressed to 102 is temporarily stored in the SIP message storage unit 180.

  Further, the disconnection control unit 160 is notified from the use band monitoring unit 140 that the use band exceeds the use band limiting function start threshold, and the disconnection control unit 160 cancels the authentication and transmits a deauthentication frame indicating connection refusal. The wireless LAN interface unit 120 is instructed to transmit to the LAN client terminal 102, and the wireless LAN interface unit 120 transmits a Deauthentication frame to the wireless LAN client terminal 102 (S304).

  When the Deauthentication frame from the wireless LAN access point 101-1 is given to the wireless LAN client terminal 102, the wireless LAN client terminal 102 searches for another wireless LAN access point 101-2 according to the set active scan method. Perform connection processing.

  That is, similarly to the processing described with reference to FIG. 3, the wireless LAN client terminal 102 transmits a Probe Request frame by broadcasting or the like (S103), and searches for wireless LAN access points that constitute a wireless network in the vicinity.

  At this time, in the first embodiment, the wireless LAN access point 101-1 does not respond to the Probe Request frame from the wireless LAN client terminal 102, and the wireless LAN access point 101-2 does not respond from the wireless LAN client terminal 102. In response to the Probe Request frame, a Probe Response frame is returned (S104).

  Then, the IEEE802.11 format authentication frame is exchanged between the wireless LAN client terminal 102 and the wireless LAN access point 101-2 (S105, S106), and the IEEE802.11 format Association Request frame / Association. Response frames are exchanged (S107, S108), and connection processing of the wireless LAN client terminal 102 by the wireless LAN access point 101-2 is performed.

  When connection processing is performed between the wireless LAN access point 101-2 and the wireless LAN client terminal 102, the message transmission / reception unit 190 indicates that the wireless LAN access point 101-2 has connected to the wireless LAN client terminal 102. An association notification frame (Null Frame) is instructed to be transmitted by broadcast, and notification is given to devices located in the vicinity (S305).

  When the wireless LAN access point 101-1 receives the association notification frame transmitted from the wireless LAN access point 101-2 by broadcast, the message transmission / reception unit 190 of the wireless LAN access point 101-1 is included in the received association notification frame. Based on the MAC address of the wireless LAN client terminal 102, the INVITE frame destined for the wireless LAN client terminal 102 stored in the SIP message storage unit 180 is extracted, and the INVITE frame is taken as the wireless LAN access point 101-2. (S306).

  When the wireless LAN access point 101-2 receives an INVITE frame destined for the wireless LAN client terminal 102 connected from the wireless LAN access point 101-1, the wireless LAN access point 101-2 transmits the INVITE frame to the wireless LAN client terminal 102 ( S307).

  Thereafter, the SIP server 300 performs call control between the wireless LAN client terminal 102 and the LAN client terminal 201 to realize a call.

  Next, the operation when the passive scan method is employed will be described with reference to the sequence diagram of FIG.

  In FIG. 6, when the LAN client terminal 201 transmits an INVITE frame requesting the start of a call with the wireless LAN client terminal 102 to the SIP server 300 in the same manner as the processing of S301 to S303 in FIG. 5 (S301), The SIP server 300 transmits an INVITE frame to the wireless LAN client terminal 102 (S302).

  Then, the wireless LAN access point 101-1 returns a 100 Trying frame, which is a response message to the received INVITE frame, to the SIP server 300 (S303), and temporarily stores the INVITE frame in the SIP message storage unit 180.

  In addition, since the used band exceeds the use band limiting function start threshold, the disconnection control unit 160 instructs the wireless LAN interface unit 120 to transmit the Deauthentication frame to the wireless LAN client terminal 102, and the wireless LAN interface unit 120. Transmits a Deauthentication frame to the wireless LAN client terminal 102 (S304).

  The wireless LAN client terminal 102 that has received the Deauthentication frame from the wireless LAN access point 101-1 sends out an IEEE802.11-format Authentication frame according to the passive scan method (S 201), and other wireless LAN access points constituting the wireless network. Search for.

  Then, the wireless LAN access point 101-2 that has received the Authentication frame from the wireless LAN client terminal 102 returns an Authentication frame to the wireless LAN client terminal 102 (S202).

  The IEEE 802.11 format Association Request frame / Association Response frame is exchanged between the wireless LAN client terminal 102 and the wireless LAN access point 101-2 (S107, S108), and the wireless LAN access point 101-2 performs wireless communication. Connection processing of the LAN client terminal 102 is performed.

  When the wireless LAN access point 101-2 performs a connection process with the wireless LAN client terminal 102, the wireless LAN access point 101-2 is notified that the message transmission / reception unit 190 has connected to the wireless LAN client terminal 102. An instruction is sent to broadcast the frame, and notification is sent to the devices located in the vicinity (S305).

  When the wireless LAN access point 101-1 receives the association notification frame transmitted from the wireless LAN access point 101-2 by broadcast, the message transmission / reception unit 190 of the wireless LAN access point 101-1 includes the received association notification frame. The INVITE frame destined for the wireless LAN client terminal 102 that is stored in the SIP message storage unit 180 is extracted based on the MAC address of the wireless LAN client terminal 102 that is currently connected, and the INVITE frame is extracted to the wireless LAN access point 101-2. Transmission is performed through a wired line (S306).

  When the wireless LAN access point 101-2 receives an INVITE frame destined for the wireless LAN client terminal 102 connected from the wireless LAN access point 101-1, the wireless LAN access point 101-2 transmits the INVITE frame to the wireless LAN client terminal 102 ( S307).

  Thereafter, the SIP server 300 performs call control between the wireless LAN client terminal 102 and the LAN client terminal 201 to realize a call.

(A-3) Effect of First Embodiment As described above, according to the first embodiment, a wireless LAN access point with a large bandwidth used forcibly connects to a wireless LAN client terminal that requests a call start. By disconnecting the wireless LAN client terminal, the wireless LAN client terminal can be attributed to another wireless LAN access point to start a high-quality call.

(B) Other Embodiments (B-1) In the first embodiment, an access point (wireless device) and a client terminal (wireless terminal) applied to IEEE 802.11 standardization have been described. However, the wireless communication technology is IEEE802. The present invention can be widely applied without being limited to the standards and communication protocols defined by 11 and the like.

(B-2) In the first embodiment, the wireless LAN access points are described as being connectable via a wired line. However, as long as messages can be exchanged between the wireless LAN access points, the wireless LAN access points are not limited to wired connections. The whole may be a wireless network.

  In the case of wireless connection, the wireless LAN access point may share the wireless LAN interface unit shown in FIG. 2 as an interface unit used between the wireless LAN access points. As a result, the configuration scale of the access point can be reduced.

(B-3) In the first embodiment, the function of the wireless LAN access point has been described as a hardware configuration for convenience of explanation, but in reality, hardware resources such as a CPU are stored in the storage means. This is based on software processing that realizes each function described in the first embodiment by reading a processing program that is stored and executing the processing program.

It is a block diagram of the network system of 1st Embodiment. It is a block diagram which shows the internal structure of the wireless LAN access point of 1st Embodiment. It is a sequence diagram which shows the telephone call start process in case the wireless LAN client terminal of 1st Embodiment sets it as a transmission origin (when an active scan system is employ | adopted). It is a sequence diagram which shows the telephone call start process in case the wireless LAN client terminal of 1st Embodiment sets it as a transmission origin (when a passive scan system is employ | adopted). It is a sequence diagram which shows the telephone call start process in case the wireless LAN client terminal of 1st Embodiment makes a call destination (when an active scan system is employ | adopted). It is a sequence diagram which shows the telephone call start process in case the wireless LAN client terminal of 1st Embodiment makes a call destination (when a passive scan system is employ | adopted).

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Network system, 101 (101-1, 101-2) ... Wireless LAN access point, 110 ... Wired LAN interface part, 120 ... Wireless LAN interface part, 130 ... Relay function part, 140 ... Used band monitoring part, 150 ... Disconnection control unit, 160 ... SIP response unit, 180 ... SIP message storage unit, 190 ... Message transmission / reception unit, 102 ... Wireless LAN client terminal, 300 ... SIP server.

Claims (16)

A first communication unit communicating with the call control device;
A second communication unit communicating with the wireless terminal;
A monitoring unit that monitors a communication band in a wireless line connected to the second communication unit or the number of communication of wireless terminals;
A call control signal processing unit for processing the call control signal,
The first communication unit receives a first signal, which is a call control signal for the first wireless terminal from the call control device, and a signal for requesting establishment of a session in the call control signal;
When the communication band or the communication number of the wireless terminal is equal to or less than a first threshold value,
The second communication unit transmits the first signal to the first wireless terminal,
When the communication band or the communication number of the wireless terminal exceeds a first threshold,
The call control signal processing unit outputs a second signal indicating that the first signal is being tried before the second communication unit transmits the first signal to the first wireless terminal. A wireless device characterized by transmitting to. The first signal is an INVITE signal in SIP,
The radio apparatus according to claim 1, wherein the second signal is a 100 Trying signal in the SIP. When the third signal indicating that the communication band or the number of communication of the wireless terminal exceeds the first threshold is received from the monitoring unit, the second communication unit receives from the first wireless terminal. The wireless device according to claim 1, further comprising: a disconnection control unit that transmits a fifth signal that instructs not to return a response to the fourth signal used for the connection processing. The second communication unit is
From the disconnection control unit, receiving a seventh signal indicating that the authentication is canceled and a sixth signal indicating connection refusal is transmitted to the wireless terminal;
The radio apparatus according to claim 3, wherein the sixth signal is transmitted to the first radio terminal. The fourth signal is a Probe Request signal, an Authentication signal, or an Association Request signal,
The radio apparatus according to claim 4, wherein the sixth signal is a Deauthentication signal. In a wireless communication system having a first wireless device and a second wireless device,
The first wireless device is a wireless device according to claim 4,
The second wireless device is
A connection process is performed between the second wireless device and the first wireless terminal according to claim 4,
An eighth signal indicating that the first wireless terminal is connected to the first wireless device;
A wireless communication system, wherein the first signal is received from the first wireless device, and the first signal is transmitted to the first wireless terminal. The eighth signal is an Association notification frame (Null Frame),
In the connection process between the second wireless device and the first wireless terminal,
The second wireless device is
Receiving a Probe Request signal from the first wireless terminal, transmitting a Probe Response signal to the first wireless terminal;
Receiving an authentication signal from the first wireless terminal, transmitting an authentication signal to the first wireless terminal;
The wireless communication system according to claim 6, wherein an association request signal is received from the first wireless terminal, and an association response signal is transmitted to the first wireless terminal. The eighth signal is an Association notification frame (Null Frame),
In the connection process between the second wireless device and the first wireless terminal,
The second wireless device is
Receiving an authentication signal from the first wireless terminal, transmitting an authentication signal to the first wireless terminal;
The wireless communication system according to claim 6, wherein an association request signal is received from the first wireless terminal, and an association response signal is transmitted to the first wireless terminal. A first communication unit communicating with the call control device;
A second communication unit communicating with the wireless terminal;
A monitoring unit that monitors a communication band in a wireless line connected to the second communication unit or the number of communication of wireless terminals;
In a wireless communication method of a wireless device comprising: a call control signal processing unit that processes a call control signal;
The first communication unit receives a first signal, which is a call control signal for the first wireless terminal from the call control device, and a signal for requesting establishment of a session in the call control signal;
When the communication band or the communication number of the wireless terminal is equal to or less than a first threshold
The second communication unit transmits the first signal to the first wireless terminal,
When the communication band or the communication number of the wireless terminal exceeds a first threshold,
The call control signal processing unit outputs a second signal indicating that the first signal is being tried before the second communication unit transmits the first signal to the first wireless terminal. A wireless communication method comprising: transmitting to a wireless communication method. The first signal is an INVITE signal in SIP,
The wireless communication method according to claim 9, wherein the second signal is a 100 Trying signal in the SIP. The wireless device includes a disconnect control unit,
When the disconnection control unit receives a third signal indicating that the communication band or the number of communication of the wireless terminal exceeds the first threshold from the monitoring unit, the second communication unit, The wireless communication method according to claim 9 or 10, wherein a fifth signal instructing not to return a response to the fourth signal used for connection processing received from the first wireless terminal is transmitted. The second communication unit is
From the disconnection control unit, receiving a seventh signal indicating that the authentication is canceled and a sixth signal indicating connection refusal is transmitted to the wireless terminal;
The wireless communication method according to claim 11, wherein the sixth signal is transmitted to the first wireless terminal. The fourth signal is a Probe Request signal, an Authentication signal, or an Association Request signal,
The wireless communication method according to claim 12, wherein the sixth signal is a Deauthentication signal. In a wireless communication method of a wireless communication system having a first wireless device and a second wireless device,
The first wireless device is a wireless device according to claim 4,
The second wireless device is
A connection process is performed between the second wireless device and the first wireless terminal according to claim 4,
An eighth signal indicating that the first wireless terminal is connected to the first wireless device;
A wireless communication method, comprising: receiving the first signal from the first wireless device; and transmitting the first signal to the first wireless terminal. The eighth signal is an Association notification frame (Null Frame),
In the connection process between the second wireless device and the first wireless terminal,
The second wireless device is
Receiving a Probe Request signal from the first wireless terminal, transmitting a Probe Response signal to the first wireless terminal;
Receiving an authentication signal from the first wireless terminal, transmitting an authentication signal to the first wireless terminal;
The wireless communication method according to claim 14, wherein an association request signal is received from the first wireless terminal, and an association response signal is transmitted to the first wireless terminal. The eighth signal is an Association notification frame (Null Frame),
In the connection process between the second wireless device and the first wireless terminal,
The second wireless device is
Receiving an authentication signal from the first wireless terminal, transmitting an authentication signal to the first wireless terminal;
The wireless communication method according to claim 14 , wherein an association request signal is received from the first wireless terminal, and an association response signal is transmitted to the first wireless terminal.

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