JP2009088934A - Wireless lan access point, and wireless lan access point program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the battery consumption of a radio terminal due to frequent occurrence of keep-alive issuing. <P>SOLUTION: A wireless LAN access point 2 includes a terminal controlling means of controlling information on radio terminals 4-1 to 4-2 being connected to its device through a wireless LAN 5, a terminal determining means of identifying the destination of a keep-alive inquiry packet for confirming availability of a connection from a keep-alive issuing source 1 when receiving the inquiry packet and determining whether or not there is a radio terminal corresponding to the destination among the radio terminals 4-1 to 4-3 being connected to its device based upon the information of the terminal controlling means, and a substitutional response means of generating a keep-alive response packet of a radio terminal corresponding to the destination instead of the radio terminal based upon the information of the terminal controlling means when there is the radio terminal and sending the keep-alive response packet back to the keep-alive issuing source 1. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a wireless LAN access point for connecting wireless terminals to each other by a wireless LAN, or connecting a wireless terminal to another network such as a wired LAN, and a program therefor.

  In general, a wireless local area network (LAN) access point is a kind of bridge (relay device) that connects between wired and wireless. In a VoIP (Voice over IP) system or the like installed on a LAN, keep alive is often performed to confirm the validity of a connection by polling from a main device (PBX) or the like. The keep-alive interval varies depending on the system (see, for example, Patent Document 1). The keep-alive packet is transmitted as a wireless packet by the bridge function of the wireless LAN access point (hereinafter referred to as AP).

JP 2002-335290 A

  The wireless terminal that has received the keep-alive packet from the AP returns a response packet indicating that the connection is valid to the AP. Therefore, even if the wireless terminal is in power saving, the wireless terminal is activated for transmission / reception of the packet, so that the battery of the wireless terminal is consumed. In particular, in a system that frequently performs keep-alive, the battery duration of the wireless terminal is significantly shortened.

  The present invention has been made to solve the above problems, and an object of the present invention is to provide a wireless LAN access point and a program capable of reducing battery consumption of a wireless terminal due to frequent keep-alives.

The wireless LAN access point of the present invention receives terminal management means for managing information of a wireless terminal connected to its own device via the wireless LAN, and a keepalive inquiry packet for confirming the validity of the connection from the keepalive issuer. A terminal for identifying the destination of the inquiry packet and determining whether a wireless terminal corresponding to the destination exists among the wireless terminals connected to the own apparatus based on the information of the terminal management unit When a wireless terminal corresponding to the destination exists in the determination means, a keep-alive response packet of this wireless terminal is created instead of the wireless terminal based on the information of the terminal management means, and is sent to the keep-alive issuer Proxy response means for returning the response packet.
In addition, according to one configuration example of the wireless LAN access point of the present invention, when a wireless terminal corresponding to the destination exists, a predetermined number of times of transmission thinning has been determined since a keep-alive inquiry packet was transmitted to the wireless terminal last time. A transmission thinning determination unit that determines whether or not the predetermined number of transmission thinnings has elapsed; instead of performing a proxy response by the proxy response unit, a keepalive received from the keepalive issuer Thinning transmission means for transmitting an inquiry packet to a wireless terminal corresponding to the destination, and transfer means for transmitting a keepalive response packet returned from the wireless terminal to the keepalive inquiry packet to the keepalive issuer Is.
Further, one configuration example of the wireless LAN access point of the present invention further includes a case where additional information addressed to a wireless terminal is superimposed on the keep-alive inquiry packet, and there is a wireless terminal corresponding to the destination. Additional information detecting means for determining whether the additional information of the current keep-alive inquiry packet has changed with respect to the additional information of the keep-alive inquiry packet transmitted last time; and if the additional information has changed, the proxy Instead of performing a proxy response by the response means, a transmission means for transmitting the keep alive inquiry packet received from the keep alive issue source to the wireless terminal corresponding to the destination, and a response to the keep alive inquiry packet is returned from the wireless terminal. Issue the keepalive response packet Those comprising a transfer means for transmitting to.

The present invention is also a wireless LAN access point program for causing a computer to function as a wireless LAN access point, and when a keep alive inquiry packet for confirming the validity of a connection is received from a keep alive issuer, Based on information of terminal management means for identifying a destination and managing a wireless terminal connected to the own device, it is determined whether or not a wireless terminal corresponding to the destination exists among the wireless terminals connected to the own device. A terminal determination step to perform, and when a wireless terminal corresponding to the destination exists, a keep-alive response packet of the wireless terminal is created instead of the wireless terminal based on the information of the terminal management unit, and the keep-alive issue A proxy response step of returning the response packet to the computer. It is obtained by way.
Further, according to one configuration example of the wireless LAN access point program of the present invention, when there is a wireless terminal corresponding to the destination, a predetermined number of transmission thinnings since the last transmission of a keep-alive inquiry packet to the wireless terminal A transmission thinning determination step for determining whether or not the predetermined number of transmission thinnings has elapsed; instead of performing a proxy response in the proxy response step, a keep-receive issuer keeps A decimation transmission step of transmitting an alive inquiry packet to the wireless terminal corresponding to the destination; and a transfer step of transmitting a keepalive response packet returned from the wireless terminal to the keepalive inquiry packet to the keepalive issuer. And let the computer run Than is.
Further, one configuration example of the wireless LAN access point program of the present invention further includes a case where additional information addressed to a wireless terminal is superimposed on the keep-alive inquiry packet, and there is a wireless terminal corresponding to the destination. An additional information detecting step for determining whether or not the additional information of the current keep-alive inquiry packet has changed with respect to the additional information of the keep-alive inquiry packet transmitted last time, and if the additional information has changed, Instead of performing a proxy response in the proxy response step, a transmission step of transmitting a keep-alive inquiry packet received from the keep-alive issue source to the wireless terminal corresponding to the destination, and a response from the wireless terminal to the keep-alive inquiry packet Received keepalive response packet And a transfer step of transmitting the serial keepalive publisher, in which so as to execute the computer.

  According to the present invention, when a keep-alive inquiry packet is received from a keep-alive issuer, the destination of this inquiry packet is identified, and a wireless terminal corresponding to the destination exists among the wireless terminals connected to the own apparatus. If there is a wireless terminal corresponding to the destination, a keepalive response packet for this wireless terminal is created instead and sent back to the keepalive issuer. Battery consumption of the terminal inside can be reduced. In a system that frequently performs keep-alive, keep-alive packets are frequently transmitted to the radio field, which increases the load on the radio field. However, according to the present invention, the load on the radio field is increased. Can be reduced.

  In the present invention, the wireless LAN access point returns a pseudo-response to the keep alive inquiry packet until the predetermined number of times of transmission thinning has elapsed since the previous transmission of the keep alive inquiry packet to the wireless terminal. Since the keep-alive inquiry packet is sent to the wireless terminal only when the number of times has passed, the wireless terminal is used when the keep-alive frequency from the keep-alive issuer is too high and the battery of the wireless terminal becomes exhausted. Battery consumption can be reduced, and the load on the wireless field can be reduced.

  Also, in the present invention, while there is no change in the additional information addressed to the wireless terminal, the wireless LAN access point returns a pseudo response to the keep alive inquiry packet, and only when there is a change in the additional information, the keep alive inquiry is made to the wireless terminal. Since the packet is transmitted, it is possible to reduce the battery consumption of the terminal connected to the wireless LAN access point, and to reduce the load on the wireless field.

  Since the AP is a bridge, it can be operated by mounting up to layer 2 originally. On the other hand, the AP of the present invention has a function of identifying and filtering upper layer data. That is, the destination of the keep-alive inquiry packet issued to the wireless terminal is identified by the AP, and when there is a wireless terminal corresponding to the destination among the connected wireless terminals, the AP replaces the wireless terminal. Responds falsely. In addition, it is possible to transmit the information included in the keepalive to the terminal by changing whether the keepalive inquiry packet is transmitted, whether it is completely filtered, or partially filtered.

[First Embodiment]
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a communication network system according to the first embodiment of the present invention. In FIG. 1, 1 is a keep-alive issuer such as PBX, 2 is an AP, 3 is a wired LAN connecting the keep-alive issuer 1 and AP2, 4-1 to 4-3 are wireless terminals, and 5 is AP2. This is a wireless LAN for connecting the wireless terminals 4-1 to 4-3. Examples of the wireless terminals 4-1 to 4-3 include a portable computer having a wireless communication function.

  FIG. 2 is a block diagram showing a configuration example of AP2. The AP 2 has a wired transmission / reception unit 20 that communicates with the wired LAN 3, a wireless transmission / reception unit 21 that communicates with the wireless LAN 5, a buffer memory 22 that holds data to be transmitted / received, and its own device via the wireless LAN 5. A terminal management unit 23 that manages information on the wireless terminals connected to the network, and a control unit 24 that controls the entire AP.

  FIG. 3 is a block diagram illustrating a configuration example of the control unit 24. When the control unit 24 receives a keep-alive inquiry packet for confirming the validity of the connection from the keep-alive issuer 1, the control unit 24 identifies the destination of the inquiry packet and sets the destination in the wireless terminal connected to the own device. A terminal determination unit 240 that determines whether or not a corresponding wireless terminal exists, and when a wireless terminal corresponding to the destination of the inquiry packet exists, a keep alive response packet of the wireless terminal is created and a keep alive issue source 1 has a proxy response unit 241 that returns a keep-alive response packet, and an update unit 242 that appropriately updates information in the terminal management unit 23.

Hereinafter, the operation of AP2 of the present embodiment will be described. FIG. 4 is a sequence diagram showing the operation of AP2 when a keep-alive inquiry packet is received.
First, the keepalive issuer 1 such as PBX transmits a keepalive inquiry packet 40.

  When the wired transmission / reception unit 20 of the AP 2 receives the keep-alive inquiry packet 40 via the wired LAN 3, it passes the inquiry packet 40 to the control unit 24. The terminal determination unit 240 of the control unit 24 identifies the destination address (for example, IP address) of the inquiry packet 40. And the terminal determination part 240 refers to the terminal management part 23, and determines whether the wireless terminal applicable to the said destination address exists in the wireless terminals 4-1 to 4-3 currently connected to the own apparatus. (FIG. 4, step S1).

The terminal management unit 23 stores information on the connected wireless terminals 4-1 to 4-3. The contents of the managed information include the addresses (for example, IP address and MAC address) of the connected wireless terminals 4-1 to 4-3. Therefore, by referring to the terminal management unit 23, it is possible to determine whether or not there is a wireless terminal corresponding to the destination address among the wireless terminals 4-1 to 4-3 connected to the own device.
If there is no wireless terminal corresponding to the destination address among the connected wireless terminals 4-1 to 4-3, the control unit 24 ends the process without doing anything.

  The information of the terminal management unit 23 needs to be updated as appropriate according to the connection state with the wireless terminals 4-1 to 4-3. The update is performed by the update unit 242. The update unit 242 periodically performs keep-alive communication with the wireless terminals 4-1 to 4-3 connected through the wireless transmission / reception unit 21 in accordance with, for example, IEEE 802.11 specifications, and the wireless terminal 4-1 Information of ˜4-3 is acquired. Thereby, the update part 242 updates the information of the terminal management part 23 appropriately.

  Next, when the keep alive inquiry packet 41 is received from the keep alive issue source 1, the control unit 24 of the AP 2 performs the same determination as in step S1 (step S2). If the wireless terminal 4-1 corresponding to the destination address of the inquiry packet 41 is present in the connected wireless terminals 4-1 to 4-3, the proxy response unit 241 of the control unit 24 sends the response to the wireless terminal 4-1. Instead, a keep-alive response packet 42 is created, and the response packet 42 is returned to the keep-alive issuing source 1 through the wired transmission / reception unit 20 (step S3).

As described above, the terminal management unit 23 stores the addresses of the connected wireless terminals 4-1 to 4-3. Therefore, the proxy response unit 241 can create the keep-alive response packet 42 in which the address of the wireless terminal 4-1 is stored as the transmission source address instead of the wireless terminal 4-1.
In this way, the keepalive issuer 1 can confirm that the connection with the wireless terminal 4-1 is valid by receiving the keepalive response packet 42.

  As described above, in this embodiment, the AP returns a pseudo-response to the keep-alive inquiry packet and does not transmit the keep-alive inquiry packet to the wireless field, so that the battery of the terminal connected to the AP is consumed. Can be reduced, and the load on the radio field can be reduced.

[Second Embodiment]
Next, a second embodiment of the present invention will be described. In the first embodiment, even when a wireless terminal corresponding to the destination of the keep-alive inquiry packet exists under the AP, the keep-alive inquiry packet is not transmitted in the wireless field, but the keep-alive inquiry packet is appropriately thinned out. Then, it may be transmitted to the wireless terminal. Also in this embodiment, the overall configuration of the communication network system and the AP is the same as that of the first embodiment, and therefore, description will be made using the reference numerals in FIGS.

  FIG. 5 is a block diagram illustrating a configuration example of the control unit 24 of the AP 2 according to the present embodiment. When there is a wireless terminal corresponding to the destination of the terminal determination unit 240, the proxy response unit 241, the update unit 242, and the keep alive inquiry packet, the control unit 24 transmits a keep alive inquiry packet to this wireless terminal last time. If the predetermined number of times of transmission thinning has passed, the number of times determination unit 243 (transmission thinning determination means), and if the predetermined number of times of transmission thinning has elapsed, the keep-alive inquiry packet corresponds to the destination A decimation transmission unit 244 that transmits to the wireless terminal to be transmitted, and a transfer unit 245 that transmits a keep-alive response packet returned from the wireless terminal to the keep-alive inquiry packet to the keep-alive issuer 1.

FIG. 6 is a sequence diagram showing the operation of AP2 when the keep-alive inquiry packet is received according to this embodiment.
The operation when the wireless terminal corresponding to the destination address of the keep-alive inquiry packet does not exist among the connected wireless terminals 4-1 to 4-3 is the same as that of the first embodiment.

Next, when the keepalive inquiry packet 60 is received from the keepalive issuer 1, the terminal determination unit 240 of the control unit 24 of AP2 performs the determination in the same manner as in the first embodiment (step S10 in FIG. 6).
When the wireless terminal 4-1 corresponding to the destination address of the inquiry packet 60 exists in the connected wireless terminals 4-1 to 4-3, the frequency determination unit 243 of the control unit 24 transmits the wireless terminal 4-1 this time. It is determined whether it is the first transmission of the inquiry packet to 4-1 (step S11). The terminal management unit 23 stores the number of inquiry packet transmissions to the connected wireless terminals 4-1 to 4-3 for each wireless terminal. By referring to the terminal management unit 23, the wireless terminal 4- It is possible to determine whether it is the first transmission to 1.

In the case of the initial transmission to the wireless terminal 4-1, the thinning transmission unit 244 of the control unit 24 transmits the keep alive inquiry packet 61 to the wireless terminal 4-1 through the wireless transmission / reception unit 21 (step S12).
The wireless terminal 4-1 that has received the inquiry packet 61 returns a keep-alive response packet 62 in which the address of its own device is stored as a transmission source address to the AP 2, and in response to this, the transfer unit 245 of the control unit 24 of the AP 2 A keepalive response packet 63 is returned to the keepalive issuer 1 through the wired transmission / reception unit 20. At this time, the update unit 242 of the control unit 24 acquires information on the wireless terminal 4-1 from the keep-alive response packet 62, and appropriately updates information on the wireless terminal 4-1 managed by the terminal management unit 23.

Next, when the keepalive inquiry packet 64 addressed to the wireless terminal 4-1 is received from the keepalive issue source 1, the determination is performed in the same manner as in the above steps S10 and S11 (steps S13 and S14).
If the number of times determination unit 243 of the control unit 24 is not the first transmission to the wireless terminal 4-1, has the predetermined number of transmission thinnings elapsed since the last transmission of the keep-alive inquiry packet to the wireless terminal 4-1. It is determined whether or not (step S15). The terminal management unit 23 stores the number of transmissions of the inquiry packet as well as the number of transmission thinnings from the previous transmission of the inquiry packet for each wireless terminal. It can be determined whether or not the number of transmission thinnings for 1 has exceeded a predetermined value.

  The proxy response unit 241 of the control unit 24, when the predetermined number of transmission thinnings has not elapsed since the previous transmission of the keep-alive inquiry packet to the wireless terminal 4-1, is similar to the first embodiment. Instead of 4-1, a keepalive response packet 65 is created, and the response packet 65 is returned to the keepalive issuer 1 through the wired transmission / reception unit 20 (step S16). For example, if the number of transmission thinning is set to 3 and the inquiry packet transmission is thinned twice between the previous transmission and the present, it is determined that the predetermined number of transmission thinnings has not elapsed. When the proxy response unit 241 responds on behalf of the wireless terminal 4-1, the proxy response unit 241 increments the transmission thinning-out count for the wireless terminal 4-1 stored in the terminal management unit 23 by one.

  On the other hand, the thinning transmission unit 244 of the control unit 24 passes the wireless terminal 4-1 through the wireless transmission / reception unit 21 when a predetermined number of transmission thinnings has elapsed since the previous transmission of the keep-alive inquiry packet to the wireless terminal 4-1. A keep-alive inquiry packet 66 is transmitted to (step S17). For example, if the number of transmission thinning is set to three and if the transmission of the inquiry packet has already been thinned three times from the previous transmission to the present, it is determined that the predetermined number of transmission thinning has elapsed. When the thinning transmission unit 244 transmits a keep-alive inquiry packet to the wireless terminal 4-1, the thinning transmission unit 244 resets the number of transmission thinnings for the wireless terminal 4-1 stored in the terminal management unit 23 to 0.

  The wireless terminal 4-1 that has received the inquiry packet 66 returns a keep-alive response packet 67 to the AP 2, and in response to this, the transfer unit 245 of the control unit 24 of the AP 2 sends a keep-alive response packet 68 to the keep-alive issuer 1. Will be returned.

  Thus, in the present embodiment, the AP returns a pseudo response to the keep-alive inquiry packet until the predetermined number of times of transmission thinning has elapsed since the previous transmission of the keep-alive inquiry packet to the wireless terminal, and the predetermined number of times of transmission thinning-out Since the keep-alive inquiry packet is transmitted to the wireless terminal only after the elapse of time, the wireless terminal is used when the keep-alive frequency from the keep-alive issuer 1 is too high and the battery of the wireless terminal becomes exhausted. Battery consumption can be reduced, and the load on the wireless field can be reduced.

[Third Embodiment]
Next, a third embodiment of the present invention will be described. In some communication network systems, useful additional information such as time information is superimposed on a keep-alive packet and transmitted to a terminal from the main device side. In such a case, the AP stores the additional information for each wireless terminal, and only has to transmit a keep-alive inquiry packet to the wireless terminal when there is a change in the additional information. Also in this embodiment, the overall configuration of the communication network system and the AP is the same as that of the first embodiment, and therefore, description will be made using the reference numerals in FIGS.

  FIG. 7 is a block diagram illustrating a configuration example of the control unit 24 of the AP 2 according to the present embodiment. The control unit 24 includes a terminal determination unit 240, a proxy response unit 241, an update unit 242, a number determination unit 243, a transfer unit 245, and additional information addressed to the wireless terminal superimposed on the keep-alive inquiry packet, and is sent to the destination. An additional information detection unit 246 that determines whether or not the additional information of the current inquiry packet has changed with respect to the additional information of the inquiry packet transmitted to the wireless terminal last time when the corresponding wireless terminal exists; Has changed, it has the transmission part 247 which transmits a keep alive inquiry packet to the radio | wireless terminal applicable to a destination.

8 and 9 are sequence diagrams showing the operation of AP2 when the keep-alive inquiry packet is received according to this embodiment.
The operation when the wireless terminal corresponding to the destination address of the keep-alive inquiry packet does not exist among the connected wireless terminals 4-1 to 4-3 is the same as that of the first embodiment.

Next, when the keepalive inquiry packet 70 is received from the keepalive issuer 1, the terminal determination unit 240 of the control unit 24 of AP2 performs the determination in the same manner as in the first embodiment (step S20 in FIG. 8).
When the wireless terminal 4-1 corresponding to the destination address of the inquiry packet 70 exists in the connected wireless terminals 4-1 to 4-3, the frequency determination unit 243 of the control unit 24 transmits the wireless terminal 4-1 this time. It is determined whether it is the first transmission of the inquiry packet to 4-1 (step S21).

In the case of the first transmission to the wireless terminal 4-1, the additional information detection unit 246 of the control unit 24 extracts additional information such as time information superimposed on the inquiry packet 70 for a purpose different from the keep alive. And temporarily stored in the terminal management unit 23 (step S22).
Then, the transmission unit 247 causes the wireless transmission / reception unit 21 to transmit the keep-alive inquiry packet 70 as it is as the keep-alive inquiry packet 71 to the wireless terminal 4-1 (step S23).

The wireless terminal 4-1 that has received the inquiry packet 71 returns a keep-alive response packet 72 in which the address of its own device is stored as a transmission source address to the AP 2, and in response to this, the transfer unit 245 of the control unit 24 of the AP 2 A keepalive response packet 73 is returned to the keepalive issuer 1 through the wired transmission / reception unit 20. At this time, the update unit 242 of the control unit 24 acquires information on the wireless terminal 4-1 from the keep-alive response packet 72 and appropriately updates information on the wireless terminal 4-1 managed by the terminal management unit 23.
In addition, the wireless terminal 4-1 that has received the inquiry packet 71 extracts additional information from the inquiry packet 71 and appropriately executes necessary processing. For example, if the additional information is time information, the clock of the wireless terminal 4-1 is set to the time information.

Next, when the keepalive inquiry packet 74 addressed to the wireless terminal 4-1 is received from the keepalive issue source 1, the determination is performed in the same manner as in steps S20 and S21 described above (steps S24 and S25 in FIG. 9).
Then, the additional information detection unit 246 of the control unit 24 determines whether or not the additional information has changed since the previous transmission of the keep-alive inquiry packet to the wireless terminal 4-1, if it is not the first transmission to the wireless terminal 4-1. (Step S26). The terminal management unit 23 stores additional information for each wireless terminal when the inquiry packet was last transmitted. Therefore, by comparing the additional information of the wireless terminal 4-1 stored in the terminal management unit 23 with the additional information extracted from the inquiry packet 74, it can be determined whether or not the additional information has changed.

  When the additional information has not changed since the last transmission of the keep-alive inquiry packet to the wireless terminal 4-1, the proxy response unit 241 of the control unit 24, similar to the first embodiment, Instead, a keep-alive response packet 75 is created, and the response packet 75 is returned to the keep-alive issuer 1 through the wired transmission / reception unit 20 (step S27).

On the other hand, when the additional information has changed since the last transmission of the keep-alive inquiry packet to the wireless terminal 4-1, the additional information detection unit 246 of the control unit 24 stores the wireless terminal 4 stored in the terminal management unit 23. -1 is updated to the additional information acquired from the keep-alive inquiry packet 74 (step S28).
Then, the transmission unit 247 causes the wireless transmission / reception unit 21 to transmit the keep alive inquiry packet 74 as it is as the keep alive inquiry packet 76 to the wireless terminal 4-1 (step S29).

  The wireless terminal 4-1 that has received the inquiry packet 76 returns a keep-alive response packet 77 to the AP 2, and in response to this, the transfer unit 245 of the control unit 24 of the AP 2 sends a keep-alive response packet 78 to the keep-alive issuer 1. Will be returned.

  As described above, in this embodiment, the AP returns a pseudo-response to the keep alive inquiry packet while the additional information addressed to the wireless terminal is not changed, and the wireless terminal keeps the additional information only when the additional information is changed. Since the alive inquiry packet is transmitted, battery consumption of the terminal connected to the AP can be reduced, and the load on the wireless field can be reduced.

Note that the second embodiment and the third embodiment can be used in combination. For example, during normal times, a keep-alive inquiry packet is transmitted based on the number of transmission thinnings of the second embodiment, and the additional information is included. If there is a change, a keep-alive inquiry packet may be transmitted immediately.
In the first to third embodiments, the keep-alive issuer 1 and the AP 2 are connected by a wired LAN. However, it goes without saying that the connection may be made by a wireless LAN.

  The AP 2 in the first to third embodiments can be realized by, for example, a computer including a CPU, a storage device, a wired interface, and a wireless interface, and a program that controls these hardware resources. The CPU executes the processing described in the first to third embodiments in accordance with the wireless LAN access point program stored in the storage device.

  The present invention can be applied to a wireless LAN access point.

It is a block diagram which shows the structure of the communication network system which concerns on the 1st Embodiment of this invention. FIG. 2 is a block diagram illustrating a configuration example of a wireless LAN access point in FIG. 1. FIG. 3 is a block diagram illustrating a configuration example of a control unit in the wireless LAN access point of FIG. 2. It is a sequence diagram which shows operation | movement of the wireless LAN access point at the time of the keep alive inquiry packet reception in the 1st Embodiment of this invention. It is a block diagram which shows the structural example of the control part in the wireless LAN access point which concerns on the 2nd Embodiment of this invention. It is a sequence diagram which shows operation | movement of the wireless LAN access point at the time of the keep alive inquiry packet reception in the 2nd Embodiment of this invention. It is a block diagram which shows the structural example of the control part in the wireless LAN access point which concerns on the 3rd Embodiment of this invention. It is a sequence diagram which shows operation | movement of the wireless LAN access point at the time of the keep alive inquiry packet reception in the 3rd Embodiment of this invention. It is a sequence diagram which shows operation | movement of the wireless LAN access point at the time of the keep alive inquiry packet reception in the 3rd Embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Keep alive issuer, 2 ... Wireless LAN access point, 3 ... Wired LAN, 4-1 to 4-3 ... Wireless terminal, 5 ... Wireless LAN, 20 ... Wire transmission / reception part, 21 ... Wireless transmission / reception part, 22 ... Buffer Memory, 23... Terminal management unit, 24... Control unit, 240... Terminal determination unit, 241 ... proxy response unit, 242 ... update unit, 243 ... number determination unit, 244 ... thinning transmission unit, 245 ... transfer unit, 246 ... addition Information detection unit, 247... Transmission unit.

Claims (6)

Terminal management means for managing information of a wireless terminal connected to its own device via a wireless LAN;
When a keep-alive inquiry packet for confirming the validity of the connection is received from the keep-alive issuer, the destination of the inquiry packet is identified, and the wireless terminal connected to the own device is identified based on the information of the terminal management means. Terminal determination means for determining whether or not there is a wireless terminal corresponding to the destination,
When a wireless terminal corresponding to the destination exists, a keep alive response packet of the wireless terminal is created instead of the wireless terminal based on information of the terminal management means, and the response packet is sent to the keep alive issuer. A wireless LAN access point comprising proxy response means for returning the wireless LAN access point. The wireless LAN access point according to claim 1,
Furthermore, when there is a wireless terminal corresponding to the destination, a transmission thinning determination unit that determines whether a predetermined number of transmission thinnings has elapsed since the previous transmission of a keep-alive inquiry packet to the wireless terminal;
When the predetermined number of times of transmission thinning has elapsed, instead of performing a proxy response by the proxy response means, a thinning is performed to transmit a keepalive inquiry packet received from the keepalive issuer to the wireless terminal corresponding to the destination. A transmission means;
A wireless LAN access point comprising transfer means for transmitting a keep-alive response packet returned from a wireless terminal to the keep-alive inquiring packet in response to the keep-alive inquiry packet. The wireless LAN access point according to claim 1,
Further, when the additional information addressed to the wireless terminal is superimposed on the keep alive inquiry packet and there is a wireless terminal corresponding to the destination, the additional information of the keep alive inquiry packet transmitted to the wireless terminal last time is added to the current information. Additional information detecting means for determining whether or not the additional information of the keep-alive inquiry packet has changed;
When the additional information has changed, instead of performing a proxy response by the proxy response unit, a transmission unit that transmits a keepalive inquiry packet received from the keepalive issue source to the wireless terminal corresponding to the destination;
A wireless LAN access point comprising transfer means for transmitting a keep-alive response packet returned from a wireless terminal to the keep-alive inquiring packet in response to the keep-alive inquiry packet. A wireless LAN access point program for causing a computer to function as a wireless LAN access point,
When receiving a keep-alive inquiry packet for confirming the validity of the connection from the keep-alive issuer, the destination of this inquiry packet is identified, and based on the information of the terminal management means for managing the wireless terminal connected to the own device A terminal determination step for determining whether or not there is a wireless terminal corresponding to the destination among the wireless terminals connected to the device;
When a wireless terminal corresponding to the destination exists, a keep alive response packet of the wireless terminal is created instead of the wireless terminal based on information of the terminal management means, and the response packet is sent to the keep alive issuer. A wireless LAN access point program that causes the computer to execute a proxy response step of returning. The wireless LAN access point program according to claim 4,
Furthermore, when there is a wireless terminal corresponding to the destination, a transmission thinning determination step for determining whether or not a predetermined number of transmission thinnings has elapsed since the previous transmission of a keep-alive inquiry packet to the wireless terminal;
When the predetermined number of transmission thinnings has elapsed, instead of performing a proxy response in the proxy response step, a thinning for transmitting a keepalive inquiry packet received from the keepalive issue source to the wireless terminal corresponding to the destination Sending step;
A wireless LAN access point program that causes the computer to execute a transfer step of transmitting a keepalive response packet returned from a wireless terminal to the keepalive issuer in response to the keepalive inquiry packet. The wireless LAN access point program according to claim 4,
Further, when the additional information addressed to the wireless terminal is superimposed on the keep alive inquiry packet and there is a wireless terminal corresponding to the destination, the additional information of the keep alive inquiry packet transmitted to the wireless terminal last time is added to the current information. An additional information detection step for determining whether or not the additional information of the keep-alive inquiry packet has changed;
When the additional information has changed, instead of performing a proxy response by the proxy response step, a transmission step of transmitting a keep alive inquiry packet received from the keep alive issue source to the wireless terminal corresponding to the destination;
A wireless LAN access point program that causes the computer to execute a transfer step of transmitting a keepalive response packet returned from a wireless terminal to the keepalive issuer in response to the keepalive inquiry packet.

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