JP2006270500A - Terminal connection management system for radio network - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem of the connection allocation of radio terminals concerning how to connect a large number of radio terminals and a plurality of radio repeating stations in a conventional radio network. <P>SOLUTION: A radio network system is composed of a plurality of the radio repeating stations, a plurality of the radio terminals and a radio terminal management server connected with the radio network through another cable network. The radio terminal management server assigns a radio repeating station which a radio terminal is connected with based on the identification information of the radio terminal transmitted from the radio terminal through the cable network and the characteristic information of the radio terminal recorded in advance, in this terminal management system for the radio network. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a terminal connection management system for a wireless network.

  In a wireless network, in order to identify a group of networks, a wireless relay station (access point) periodically transmits an identification number called SSID (Service Set Identifier). Only when the SSID included in the data transmitted by the relay station matches the SSID information set by the wireless terminal, the wireless relay station can be connected. Therefore, it is necessary to grasp the SSID used by the wireless relay station in advance at the wireless terminal and set the SSID. For example, in a general-purpose PC (Personal Computer) or the like, when using a wireless network, the user himself needs to select and set the SSID of the wireless relay station. In order to simplify this operation, for example, in Patent Document 1, a small mobile terminal in which SSID information to be set in the wireless terminal is recorded is brought close to the wireless terminal, using a communication means different from the original wireless communication, A method is proposed in which information including an SSID is communicated from a small portable terminal to a wireless terminal, and the SSID is set in the wireless terminal. However, when such a setting method is used, in the case of a large-scale wireless network system in which several tens or more wireless terminals are connected, the mobile terminal is used to each SSID for each wireless terminal. It takes a lot of work and time to set and change the settings.

  Now, since there is an upper limit to the wireless transmission performance of the wireless relay station, in a large-scale wireless network system, if all wireless terminals are connected to one wireless relay station, A network failure such as data delay or data interruption of the wireless network occurs. Therefore, in order to avoid such a problem, a wireless network is generally configured by using a plurality of wireless relay stations. In this case, a wireless terminal that determines which wireless relay station to connect each wireless terminal to. A new connection allocation problem occurs. In addition, in order to facilitate the connection setting of the wireless terminal, if a method of allocating a wireless terminal to be connected to the wireless relay station in advance is used, a failure of the wireless relay station may occur during the process, or a wireless terminal may be added. -When the system configuration is changed, such as changing the wireless repeater connected to the wireless terminal after replacement occurs, the time required for newly resetting the connection of the wireless terminal increases.

As described above, the connection setting method of the wireless terminal in the conventional wireless network does not particularly take into consideration the time and cost required for the setting as a whole system and the efficiency of the setting operation.
JP 2003-229872 A

  As described above, in the conventional wireless network, it is necessary to individually set the connection to the wireless network on the wireless terminal side. There has been a problem of how to efficiently do this.

  In view of the above, an object of the present invention is to provide a terminal connection management system for a system wireless network in which connection setting information is given to a wireless terminal from a wireless terminal management server that manages connection setting information of the wireless terminal.

In order to solve this problem, a terminal connection management system for a wireless network according to the first aspect of the present invention described in claim 1 is:
In a wireless network system including a plurality of wireless relay stations, a plurality of wireless terminals, and a wireless terminal management server connected by a separate wired network from the previous wireless network, the wireless terminal management server passes through the wired network. The wireless relay station to which the wireless terminal is connected is assigned based on the identification information of the wireless terminal transmitted from the wireless terminal and the unique information of the wireless terminal recorded in advance.

Further, a terminal connection management system for a wireless network according to a second aspect of the present invention described in claim 2 is:
In a wireless network system including a plurality of wireless relay stations, a plurality of wireless terminals, and a wireless terminal management server connected by a separate wired network from the previous wireless network, the wireless terminal management server passes through the wired network. The wireless relay station to which the wireless terminal is connected is assigned based on the identification information of the wireless terminal and the wireless network connection information of the wireless terminal transmitted from the wireless terminal.

A terminal connection management system for a wireless network according to a third aspect of the present invention described in claim 3 is:
In a wireless network system including a plurality of wireless relay stations, a plurality of wireless terminals, and a wireless terminal management server, the wireless terminal management server transmits from the wireless terminal via a wireless network of a specific wireless relay station The wireless relay station to which the wireless terminal is connected is assigned based on the identification information of the wireless terminal and the unique information of the wireless terminal recorded in advance.

A terminal connection management system for a wireless network according to a fourth aspect of the present invention described in claim 4 is:
In a wireless network system including a plurality of wireless relay stations, a plurality of wireless terminals, and a wireless terminal management server, the wireless terminal management server transmits from the wireless terminal via a wireless network of a specific wireless relay station The wireless relay station to which the wireless terminal is connected is assigned based on the identification information of the wireless terminal and the wireless network connection information of the wireless terminal.

  According to the present invention, management setting can be performed centrally using a wireless terminal management server without individually setting connection to a wireless network for each wireless terminal.

(Embodiment 1)
1 to 4 are diagrams showing a first embodiment using a terminal connection management system for a wireless network according to the present invention.

  FIG. 1 is a block diagram of a terminal connection management system for a wireless network according to the present invention. In FIG. 1, 10, 11 and 12 are wireless relay stations, 20, 21 and 22 are wireless networks, 30 is a wireless terminal management server, 100 to 105 are wireless terminals, and 200 is a wired network.

  FIG. 2A is a block diagram showing the internal configuration of the wireless terminal, in which 120 is a wired network communication unit, 130 is a wireless network communication unit, and 140 is a wireless connection information setting unit.

  FIG. 2B is a block diagram showing an internal configuration of the wireless terminal management server, in which 31 is a wired network communication unit, 32 is a terminal connection management unit, 33 is a wireless terminal information storage unit, and 34 is a wireless relay station information storage unit. , 35 are terminal connection information storage units.

  FIG. 3 shows internal information stored in the wireless terminal management server, and FIG. 3A shows wireless terminal information 300 indicating the network address (MAC address) and the unique position of the terminal, which is identification information of the wireless terminal. FIG. 3B is wireless relay station information 310 including an SSID indicating the installation position of the wireless relay station and the group of the wireless network, and FIG. 3C is connection allocation information 320 of the wireless terminal.

  4 shows data communicated between the wireless terminal and the wireless terminal management server, FIG. 4A shows a connection setting request 400 transmitted from the wireless terminal to the wireless terminal management server, and FIG. 4B shows connection setting. In response to the request 400, a connection setting response 410 returned from the wireless terminal management server to the wireless terminal is shown.

  A wireless network terminal connection management system according to the first embodiment will be described with reference to FIGS.

  When the wireless terminal 100 performs connection setting to the wireless network, first, the wireless connection information setting unit 140 in FIG. 2A passes through the wired network 200 through the wired network communication unit 120 and connects in FIG. 4A. The setting request data is transmitted to the wireless terminal management server 30 and a response from the wireless terminal management server 30 is awaited. 4A includes a network MAC address as identification information of the wireless terminal 100 and an SSID acquisition request (indicating a wireless network) as connection setting information.

  On the other hand, in the wireless terminal management server 30, the terminal connection management unit 32 receives the connection setting request 400 from the wireless terminal 100 through the wired network communication unit 31. The terminal connection management unit 32 extracts the MAC address data of the network, which is the identification information of the wireless terminal 100, extracted from the connection setting request 400, and the location information storage unit 33 of FIG. The MAC address data of the wireless terminal information 300 in a) is compared, and position information that is unique information of the wireless terminal 100 is acquired. For example, if the wireless terminal 100 is 00.01. DA. FF. If the MAC address is 82.01, the wireless terminal 100 is in the zone 1 position.

  Next, the terminal connection management unit 32 refers to the radio relay station information 310 in FIG. 3B stored in the radio relay station information storage unit 34 in FIG. From the position information of 100 (= zone 1), it is identified that the wireless terminal 100 is compatible with the wireless relay station 10 of zone 1.

  Therefore, the terminal connection management unit 32 assigns the wireless terminal 100 to the wireless network 20 of the wireless relay station 10 and records SSID = AAAA indicating the wireless network 20 in the wireless connection information 320 of FIG. Then, the terminal connection management unit 32 transmits a connection setting response 410 including an SSID indicating the wireless network 20 to which the wireless terminal 100 is connected to the wireless terminal 100.

  The wireless terminal 100 receives the connection setting response 410 from the wireless terminal management server 30 through the wired network communication unit 120. Then, SSID data which is connection setting information is extracted from the connection setting response 410, and connection setting of the wireless network is performed.

  As a result, the wireless terminal 100 can connect to the wireless network 20 of the wireless relay station 10 assigned by the wireless terminal management server 30 through the wireless network communication unit 130.

  In this way, the radio terminal management server 30 can assign the radio relay station 10 to which the radio terminal 100 is connected based on the identification information and unique information of the radio terminal 100.

  As described above, according to the present embodiment, by using a wireless terminal management server, in a large-scale wireless network system, the connection allocation of wireless networks can be unified without individual terminals performing independent connection settings. It can be performed.

  In this embodiment, the case where the MAC address of the wired network 200 is used as the identification information of the wireless terminal has been described. However, the terminal is the only individual such as the IP address (Internet address) and the terminal manufacturing number. Needless to say, it is also possible to assign a connection to a wireless network using the information indicating the above.

  Further, the rules for assigning the radio relay stations 10 to 12 and the radio terminals 100 to 105 have been described in the case where physical location information is used as the unique information of the radio relay stations 10 to 12 and the radio terminals 100 to 105. It is also possible to use a connection allocation rule that uses terminal-specific information other than typical location information.

  Moreover, although the case where SSID was used as connection information to a wireless network was shown, for example, wireless network identification information such as a network address (MAC address) owned by the wireless relay stations 10 to 12 is used as connection information. However, it goes without saying that a connection to a wireless network can be assigned in the same manner.

(Embodiment 2)
5 and 6 are diagrams showing a second embodiment using the wireless network terminal connection management system of the present invention.

  FIG. 5 is a block diagram of a terminal connection management system for a wireless network according to the present invention. In FIG. 5, 10, 11, and 12 are wireless relay stations, 40, 41, and 42 are wireless networks, 50 is a wireless terminal management server, 100 to 105 are wireless terminals, and 200 is a wired network. FIG. 6 shows internal information stored in the wireless terminal management server. 301 in FIG. 6A is terminal-specific information including the network address (MAC address) and position of the wireless terminal, and 330 in FIG. The wireless relay station information including the SSID indicating the wireless network group of the wireless relay station and the number of wireless terminals connected to the wireless relay station, and reference numeral 340 in FIG. 6C is connection assignment information of the wireless terminals.

  A wireless network terminal connection management system according to the second embodiment will be described with reference to FIGS. 2, 4, 5, and 6. FIG.

  When the wireless terminal 100 performs connection setting to the wireless network, the connection setting request 400 shown in FIG. 4A is transmitted through the wired network 200 until the wireless terminal management server 50 receives it, as in the first embodiment. It shall be processed in the same way as the case. The wireless terminal management server 50 is assumed to have the structure shown in FIG.

  In the wireless terminal management server 50, the terminal connection management unit 32 in FIG. 2 receives the connection setting request 400 from the wireless terminal 100 through the wired network communication unit 31.

  The terminal connection management unit 32 stores the MAC address data of the network, which is identification information of the wireless terminal 100, from the connection setting request 400 and the position information storage unit 33 of FIG. MAC address data is acquired from the wireless terminal information 301.

  Next, the terminal connection management unit 32 refers to the radio relay station information 330 in FIG. 6B stored in the radio relay station information storage unit 34 in FIG. 6 is selected, the SSID indicating the wireless network group of the wireless relay station is acquired, and the MAC address and SSID, which are identification information of the wireless terminal that has transmitted the connection setting request 400, are obtained. ) Of wireless terminal connection assignment information 340. For example, the wireless terminal 105 has a MAC address 90.22. AF. If the wireless terminal 105 transmits a connection setting request 400 assuming that the terminal has 74.55.23, the number of terminals of the wireless relay station C is the smallest in the case of FIG. CCCC is assigned as SSID data to be set, and the terminal assignment number = 5 in the connection information 340 of the wireless terminal in FIG. 6C is set. Then, the terminal connection management unit 32 transmits a connection setting response 410 including the SSID indicating the wireless network 42 to which the wireless terminal 105 is connected to the wireless terminal 105.

  On the other hand, the wireless terminal 105 receives the connection setting response 410 from the wireless terminal management server 50, extracts SSID data as connection setting information from the connection setting response 410, and performs connection setting of the wireless network. The wireless terminal 105 can be connected to the wireless network 42 of the wireless relay station 12 assigned by the wireless terminal management server 50.

  Thus, the wireless terminal management server 50 can assign the wireless relay stations 10 to 12 to which the wireless terminals 100 to 105 are connected based on the number of wireless terminals connected to the wireless relay station.

  As described above, according to the present embodiment, by using a wireless terminal management server, in a large-scale wireless network system, the connection allocation of wireless networks can be unified without individual terminals performing independent connection settings. It can be performed.

(Embodiment 3)
7 and 8 are diagrams showing a third embodiment using a terminal connection management system for a wireless network according to the present invention.

  FIG. 7 is a block diagram of a wireless network terminal connection management system according to the present invention. 10, 11, 12, and 13 are wireless relay stations, 30 is a wireless terminal management server, 60, 61, 62, and 63 are wireless networks, 110 ˜115 are wireless terminals, and 201 is a wired network.

  FIG. 8A is a block diagram showing the internal configuration of the wireless terminal, 131 is a wireless network communication unit, and 141 is a wireless connection information setting unit. The wireless terminal management server 30 is assumed to have the structure of FIG. 2 as in the first embodiment.

  A wireless network terminal connection management system according to the third embodiment will be described with reference to FIGS.

  The wireless terminal 100 performs connection setting to the wireless network through the wireless network 63 constructed by the wireless relay station D13. First, the wireless connection information setting unit 141 in FIG. 2A transmits the connection setting request data in FIG. 4A to the wireless terminal management server 30 through the wireless network 63 from the wireless network communication unit 131. Then, the wireless relay station D13 that has received the connection setting request data in FIG. 4A transmits it to the wireless terminal management server 30 through the connected wired network 201.

  On the other hand, processing until wireless terminal management server 30 receives connection setting request data 400 from wireless terminal 100 and returns connection setting response 410 is the same as in the first embodiment.

  The wireless terminal 100 receives the connection setting response 410 from the wireless terminal management server 30 through the wired network communication unit 11, extracts the SSID data as connection setting information from the connection setting response 410, and assigns the assigned wireless network. 20 connection settings are made.

  As a result, the wireless terminal 100 can connect to the wireless network 20 of the wireless relay station 10 assigned by the wireless terminal management server 30 through the wireless network communication unit 130.

  In this way, the wireless terminal 100 is assigned the wireless relay station 10 connected from the wireless terminal management server 30 via the wireless network 13 for connection setting.

  As described above, according to the present embodiment, by using a wireless network dedicated for connection setting and a wireless terminal management server, in a large-scale wireless network system, each terminal is unified without setting connection independently. Wireless network connection assignment can be performed.

  In the present embodiment, the case where the SSID is used as the connection information to the wireless network is shown. However, for example, the wireless network identification information such as the network address (MAC address) owned by the wireless relay stations 10 to 12 is used. Needless to say, even if the connection information is used as the connection information, the connection to the wireless network can be assigned in the same manner.

  The terminal connection management system for a wireless network according to the present invention is useful for performing connection assignment of wireless terminals in a wireless network including a large number of wireless terminals and a plurality of wireless relay stations.

1 is a block diagram of a terminal connection management system for a wireless network according to a first embodiment of the present invention. 1 is a block diagram showing an internal configuration of a wireless terminal and a wireless terminal management server according to Embodiment 1 of the present invention. The figure which shows the internal information of the radio | wireless terminal management server of Embodiment 1 of this invention. The figure which shows the format of the communication data of Embodiment 1 of this invention Block diagram of a wireless network terminal connection management system according to a second embodiment of the present invention The figure which shows the internal information of the radio | wireless terminal management server of Embodiment 2 of this invention. Block diagram of a wireless network terminal connection management system according to a third embodiment of the present invention FIG. 3 is a block diagram showing an internal configuration of a wireless terminal according to Embodiment 3 of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10-12 Wireless relay station 20-23 Wireless network 30 Wireless terminal management server 31 Wired network communication part 32 Terminal connection management part 33 Terminal specific information storage part 34 Wireless relay station information storage part 35 Terminal connection information storage part 100-105 Wireless terminal 110 to 115 Wireless terminal 120 Wired network communication unit 130 Wireless network communication unit 131 Wireless network communication unit 140 Wireless connection information setting unit 141 Wireless connection information setting unit 200 Wired network 300 Wireless terminal information 301 Wireless terminal information 310 Wireless relay station information 320 Wireless Terminal connection allocation information 330 Wireless relay station information 340 Wireless terminal connection allocation information 400 Connection setting request 410 Connection setting response

Claims (4)

In a wireless network system including a plurality of wireless relay stations, a plurality of wireless terminals, and a wireless terminal management server connected by a wired network different from the previous wireless network,
The wireless terminal management server is configured to connect the wireless terminal based on identification information of the wireless terminal transmitted from the wireless terminal via the wired network and unique information of the wireless terminal recorded in advance. A terminal connection management system for a wireless network, wherein a wireless relay station is allocated. In a wireless network system including a plurality of wireless relay stations, a plurality of wireless terminals, and a wireless terminal management server connected by a wired network different from the previous wireless network,
The wireless terminal management server determines the wireless relay station to which the wireless terminal connects based on the wireless terminal identification information and the wireless network connection information transmitted from the wireless terminal via the wired network. A terminal connection management system for a wireless network, characterized by being assigned. In a wireless network system composed of a plurality of wireless relay stations, a plurality of wireless terminals, and a wireless terminal management server,
The wireless terminal management server, based on the identification information of the wireless terminal transmitted from the wireless terminal via a wireless network of a specific wireless relay station and the unique information of the wireless terminal recorded in advance, A terminal connection management system for a wireless network, wherein the wireless relay station to which a wireless terminal is connected is assigned. In a wireless network system composed of a plurality of wireless relay stations, a plurality of wireless terminals, and a wireless terminal management server,
The wireless terminal management server, based on identification information of the wireless terminal transmitted from the wireless terminal via a wireless network of a specific wireless relay station and wireless network connection information of the wireless terminal, A wireless network terminal connection management system, wherein the wireless relay station to be connected is allocated.

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