JP2006304005A - Wireless lan internet telephone - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain wireless LAN Internet telephone wherein selection of an access point and authentication are efficiently carried out. <P>SOLUTION: The wireless LAN system comprises a plurality of access points 2a and 2b communicating with wireless terminals for voice telephone calling, an authentication server 5 which judges whether connections are authenticated at connection requests from the wireless terminals 1 for connections with the access points 2a and 2b, and a network 4 connected to the access points 2a and 2b and authentication server 5. Beacon information which is sent from the access points 2a and 2b and received by the wireless terminals 1 includes the degree of network congestion and physical positions of the wireless terminals. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to connection authentication of a wireless LAN Internet telephone for making a call using a wireless LAN.

In the conventional wireless LAN internet telephone, in order to efficiently perform connection authentication to the wireless LAN, information on the authentication center in the composite communication system is shared. In this case, information in the authentication server of the mobile phone and authentication data in the wireless LAN are shared so that connection authentication does not overlap (see, for example, Patent Document 1).
The wireless LAN communication protocol is specified by IEEE (the Institute of Electrical and Electronic Engineers). As wireless LANs, 802.11a using the 5 GHz band and 802.11b and 802.11g using the 2 GHz band are widely used. The wireless LAN Internet telephone is composed of a wireless LAN, an access point connected to the wireless LAN, a wireless terminal connected wirelessly to the access point, and the like. In these wireless LAN Internet telephones, the access point periodically transmits a signal called a beacon as beacon information, and wirelessly indicates the access point identification number, beacon transmission interval, transfer speed, channel number, power saving service, etc. Tell your device. The access point and the wireless terminal have a common key, and communication is performed by encrypting data using this key (see, for example, Non-Patent Document 1).

JP 2003-348655 A (page 4, FIG. 1) ANSI / IEEE Std 802.11, 1999 Edition 7.2.3.1 Beacon frame format (page 46)

  In a conventional wireless LAN Internet telephone, when a wireless terminal connects to an access point, an identification number (SSID (Service Set IDentification)) included in beacon information transmitted from the access point is acquired, and the identification number is pre- Since the connection request is issued based on the priority set in the wireless terminal, there is a problem that access point selection and authentication cannot be performed efficiently.

  The present invention has been made to solve the above-described problems, and efficiently performs access point selection and authentication.

  In the wireless LAN Internet phone according to the present invention, a plurality of access points that communicate with a wireless terminal that makes a voice call, and connection authentication in response to a connection request from the wireless terminal to connect to the access point A wireless LAN Internet telephone comprising an authentication server for determining the access point and a network to which the access server and the authentication server are connected, and the beacon information transmitted from the access point and received by the wireless terminal includes the network congestion level and the wireless terminal It includes the physical position.

  The present invention includes a plurality of access points that communicate with a wireless terminal that performs voice communication, an authentication server that determines connection authentication in response to a connection request from a wireless terminal for connecting to the access point, A wireless LAN Internet phone having an access point and a network to which an authentication server is connected, and the beacon information transmitted from the access point and received by the wireless terminal includes the network congestion level and the physical location of the wireless terminal. The access point can be selected and authenticated efficiently.

Embodiment 1 FIG.
FIG. 1 is a configuration diagram of a wireless LAN Internet telephone according to Embodiment 1 for carrying out the present invention. When a plurality of service providers provide different wireless LANs (hereinafter referred to as networks) in the same region, when the wireless terminal using the wireless LAN Internet telephone moves within the region, the wireless terminal It is necessary to sequentially connect to access points of different service provider networks. In such a case, it is necessary to connect to an efficient network without interruption of the call and to efficiently connect to a cheaper network.

  In FIG. 1, a wireless terminal 1 that makes a voice call communicates with access points 2a and 2b of a plurality of networks. The wireless terminal 1 can simultaneously communicate with the access points 2a and 2b in the service ranges 3a and 3b of the access points 2a and 2b. The wireless terminal 1 may move from the service range 3a of the access point 2a to the service range 3b of the access point 2b, or may be in a range where the service ranges 3a and 3b overlap. The access points 2a and 2b are connected to the network 4 of the service provider. The wireless LAN Internet telephone is constituted by a network 4 to which access points 2a and 2b and an authentication server 5 are connected.

  The connection method of the wireless terminal 1 to the access points 2a and 2b is as follows. The authentication server 5 connected to the network 4 manages the identification number and password of the user of the wireless terminal 1. In response to a connection request for connecting to the access points 2a and 2b from the wireless terminal 1, the access points 2a and 2b inquire the information of the wireless terminal 1 to the authentication server 5, and the authentication server 5 determines the authentication of the connection. The authentication server 5 authenticates the connection to the network 4 in response to the correct connection request of the wireless terminal 1.

  The network 4 is connected to the Internet 8 via a firewall 6. A SIP (Session Initiation Protocol) proxy 7 for voice call of the service provider to which attention is paid is connected to the firewall 6. In addition, a voice call SIP proxy 9 operated by another service provider is connected to the Internet 8. Usually, the wireless terminal 1 tries to connect to the network 4 based on the beacon information of a specific access point 2a. The beacon information transmitted from the plurality of access points 2a and 2b and received by the wireless terminal 1 includes the service usage price, the number of service users, the network congestion level, and the physical location of the wireless terminal 1. The wireless terminal 1 is connected to a plurality of access points 2a and 2b to which the wireless terminal 1 can be connected, the network performance is evaluated in consideration of the beacon information, and a connection path for performing a voice call is selected.

  FIG. 2 is a flowchart showing the operation of the wireless LAN Internet telephone in the first embodiment, and is a procedure until the wireless terminal 1 starts communication. First, in step ST101, the wireless terminal 1 searches for an access point that can receive a radio signal. From the access points 2a and 2b, in addition to the beacon information defined in the IEEE802.11b standard, the service usage price, the number of service users, the network congestion level, and the physical location are transmitted. In steps ST102 to ST104, the identification number, additional information, etc. included in the beacon information of the access points within the radio wave reach including the access points 2a and 2b are received.

  In step ST105, the optimal access point 2a is selected and combined with the access point 2a, taking into account additional information included in the beacon information, service price, number of users, network congestion, and location information of the wireless terminal 1 Make a request. In step ST106, the access point 2a inquires of the authentication server 5 whether or not the wireless terminal 1 requesting connection is valid. In step ST107, the authentication server 5 authenticates the connection, and in step ST108, an IP (Internet Protocol) address, a default gateway address, and a DNS (Domain Name System) server address are given to the wireless terminal 1 via the access point 2a. . As described above, based on the beacon information, the user of the wireless LAN Internet telephone can select a more advantageous access point 2a in price and service.

  In addition, in order to grasp | ascertain the physical position of the radio | wireless terminal 1, the selection criteria of an access point can be changed according to the physical position of the radio | wireless terminal 1 by using positioning systems, such as GPS (Global Positioning System). . By selecting an access point based on the physical location of the wireless terminal 1, a more advantageous wireless LAN Internet telephone service can be selected.

  Next, a case where connection requests are made to a plurality of access points and a plurality of IP addresses, default gateway addresses, and domain name system server addresses are received will be described. FIG. 3 is another flowchart showing the operation of the wireless LAN Internet telephone in the first embodiment. First, in step ST201, the wireless terminal 1 searches for an access point that can receive a radio signal. From the access points 2a and 2b, in addition to the beacon information defined in the IEEE802.11b standard, the service usage price, the number of service users, the network congestion level, and the physical location are transmitted. In steps ST202 to ST204, the identification number and additional information included in the beacon information of the access points within the radio wave reach including the access points 2a and 2b are received.

  In step ST205, the additional information included in the beacon information, the service price, the number of users, the network congestion level, and the location information of the wireless terminal 1 are combined, and the optimum access point 2a is selected and connected to the access point 2a. Make a request. In step ST206, the access point 2a inquires of the authentication server 5 whether or not the wireless terminal 1 requesting connection is valid. In step ST207, the authentication server 5 authenticates the connection, and in step ST208, the IP address, default gateway address, and DNS server address are given to the wireless terminal 1 via the access point 2a. Similarly, in step ST209, a connection request is made to the access point 2b. In step ST210, the access point 2b inquires of the authentication server 5 whether or not the wireless terminal 1 requesting connection is valid. In step ST211, the authentication server 5 authenticates the connection, and in step ST212, an IP address, a default gateway address, and a DNS server address are given to the wireless terminal 1 via the access point 2b.

  Since there are a plurality of access points, one connected access point may be used during communication, or the network may be connected via a plurality of access points. Further, the connection to the access point may be switched according to the network environment and the radio wave environment. When the IP address is changed at the time of handover for switching the connection to the access point, it takes time to switch in the application layer above the IP layer (OSI reference model), and communication and voice are likely to be interrupted. By acquiring a plurality of IP addresses and connecting to the network, switching to the network is performed smoothly, so that connection to the optimal network is possible such as no interruption of voice.

  The access point may be selected by the following method. By selecting an access point based on packet loss, a connection with good voice quality is possible. By selecting an access point based on real-time characteristics without packet delay, connection without voice delay becomes possible. By selecting an access point based on the usage fee, a call can be made at a lower cost. By selecting and authenticating the access point when the wireless terminal 1 is initialized, a more advantageous connection is possible. By repeatedly selecting and authenticating the access point during standby, the optimal network connection can always be made while the radio wave status and network status are constantly changing. By repeatedly selecting and authenticating the access point during a call, an optimal connection is realized while the network status changes during the call. By selecting and authenticating the access point when moving the subnet of the IP network, an optimal connection is realized while the network environment changes when moving the subnet.

  As described above, since the access point 2a, 2b to be connected is selected based on the beacon information including the network congestion level and the physical location of the wireless terminal in the beacon information received by the wireless terminal 1, the access point 2a, 2b Selection and authentication can be performed efficiently. As a result, the user can select a more advantageous wireless LAN Internet telephone service.

Embodiment 2. FIG.
FIG. 4 is a configuration diagram of a wireless LAN Internet telephone according to Embodiment 2 for carrying out the present invention. In FIG. 4, the network and other wireless services are mixed, and a wireless service different from the access point 2a, for example, the mobile phone service 13, is provided in the same region. Examples of mobile phone services include PDC (Personal Digital Cellular), PHS (Personal Handyphone System), and CDMA (Code Division Multiple Access).

  A wireless terminal 1 that performs a voice call communicates between an access point 2a of a plurality of networks and a mobile phone service 13. The wireless terminal 1 can simultaneously communicate between the access point 2a and the mobile phone service 13 in the service range 3a of the access point 2a and the service range 14 of the mobile phone service 13. The access point 2 a is connected to the service provider network 4, and the mobile phone service 13 is connected to the Internet 8. When switching the connection between the network 4 and the mobile phone service 13, the access point is selected and authenticated as shown in the first embodiment. In such a wireless LAN Internet telephone, the wireless terminal 1 is connected simultaneously with at least two or more networks and acquires IP addresses of a plurality of networks. Since the connection is made simultaneously with at least two or more networks, it is possible to connect to the optimum network such that there is no interruption in the sound.

  By sending data such as a credit card number from the wireless terminal 1 to the authentication server 5, the authentication server 5 can authenticate the connection to the access point 2a even if it is not registered in the authentication server 5 in advance. You can also. Even if it is not registered in advance, it can be used immediately, improving the convenience for the user. Further, the data transfer amount and access destination of the wireless terminal 1 once authenticated are monitored, and when the wireless terminal 1 increases the load on the network, this is recorded in the authentication server 5. By disconnecting the wireless terminal 1 from the network and making a connection request next time, when the wireless terminal 1 makes a connection request, the service provider does not authenticate the transmission of the warning or the connection. It can prevent efficiency degradation and ensure comfortable network use for many users. Access point selection and authentication can be performed efficiently.

  As described above, since at least two or more networks including the mobile phone service 13 are connected simultaneously, access point selection and authentication can be performed efficiently such that there is no voice interruption.

Embodiment 3 FIG.
FIG. 5 is a configuration diagram of a wireless LAN Internet telephone according to Embodiment 3 for carrying out the present invention. 5 is different from the second embodiment in that an authentication server 15 is connected to the Internet 8. Authentication servers 5 and 15 are distributed and installed on the network. Even if the identification number or the like of the wireless terminal 1 is not registered in the authentication server 5, authentication can be performed by referring to another pre-registered authentication server 15. In addition, by distributing the authentication servers 5 and 15, the load on the authentication servers 5 and 15 can be reduced.

As described above, since the authentication servers 5 and 15 are distributed and installed on the network, the load on the authentication servers 5 and 15 can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS It is a block diagram of the wireless LAN internet telephone which shows Embodiment 1 of this invention. It is a flowchart which shows operation | movement of the wireless LAN internet telephone which is Embodiment 1 of this invention. It is another flowchart which shows the operation | movement of the wireless LAN internet telephone which is Embodiment 1 of this invention. It is a block diagram of the wireless LAN internet telephone which shows Embodiment 2 of this invention. It is a block diagram of the wireless LAN internet telephone which shows Embodiment 3 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Wireless terminal 2a, 2b Access point 3a, 3b, 14 Service range 4 Network 5, 15 Authentication server 6 Firewall 7, 9 SIP proxy 8 Internet 13 Mobile phone service

Claims (4)

Multiple access points that communicate with wireless terminals that make voice calls,
An authentication server that determines permission of connection in response to a connection request from the wireless terminal for connecting to the access point;
A wireless LAN Internet phone comprising a network to which the access point and the authentication server are connected,
The wireless LAN Internet telephone, wherein the beacon information transmitted from the access point and received by the wireless terminal includes a network congestion level and a physical location of the wireless terminal. 2. The wireless LAN Internet telephone according to claim 1, wherein an access point to be connected is selected based on beacon information. 3. The wireless LAN Internet telephone according to claim 1, wherein the wireless terminal grasps a physical position using a positioning system. The wireless LAN Internet telephone according to any one of claims 1 to 3, wherein the wireless terminal is connected simultaneously with at least two or more networks and acquires a plurality of IP addresses of the networks.

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