JP2004120771A - Radio communication system, and gateway switching method in radio communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To notify a radio information terminal under non communication or under stop, too, of the address of a switching destination gateway when it becomes necessary to switch a gateway to be originally used because of any reason, in a communication system for establishing communications between the radio information terminal and a server via the gateway. <P>SOLUTION: An address notification means is provided for transmitting an address notification of the switching destination gateway to the radio information terminal based upon a switching instruction of the gateway inputted from an operator. Particularly, the address notification means transmits the address notice to the radio information terminal under no communication when the switching instruction is inputted, or to the radio information terminal under stop when the terminal starts communications. <P>COPYRIGHT: (C)2004,JPO

Description

The present invention relates to a wireless communication system, and more particularly to a method related to gateway switching in a wireless communication system, and a gateway, a wireless information terminal, and a communication system used in this method.

In recent years, due to the rapid spread of so-called Internet services such as the World Wide Web (WWW), the scale of computer networks and the diversification of connection forms are progressing.

Along with this, gateways that connect information terminals and servers to the network are also required to improve processing capabilities and increase functions.

As an example of diversification of connection forms, by adding wireless communication capability to information terminals and using a mobile communication network such as a mobile phone network, a wireless network that can be used in a place where it cannot be directly connected to a computer network while moving, One example is mobile computing. 1 and 2 are conceptual diagrams showing a communication form using the wireless network.

Fig. 1 shows the configuration of a wireless network using a public network or a private network.

When a user tries to execute an application held by the terminal 1, the terminal 1 is connected to the server 6 via the wireless base station 2, the network 3 and the gateway 4 or the gateway 5, and communicates with the server to perform the application. Is supposed to run.

FIG. 2 shows a form of a wireless network in which the gateway itself has a server function and does not go through a network that is operated in a narrower range than FIG. That is, the terminal 1 and the gateway 4 or the gateway 5 communicate with each other via the wireless base station 2 to execute the application.

In the wireless network described above, it is necessary to temporarily increase gateway functions according to changes in the network, or to temporarily stop gateway operations for periodic maintenance. In order to continue the network operation even when the gateway is stopped, a plurality of gateways are prepared as shown in FIGS. 1 and 2, for example, when one gateway 4 is stopped, the other gateway 5 is set. A gateway switching function is required for the network so that the terminal and the server can communicate via each other.

Here, an outline of the communication protocol between the terminal and the gateway will be described with reference to FIG.

The terminal-side application 71 is a program that is directly operated by the user, such as a WWW browser, for example, and the gateway-side application 75 (in this example, the server function is incorporated in the gateway is illustrated in FIG. 2 as an example. ) Is a program for exchanging information with a terminal-side application such as WWW server software.

The session layer protocol means 72 is a protocol for providing a common transfer control function for various applications 71 and 75, for example, a means for delimiting transfer data and transfer processing in delimiter units. Further, the session layer management entity means 73 manages system resources (for example, memory) used by a plurality of session processes generated by data communication between the terminal and the server, and management of processing over the entire system (for example, notification of gateway switching timing). It is a program that performs. Further, the lower layer protocol 74 is a program and apparatus for performing communication control.

FIG. 31 is a sequence diagram showing the communication form of FIG.

The session layer protocol means 3102 of the terminal 1 is in communication 3103 with the session layer protocol means 3104 of the gateway 4 in order to execute the application 3101. At this time, when a gateway switching instruction 3108 is input from the operator to the management entity means 3105 of the gateway 4, the disconnection notification 3109 is sent to the session layer protocol means 3102 of the terminal 1 via the management entity means 3105 and the session layer protocol means 3104. Issue. As a result, the session layer protocol means 3102 of the terminal 1 performs the disconnect display 3110 on the application 3101 or does not display it, and the application 3101 interrupts execution.

When the gateway 4 issues the disconnection notification 3109, the operation is stopped by the operation of the operator or the function of the gateway 4. Thereafter, in order to re-execute the interrupted application 3101, the terminal 1 requests the session layer protocol means 3102 to reconnect 3111 to the gateway 5 based on the gateway address information held in the terminal 1 itself.

Then, after the session 3112 is established between the session layer protocol means 3102 and the session layer protocol means 3106 of the gateway 5, the communication 3113 is in progress, and the suspended application 3101 can be re-executed.

However, in the conventional technology described above, in order to perform gateway connection switching by stopping the gateway, it is necessary to store address information of a plurality of gateways as switching destinations in a terminal memory in advance. The use of a redundant memory that always stores information necessary only when switching between the terminals is not preferable for a terminal that requires small and multi-function.

Also, there is a problem that the gateway address information of the terminal must be updated each time the network configuration changes such as addition or deletion of servers or gateways.

As a technique for solving such a problem, the present applicant notifies the address of the switching destination gateway to each terminal communicating with the gateway when the gateway is stopped according to Patent Document 1 described later. Proposed method.
JP 2000-174824 A

However, the method of Patent Document 1 cannot be applied to a non-communication terminal or a stopped terminal described below.

A terminal is “not communicating” means that the terminal is powered on, but no session (logical connection) has been established, and incoming calls from other terminals can be made at any time, ie “standby” ". In addition, the terminal being “stopped” refers to a state where the power of the terminal is turned off, or even if the power is turned on, the terminal is out of the radio base station and cannot communicate with the gateway.

That is, there was no method for notifying the address of the switching destination gateway as described above to a non-communication or stopped terminal. For this reason, when the gateway is switched while the terminal is not communicating or stopped, in the method of Patent Document 1, the terminal cannot know the address of the switching destination gateway and thereafter operates the stopped gateway. The application cannot be executed until is restarted.

The present invention has been made in view of the above-described problems, and when a terminal is not communicating or stopped when a gateway switching is input from an operator, the terminal switches when the terminal starts communication. To provide a wireless communication system that avoids the use of the above-mentioned redundant memory by notifying the address of the destination gateway, etc., can easily cope with changes in the network configuration, and always enables execution of applications. Objective.

The means employed in the present invention to solve the above problems will be described with reference to FIG.

The present invention is a communication system that establishes communication between a wireless information terminal and a server through a gateway, and operates a gateway that should be used for some reason (hereinafter referred to as a “switching source gateway” or a “normal gateway”). Applied when it is necessary to stop and switch to another gateway.

Therefore, first, the gateway 200 is provided with address notification means 201 for notifying the wireless information terminal 300 of the address (IP address) of the switching destination gateway when an instruction to switch the gateway is input from the operator 100. This is specifically constituted by the session layer management entity means 73 and the session layer protocol means 72 of the gateway 200.

Then, the address notifying unit 201 sends the address notification in which the switching notification signal is written in the header and the address of the switching destination gateway is written in the footer by the communication unit 202 of the gateway 200 as shown in FIG. Sent to 300. Here, the communication unit 202 specifically refers to the session layer management entity unit 73, the session layer protocol unit 72, and the lower layer protocol 74.

The address notification means 201 has the same address (IP address) as the gateway 200, but the address notification means 201 continues to operate even after the gateway 200 stops the operation of the connection function with the server.

With the above configuration, the address notification unit 201 transmits the address notification to a wireless information terminal that is not communicating when a gateway switching instruction is input from the operator 100. On the other hand, for the wireless information terminal being stopped, the address notification means having the same address as the gateway 200 when the wireless information terminal starts communication with the gateway 200 after the switching instruction is input. 201 transmits the address notification.

Next, the wireless information terminal 300 is provided with address changing means 302 for changing the address of the gateway 200, which is the regular gateway stored in the memory 301 of the own device, to the address of the switching destination gateway based on the address notification. Specifically, this is composed of a session layer management entity means 73 and a session layer protocol means 72 of the terminal.

The address changing means is activated by the switching notification signal written in the header of the address notice received by the communication means 303 (session layer management entity means 73, session layer protocol means 72, and lower layer protocol 74). The address of the gateway 200 stored in the memory 301 of the machine is changed to the address of the switching destination gateway written in the address notification footer.

As described above, the address of the switching destination gateway can be notified to a wireless information terminal that is not communicating or is stopped.

Note that the address notification means 201 may be provided as an address notification device 210 separate from the gateway 200, as shown in FIG. 8C. In this case, the address notification device 210 includes a communication unit 211 (session layer management entity unit 73, session layer protocol 72, and lower layer protocol 74) and a memory 212 for registering the address of the switching destination gateway.

Furthermore, this address notification device 210 has the same address (IP address) as the gateway 200. When the gateway 200 stops operation, first, the address of the switching destination gateway is registered in the memory 212 via the communication means 202 and 212. Thereafter, when the gateway 200 stops operation and the connection to the communication system is released, the address notification device 210 is connected to the communication system. Therefore, the addresses of the gateway 200 and the address notification device 210 do not overlap in the entire communication system.

As described above, according to the present invention, in the wireless communication system, the address of the switching destination gateway can be appropriately notified to a terminal that is not communicating or stopped when performing gateway switching. Therefore, the user can execute the application at any time through the switching destination gateway without being aware of the switching of the gateway. It is also possible to avoid storing excessive gateway addresses in the terminal.

Hereinafter, embodiments of the present invention will be described. Embodiments 1 and 2 deal with the case where the wireless information terminal is not communicating, and Embodiments 3 and 4 deal with the case where the wireless information terminal is stopped.

(Embodiment 1)
FIG. 1 shows a configuration of a wireless network through a public network of a gateway sharing a server according to Embodiment 1 of the present invention.

A wireless information terminal (hereinafter simply referred to as a terminal) 1 is a wireless information terminal such as a notebook PC connected to a mobile phone, the base station 2 is a mobile phone base station, and the network 3 is a mobile phone, for example. Telephone public network.

Gateways 4 and 5 share server 6 and connect network 3 and server 6. Further, the terminal 1 connects to the server 6 via the base station 2 and the network 3 or the gateway 4 or 5, and uses the information 7 held by the server 6 to execute the application.

In the first embodiment, a case where the user of the terminal 1 starts its own WWW browser and communicates with the WWW server software of the server 6 will be described as an example. Further, it is assumed that the terminal 1 uses the gateway 4 as a regular gateway (switching source gateway), and therefore the address of the gateway 4 is registered in the memory of the terminal 1. Further, “non-communication” described below means that the terminal is powered on, but no session (logical connection) has been established, and an incoming call from another terminal is possible at any time, that is, “ A state of “waiting”.

In the configuration as described above, a sequence for notifying the non-communication terminal 1 of the address of the switching destination gateway 5 when the gateway 4 needs to be stopped for some reason will be described with reference to FIG.

When a gateway switching instruction is input from the operator to the gateway 4, the session layer protocol means 903 of the gateway 4 transmits a connection request 912 to the session layer protocol means 902 of the terminal 1 to request a simple session establishment request described later. I do. Upon receiving the connection request 912, the session layer protocol means 902 of the terminal 1 transmits a connection confirmation 913 to establish a simple session.

A simple session is a session that is used to send and receive messages whose communication contents are determined in advance, for example, the number of communication messages and the data length are fixed, and is established to send data to be described later The procedure at the time of establishment differs from that of a normal session that is a logical connection.

  That is, in the case of establishing a simple session, as shown in FIG. 10, first, a connection request 1006 is transmitted from the session layer protocol means 1003 of the gateway 4 to the session layer protocol means 1002 of the terminal 1. This connection request 1006 has a data structure as shown in FIG. 12, and includes a flag indicating that it is a simple session connection request at the head. The session layer protocol means 1002 refers to this flag and transmits a connection confirmation 1007 to the session layer protocol means 1003 of the gateway 4 to establish a simple session, and the simple session is established.

As described above, since the simple session is established between the terminal and the gateway only by exchanging information of the connection request and the connection confirmation, high-speed processing can be performed with a simple protocol compared to the normal session described later. Is possible.

In the simple session, the upper layer protocol (application) of the session layer protocol means 1002 of the terminal 1 is not notified that the simple session has been established.

The same function is realized even if the identifier included in the data is different for the connection request for establishing the simple session and the connection request for establishing the normal session instead of the flag indicating the simple session. it can.

When the simple session is established in FIG. 9 by the above procedure, the address notification 914 is transmitted from the session layer protocol means 903 of the gateway 4 to the session layer protocol means 902 of the terminal 1.

The address changing means of the terminal 1 rewrites the gateway 4 address stored in the memory to the gateway 5 address based on the address notification 914.

Following the transmission of the address notification 914, the session layer protocol means 903 of the gateway 4 transmits a disconnection request 915 to the session layer protocol means 902 of the terminal 1, and the session layer protocol means of the terminal 1 that has received this disconnection request 915 902 sends a disconnect confirmation 916 to the session layer protocol means 903 of the gateway 4.

Then, after receiving this disconnect confirmation 916, the simple session is disconnected, and the gateway 4 stops operating. Here, the gateway 4 can also stop the operation without waiting for the reception of the disconnection confirmation 916.

In the sequence of FIG. 9 described above, a normal session may be established instead of a simple session.

In the case of establishing this normal session, a connection request 1106 is transmitted from the session layer protocol means 1103 of the gateway 4 to the session layer protocol means 1102 of the terminal 1 as shown in FIG. At this time, negotiation (information exchange) of information (capability) for data transmission such as maximum data length and window size (number of messages that can be transmitted without receiving confirmation message) of data transmitted and received between the terminal and the server is performed. Is called.

That is, first, the capability request 1108 is transmitted from the session layer protocol means 1102 of the terminal 1 to the session layer protocol means 1103 of the gateway 4. Next, the capability confirmation 1109 is transmitted from the session layer protocol means 1103 of the gateway 4 to the session layer protocol means 1102 of the terminal 1, and the negotiation of the capability is established. When the capability negotiation is established, the session layer protocol means 1102 of the terminal 1 notifies the session layer protocol means 1103 of the gateway 4 that the session has been normally established by the connection confirmation 1107, and the normal session is established.

On the other hand, if the capability negotiation is not established, the session layer protocol means 1102 of the terminal 1 notifies the session layer protocol means 1103 of the gateway 4 of the refusal of establishment of the session by the connection confirmation 1107.

It should be noted that the same function can be realized by combining the capability check 1109 and the capability request 1108 with the connection request 1106 and the connection check 1107, respectively, and transmitting them simultaneously as one data.

Further, there are various other methods for address notification in the above sequence, which will be described in the third embodiment.

In the state where the address of the gateway 5 is registered in the memory of the terminal 1 as described above, the user of the terminal 1 operates (923) the WWW browser, and the // WWW. xxx / xyz. A process performed when an attempt is made to access a file called html will be described.

First, the session layer protocol means 902 of the terminal 1 transmits a connection request 917 to the session layer protocol means 906 of the gateway 5 using the address registered in the memory. Subsequently, the session layer protocol means 906 of the gateway 5 transmits a connection confirmation 918, and a normal session is established between the terminal 1 and the gateway 5 by the procedure described above.

At this time, the switching from the gateway 4 to the gateway 5 can be notified (924) to the user of the terminal 1 from the session layer protocol means 902 of the terminal 1 by displaying a message on the browser, for example.

Next, the session layer protocol means 902 of the terminal 1 transmits a wireless communication protocol command INVOKE <REQUEST (get, //www.xxx/xyz.htm)>919 to the session layer protocol means 906 of the gateway 5.

This wireless communication protocol command INVOKE <REQUEST (get, //www.xxx/xyz.htm)>919 is an HTTP (Hyper Text Transfer Protocol) command REQUEST (get, // www) in the protocol conversion means 907 of the gateway 5. .Xxx / xyz.htm) 920 and transmitted to the server 6.

When the WWW server software 909 of the server 6 receives the command REQUEST (get, //www.xxx/xyz.htm) 920, // www. xxx / xyz. Data of the file html is transmitted by HTTP RESPONSE (data) 921.

The RESPONSE (data) 921 is converted into a wireless communication protocol response REPLY <RESPONSE (data)> 922 by the protocol conversion means 907 of the gateway 5 and transmitted to the terminal 1.

This enables communication between the terminal 1 and the server 6, and the user can use the file // www. xxx / xyz. You can browse html.

When there are a plurality of non-communication terminals, the gateway 4 stops the operation after notifying all the non-communication terminals of the address of the switching destination gateway. FIG. 13 shows the timing of address notification to a plurality of terminals. The gateway 4 sequentially sends the non-communication terminals 1, 17, 15 to the switching destination gateway 5 according to the sequence shown in FIG. Stop after giving the address.

On the other hand, a notification method called a broadcast method that performs address notification to all terminals 1, 17, and 15 all at once is also possible. In this case, the gateway 4 transmits a disconnection request to all the terminals 1, 17, 15 following the address notification, receives a disconnection confirmation from all the terminals 1, 17, 15, or this disconnection confirmation. Operation is stopped without waiting for

Note that, in a wireless network that is operated in a narrower range than FIG. 1 in FIG. 2, for example, in an office, gateway switching can be realized by the same procedure as described above.

In addition, when the server having information for executing the terminal application is different between the regular gateway 4 and the switching destination gateway 5 as shown in FIG. 3, or when the server itself has information for executing the terminal application as shown in FIG. Even when the information for executing the terminal application is common, the gateway can be switched by the same procedure as described above.

The sequence described above allows the regular gateway to notify the non-communication terminal of the address of the switching destination gateway through a simple session, so even if the gateway is switched while the terminal is stopped, the terminal is switched. Applications can be executed by accessing the server through the destination gateway.

(Embodiment 2)
FIG. 5 shows a configuration of a wireless network through a public network of a gateway sharing a server according to the second embodiment of the present invention.

The terminal 1 is a wireless information terminal such as a PDA (Personal Digital Assistant) incorporating a simple mobile phone, the base station 2 is a simple mobile phone base station, and the network 3 is a simple mobile phone public network, for example. is there.

Gateways 4 and 5 share server 6 and connect network 3 and server 6. The gateway 4 and the gateway 5 have connection means 13 for performing inter-gateway negotiation. The connection means 13 may be either wired or wireless, or may be a connection via the connection means 14 between the gateways 4 and 5 and the server 6 or via the network 3.

The terminal 1 is connected to the server 6 via the base station 2 and the network 3 or the gateway 4 or 5, and executes the application using the information 7 held by the server 6. Here, as in the first embodiment, the terminal 1 uses the gateway 4 as a regular gateway, and therefore, the address of the gateway 4 is registered in the memory of the terminal 1.

In the configuration as described above, a sequence for notifying the non-communication terminal 1 of switching to the gateway 5 when the gateway 4 is stopped will be described with reference to FIG.

When a gateway switching instruction is input from the operator to the gateway 4, the management entity means 1405 of the gateway 4 first inquires of the management entity means 1408 of the gateway 5 whether communication with the terminal 1 is possible. For this purpose, a switching request 1412 including (combined as data) the communication capability such as the data transmission speed of the terminal 1 as data is transmitted via the connection means 13.

Upon receiving this switching request 1412, the management entity means 1408 of the gateway 5 determines whether or not communication with the terminal 1 is possible based on the communication capability of the terminal 1, the communication capability of the gateway 5, the remaining number of communication ports, and the like. If possible, the switch confirmation 1413 including the determination result of “switchable” is transmitted to the management entity means 1405 of the gateway 4.

Here, when the gateway 5 rejects the switching, a notification of “switching rejection” is transmitted to the switching confirmation 1413 including the communication capability of the gateway 5 and the remaining number of communication ports.

The management entity unit 1405 of the gateway 4 that has received the switching confirmation 1413 of the “switching rejection” sends a switching request 1414 to the management entity unit 1411 of the gateway 16 that is connected to the gateway 4 by the same connection unit as the connection unit 13. Send. Then, the management entity means 1411 of the gateway 16 determines whether or not communication with the terminal 1 is possible as described above, and transmits a switching confirmation 1415 including the determination result to the management entity means 1405 of the gateway 4.

When the switch confirmation 1415 notifies that communication with the terminal 1 is possible, the management entity means 1405 of the gateway 4 sends the session layer protocol means 1402 of the terminal 1 to the session layer protocol means 1403 of the gateway 4. Is instructed to transmit a connection request 1416.

The sequence after transmission of this connection request 1416 is the same as that in FIG.

Here, when the gateway 4 transmits a switching request to all gateways that are switching destination candidates, and the communication with the terminal is rejected from all the gateways, the management entity unit 1405 of the gateway 4 Refers to the communication capability of each gateway, the remaining number of communication ports, etc. included in the confirmation of switching from. Then, a gateway that is highly likely to be connected is selected based on the communication capability, the remaining number of communication ports, and the like.

That is, for example, when there are five terminals having the gateway 4 as a regular gateway and the remaining number of communication ports of the gateways 5 and 16 is 2, 4 respectively, the management entity means 1405 of the gateway 4 The gateway 16 having a large number is selected as the gateway that is most likely to be connected. Then, the management entity means 1405 of the gateway 4 transmits a connection request 1416 including the address of the gateway 16 to the session layer protocol means 1402 of each terminal, and the gateway 4 stops operation.

Alternatively, among the above five terminals, the communication capability of each terminal and each of the switching destination candidates is compared. For example, the gateway 16 is set for three units, and the gateway 5 is set for the remaining two units. As a gateway, a different gateway address may be notified for each terminal.

Note that, even in a wireless network that does not use a network and is operated in a narrower range as compared to FIG. 5 such as in an office as shown in FIG. 16, gateway switching can be realized by the same procedure as described above.

Further, when the server having information for executing the terminal application is different between the switching source gateway and the switching destination gateway as shown in FIG. 6, or when the gateway itself has information for executing the terminal application as shown in FIG. Even in the case where the terminal application has the same information for executing the terminal application, the gateway can be switched by the same procedure as described above.

When the regular gateway and the switching destination gateway are connected by the connection means according to the sequence described above, when the gateway is switched, the regular gateway may inquire whether the switching destination gateway can communicate with the terminal. it can. For this reason, even when the system of the switching destination gateway is stopped or there is no communication capability with the terminal, it is possible to make an inquiry with another gateway and notify the address of the switchable gateway to the terminal. It is also possible to notify the terminal of the address of the switching destination gateway having a high possibility of connection after grasping the communication capability of the switching destination gateway, the remaining number of communication ports, and the like.

In the first and second embodiments described above, the regular gateway is stopped after the gateway switching. However, it is not essential to stop the service, and it may be continuously operated. This is an effective technique for switching the connection of a specific terminal to another gateway according to the usage status of the regular gateway.

(Embodiment 3)
FIG. 17 shows a configuration of a wireless network through a public network of a gateway sharing a server according to Embodiment 3 of the present invention.

Since the terminal 1, base station 2, network 3, gateways 4 and 5, and server 6 are the same as those in the first embodiment, description thereof is omitted. Note that “stopped” described below refers to a state in which the terminal is powered off or is out of the radio base station range and cannot communicate with the gateway even if the power is turned on.

In the third embodiment, the address notification means in the first and second embodiments is provided as an address notification device 18 separate from the gateway. The address notification device 18 is a personal computer having a communication function, for example, and stores a program for executing address notification in the first and second embodiments in a memory. Further, the program may be recorded on a portable medium such as a CD-ROM or a removable disk, and the personal computer may read the program from the portable medium and store it in its own memory.

In this configuration, when the terminal 1 that has been stopped starts communication with the gateway 4 that has already stopped operation, the address notification device 18 sends the address of the switching destination gateway to the terminal 1. A sequence for notifying will be described with reference to FIG.

When the gateway switching instruction is input from the operator, the gateway 4 sets the address of the switching destination gateway 5 in the address notification device 18. Specifically, first, the session layer protocol means of the gateway 4 transmits an address notification as shown in FIG. 8B to the session layer protocol means of the address notification device 18. Based on this address notification, the session layer management entity means of the address notification device 18 registers the address of the gateway 5 in the memory of the address notification device 18.

This setting may be performed using a public network, wireless communication, a dedicated interface, or manually by an operator. A plurality of switching destination gateway addresses may be set.

Then, after the address of the switching destination gateway 5 is set in the address notification device 18, the gateway 4 stops operation.

When the gateway 4 stops and the connection to the communication system is released, the address notification device 18 having the same address as the gateway 4 is connected to the communication system and starts operating.

Alternatively, the address notification device 18 operates at an address different from that of the gateway 4 while the gateway 4 is operating. After the gateway 4 stops, for example, an operator manually changes the address of the address notification device 18 to the address of the gateway 4. It is also possible to configure as described above. This is an effective method when the address notification device 18 that is separate from the gateway 4 performs a function other than the notification of the address of the switching destination gateway in the wireless communication system.

Here, the terminal 1 that has been stopped enters a state where communication can be performed because the power is turned on or the terminal 1 moves into the communication range of the base station 2, and the user of the terminal 1 passes through the regular gateway 4 to the server 6. // WWW. xxx / xyz. When a WWW browser is activated and operated to access a file called htm, the terminal 1 starts communication.

At this time, the session layer protocol means 2302 of the terminal 1 transmits a connection request 2312 to the gateway 4 based on the address registered in the memory. This connection request 2312 has the same address as the gateway 4. Receive.

When the session layer protocol means 2330 of the address notification device 18 receives the connection request 2312, it transmits a connection confirmation 2313 to the terminal 1. As a result, a session is established between the terminal 1 and the address notification device. This session may be either a simple session or a normal session as in the first embodiment.

Then, the session layer protocol means 2330 of the address notification device 18 transmits the address notification 2314 to notify the terminal 1 of the address of the gateway 5 which is the switching destination gateway. Based on the address notification 2314, the address changing means of the terminal 1 changes the gateway 4 address registered in the memory to the gateway 5 address.

Subsequently, the session layer protocol means 2302 of the terminal 1 transmits a disconnection request 2315 to the address notification device 18, and the session layer protocol means 2330 of the address notification device 18 that has received this disconnection request 2315 receives the disconnection confirmation 2316 of the terminal 1. The data is transmitted to the session layer protocol means 2302 and the communication is disconnected. Note that the disconnection request 2315 may be replaced with the disconnection confirmation 2316, and both the disconnection request 2315 and the disconnection confirmation 2316 may be omitted.

Further, the disconnection request 2315 may be notified from the address notification device 18 to the terminal 1, and the disconnection confirmation 2316 may be notified from the terminal 1 to the address notification device 18 in the opposite direction to the above description.

As described above, the address of the gateway 5 is registered in the memory of the terminal 1. *

Hereinafter, the sequence in which the user of the terminal 1 browses the file of the WWW server software of the server 6 via the gateway 5 is the same as that of the first embodiment, and thus the description thereof is omitted.

  In the sequence of FIG. 23 described above, there are various other methods for address notification, which will be described below.

First, in the sequence shown in FIG. 24, the session layer protocol means 2402 of the terminal 1 transmits a connection request 2412, and until the address notification device 18 having the same address as that of the gateway 4 receives this connection request 2412, FIG. It is the same as the sequence.

Upon receiving the connection request 2412, the session layer protocol means 2430 of the address notification device 18 establishes a session without confirming the connection, and then notifies the terminal 1 of the address of the gateway 5 as the switching destination gateway by the address notification 2414. To do.

Subsequently, the address changing means of the terminal 1 changes the address of the gateway 4 registered in the memory to the address of the gateway 5 based on the address notification 2414. Then, the session layer protocol means 2402 of the terminal 1 transmits a disconnection request 2415 to the address notification device 18. Thereafter, the session is disconnected without the session layer protocol means of the address notification device 18 sending a disconnection confirmation.

Here, as in the sequence shown in FIG. 23, the disconnection request 2415 also serves to notify confirmation of the address notification 2414. However, the session may be disconnected without further notification of the disconnection request 2415. . Alternatively, instead of the disconnection request 2415, an address notification confirmation may be notified from the session layer protocol means 2402 of the terminal 1 to the session layer protocol means 2430 of the address notification device 18. FIG. 25 shows a sequence when the disconnection request 2415 and the address notification confirmation are not performed. Note that the session established in FIGS. 24 and 25 may be either the simple session or the normal session described in the first embodiment.

  Next, the sequence shown in FIG. 26 will be described.

23. Until the connection request 2612 transmitted from the session layer protocol means 2602 of the terminal 1 is received by the session layer protocol means 2630 of the address notification device 18, the process is the same as in FIGS. When the session layer protocol means 2630 receives the connection request 2612, the session layer protocol means 2630 includes the address of the gateway 5 which is the switching destination gateway in the connection rejection 2614 and notifies the terminal 1.

Thereafter, the terminal 1 changes the address of the gateway 4 registered in the memory to the address of the gateway 5 based on the connection rejection 2614. That is, in the sequence of FIG. 26, the address is changed without establishing a session between the terminal 1 and the address notification device 18.

26 is further simplified, the connection request 2612 and the connection rejection 2614 are omitted, and a method of address notification in a connectionless format in which a direct address notification is transmitted to the terminal is also conceivable.

Also, as described in the first embodiment, a method of transmitting the address notification to all terminals by a broadcast method is also conceivable. In this method, it is not necessary to transmit an address notification for each terminal each time the stopped terminal starts communication. If the address notification is repeatedly transmitted not only once by the broadcast method, the switching destination gateway address can be notified to all terminals that start communication.

In this case, when the gateway 4 sets the addresses (IP addresses) of all the terminals when setting the address of the switching destination gateway in the address notification device 18, as described later, for all the terminals as described later. After confirming that the address notification has ended, the broadcast can be ended.

That is, when the terminal receiving the address notification connects to the switching destination gateway 5, the switching destination gateway 5 notifies the address notification device 18 of the connection of this terminal. Based on the notification of this connection, the address notification device 18 stops address notification to this terminal.

The connectionless address notification sequence will be described with reference to FIG.

The gateway 4 sets the address of the switching destination gateway 5 and the address of the terminal having the gateway 4 as the regular gateway in the address notification device 18 and has already stopped, and the terminal 1 having the gateway 4 as the regular gateway is stopped. It is in.

The session layer protocol means 2703 of the address notification device 18 periodically transmits address notifications to terminals including the terminal 1 and having the gateway 4 as a regular gateway. Among these address notifications, the address notifications 2710 and 2711 transmitted while the terminal 1 is stopped are not received by the terminal 1, and the address notification 2712 is received for the first time when the terminal 1 becomes communicable.

The address changing means of the terminal 1 changes the address of the gateway 4 registered in the memory to the address of the switching destination gateway 5 based on the address notification 2712. Then, the session layer protocol means 2702 of the terminal 1 transmits a connection request 2713 to the gateway 5 in order to connect to the gateway 5. Then, the session layer protocol means 2702 of the terminal 1 ignores the address notifications 2715 and 2717 received thereafter.

When the session layer protocol means 2706 of the gateway 5 receives the connection request 2713, it transmits a connection confirmation 2714 to the terminal 1, and a normal session is established between the terminal 1 and the gateway 5, and communication is in progress.

At this time, the session layer protocol means 2706 of the gateway 5 notifies the management entity means 2708 of its own device that it is communicating with the terminal 1. Then, the management entity means 2708 transmits a terminal connection switching notice 2716 including the address of the terminal 1 to the management entity means 2705 of the address notification device 18 to notify that the terminal 1 has switched the gateway.

When the management entity means 2705 of the address notification device 18 receives the terminal connection switching notification 2716, it transmits a terminal connection switching confirmation 2718 to the management entity means 2708 of the gateway 5 and the terminal of the session layer protocol means 2703 of the address notification device 18. The address notification for 1 is terminated.

If the address notification is performed in a connectionless manner in this way, the connection request procedure from the terminal 1 to the address notification device 18 becomes unnecessary, and the sequence becomes simpler.

Also, it is possible to provide connectionless notifications only to specific terminals for the purpose of providing address notification with paid services.

It should be noted that the same procedure can be realized even in a wireless network that is operated in a narrower range than FIG.

Further, when the server having information for executing the terminal application is different between the regular gateway and the switching destination gateway as shown in FIG. 19, or the gateway itself has information for executing the terminal application as shown in FIG. Even in this case, if the information for executing the terminal application is common between the regular gateway and the switching destination gateway, the same procedure as the above sequence can be performed.

By the sequence explained above, even if the gateway is switched while the terminal is stopped and the gateway stops operating, the address notification device connects to the terminal and switches the address of the regular gateway registered by the terminal. Since the address can be changed to the address of the destination gateway, the terminal can access the server through the switching destination gateway and execute the application.

(Embodiment 4)
FIG. 21 shows a configuration of a wireless network through a public network of a gateway sharing a server according to Embodiment 4 of the present invention.

Since terminal 1, base station 2, network 3, gateways 4 and 5, server 6, and connection means 13 are the same as those in the second embodiment, description thereof is omitted.

In this configuration, when the terminal 1 that has been stopped starts communication with the gateway 4 that has already stopped operation, the address notification device 18 sends the address of the switching destination gateway to the terminal 1. A sequence for notifying will be described with reference to FIG.

When a gateway switching instruction is input from the operator to the gateway 4, the management entity means 2806 of the gateway 5 determines whether or not communication with the terminal 1 is possible. Since the sequence until the management entity means 2811 transmits the switching confirmation 2815 to the management entity means 2805 of the gateway 4 is the same as that of the second embodiment, the description thereof is omitted. In the case of the fourth embodiment, the address notification device 18 may perform the negotiation with the gateway 16.

When the switching confirmation 2815 notifies that the communication between the terminal 1 and the gateway 16 is possible, the gateway 4 sets the address of the gateway 16 in the address notification device 18 as the switching destination gateway address.

As in the third embodiment, the address of the switching destination gateway may be set in the address notification device 18 by using a network, wireless communication, or a dedicated interface, or manually by the administrator of the gateway 4. You may go. When the switching destination gateway address is set, the gateway 4 stops operating.

After the gateway 4 is stopped, the address notification device 18 having the same address as that of the gateway 4 starts its operation, and the sequence until the address of the switching destination gateway (in this case, the gateway 16) is registered in the terminal 1 is Since it is the same as that of the third embodiment (FIG. 23), the description is omitted.

Further, the gateway 4 makes a switching request to all gateways that are switching destination candidates, and the gateway that is likely to be connected later from the communication capability of each gateway, the remaining number of communication ports, etc. included in the switching confirmation from each gateway. The process of selecting the address and setting the address of the selected gateway in the address notification device 18 is the same as in the second embodiment, and thus the description thereof is omitted.

It should be noted that the same procedure can be realized even in a wireless network that does not use a network, as shown in FIG.

Also, as shown in FIG. 22, when the server having information for executing the terminal application is different between the regular gateway and the switching destination gateway, or the gateway itself has information for executing the terminal application as shown in FIG. Even in the case, if the information for executing the terminal application is common, the same procedure as the above sequence can be performed.

With the sequence described above, as in the second embodiment, when switching gateways, it is possible to make an inquiry with another gateway and notify the terminal of the switching destination gateway that has a high possibility of connection to the terminal. .

The block diagram of the radio | wireless communications system via the public network or private network of the gateway which shares the server by embodiment of this invention. The block diagram of the radio | wireless communications system which does not go through the public network or private network of the gateway holding the information by embodiment of this invention. The block diagram of the radio | wireless communications system via the public network or private network of the gateway connected to the different server by embodiment of this invention. The block diagram of the radio | wireless communications system via the public network or private network of the gateway holding the information by embodiment of this invention. The block diagram of the radio | wireless communications system via the public network or private network of a gateway which shares the server by embodiment of this invention, and is provided with a connection means. The block diagram of the radio | wireless communications system via the public network or local area network of the gateway connected to the different server by embodiment of this invention, and provided with a connection means. The figure which shows the positioning of the session layer protocol means and the session layer management means in the protocol stack of a terminal and a gateway. The block diagram of a radio | wireless communications system provided with the address notification means by embodiment of this invention. FIG. 2 is a sequence diagram of address notification according to the embodiment of the present invention in the configuration of FIG. 1. The sequence diagram in the case of establishing the simple session in embodiment of this invention. The sequence diagram in the case of establishing the normal session in embodiment of this invention. The data structure of the connection request | requirement transmitted when establishing the simple session in embodiment of this invention. The sequence diagram which shows the timing which transmits an address notification to the some terminal by embodiment of this invention. The sequence diagram which shows the switching of the gateway by embodiment of this invention. The block diagram of the radio | wireless communications system via the public network or private network of a gateway which hold | maintains the information by embodiment of this invention, and is provided with a connection means. The block diagram of the radio | wireless communications system which hold | maintains the information by embodiment of this invention, and does not go through the public network or private network of a gateway provided with a connection means. The block diagram of the radio | wireless communications system at the time of making the address notification means into a different body from the gateway in the structure of FIG. The block diagram of the radio | wireless communications system at the time of making the address notification means into a different body from the gateway in the structure of FIG. The block diagram of the radio | wireless communications system at the time of making the address notification means into a different body from the gateway in the structure of FIG. The block diagram of the radio | wireless communications system at the time of making the address notification means into a different body from the gateway in the structure of FIG. FIG. 6 is a configuration diagram of a wireless communication system in a case where the address notification unit is separated from the gateway in the configuration of FIG. 5. The block diagram of the radio | wireless communications system at the time of making the address notification means into a different body from the gateway in the structure of FIG. FIG. 18 is a sequence diagram of address notification according to the embodiment of the present invention in the configuration of FIG. 17. An example of the system of the address notification in embodiment of this invention. An example of the system of the address notification in embodiment of this invention. An example of the system of the address notification in embodiment of this invention. An example of the system of the address notification in embodiment of this invention. The sequence diagram which shows the switching of the gateway by embodiment of this invention. The block diagram of the radio | wireless communications system at the time of making the address notification means into a different body from the gateway in the structure of FIG. The block diagram of the radio | wireless communications system at the time of making the address notification means into a different body from the gateway in the structure of FIG. FIG. 3 is a conventional gateway switching sequence diagram in the configuration of FIG. 2.

Explanation of symbols

1, 15, 17, 300 Wireless information terminal 2, 10 Wireless base station 3 Public network 4, 5, 16, 200 Gateway 6, 9 Server 7, 8 Information for executing terminal application 13 Connection means 18, 210 Address notification Device 100 Operator 201 Address notification means 202, 211, 303 Communication means 302 Address change means

Claims (7)

In a communication method for establishing communication between a wireless information terminal and a server via a gateway,
A communication method comprising an address notification process of notifying the wireless information terminal of an address of a switching destination gateway using a logical connection established only by information exchange of a connection request and connection confirmation. The address notification process
Including an address change process for changing an address of a gateway already registered in the wireless information terminal to an address of the switching destination gateway,
The communication method according to claim 1. In a gateway that relays communication between a wireless information terminal and a server that provides services to the wireless information terminal,
An address notification means for notifying the wireless information terminal of an address of a switching destination gateway as a switching destination of the gateway, using a logical connection established only by exchanging information of a connection request and a connection confirmation. ,gateway. In a wireless information terminal that establishes communication with a server that provides a service through a gateway,
Address changing means for changing the address of the gateway already registered to the address of the switching destination gateway based on the notification of the address of the switching destination gateway using a logical connection established only by exchanging information of connection request and connection confirmation A wireless information terminal comprising: The wireless information terminal according to claim 4, wherein when the user operates the wireless information terminal, the address change is notified to the user. A wireless information terminal,
A gateway that relays communication with a server that provides services to the wireless information terminal;
A communication system comprising: an address notification means for notifying an address of a switching destination gateway as a switching destination of the gateway using a logical connection established only by exchanging information of connection request and connection confirmation. The communication system according to claim 6, wherein the wireless information terminal includes address changing means for changing an already registered gateway address to the address of the switching destination gateway based on the notification of the address of the switching destination gateway.

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