JP2006237700A - Presence information updating method, presence information service system, presence relay server for roaming network, and authentication server for the roaming network - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication method, a communications system, and a presence relay server, by which a communication processing load of a presence server in a home network can be reduced in a mobile unit moving among a plurality of communications networks and the home network, an authentication server for each of roaming networks, and communication of the presence server, so as to solve the problem wherein presence information is transmitted to the presence server 13 for each mobile unit 3, according to an event driven type presence information updating method, and consequently, a processing load of the presence server 13 in the home network 1 is increased, in proportion to the increase of the number of the mobile units that update the presence information. <P>SOLUTION: A plurality of the presence information is transmitted collectively to the presence server 13 in the home network 1 by utilizing a temporary address for a mobile unit temporarily imparted to the mobile unit 3 for each allowed presence information delay time (communication quality information). Consequently, it is possible to reduce the communication processing load of the presence server 13 in the home network 1. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an authentication server for a roaming network after successful mobile device authentication when the mobile device roams in communication between a mobile device moving between a plurality of communication networks, an authentication server and a presence information management server for each of the home network and the roaming network. In order to uniquely identify the mobile device in the roaming network, a temporary mobile device address temporarily assigned is assigned for each communication quality of the mobile device, and when the presence information of the roaming mobile device is subsequently updated, The presence information relay server of the home network registers the presence information of a plurality of mobile devices to the same home network in batches for the same communication quality, and registers the presence information of the home network with the presence server of the home network. The present invention relates to a communication method, a communication system, and a presence relay server that can reduce a load.

  There is presence information as information on a mobile device that moves between a plurality of communication networks. Presence information is the current status of the mobile device, such as the temperature of the environment in which the mobile device is located. By using such presence information, it is possible to acquire information such as whether or not the user carrying the mobile device is outside the building, and communication according to the user's situation becomes possible. . The position information can also be regarded as one of the presence information.

  FIG. 5 is a block diagram of a communication system for updating presence information of a mobile device during conventional roaming.

  As shown in FIG. 5, in a conventional communication system for updating presence information of a mobile device at the time of roaming, the home network 1 having a service relationship with the mobile device 3 performs authentication processing. The server 11 includes a location registration server 12 that performs processing for location registration, a presence server 13 that stores and manages presence information, and a communication line 14 that connects them. The roaming network 2 that does not have a service relationship with the mobile device includes an authentication server 21 that performs processing for authentication, a location registration server 22 that performs processing for location registration, and a communication line 24 that connects them. It is comprised including. The home network 1 and the roaming network 2 are connected via a communication network 41. When the mobile device 3 that moves between the home network 1 and the roaming network 2 is located in the home network 1, the mobile device 3 is connected to the home network 1 via the communication line 42. When the mobile device 3 is located in the roaming network 2, the mobile device 3 is connected to the roaming network 2 via the communication line 43.

The procedure for updating presence information will be described with reference to FIG. In the communication system, after the location registration and authentication of the mobile device at the time of roaming is completed, if there is an update of presence information managed by the mobile device 3, or if a certain time has passed since the update of the previous presence information, The mobile device 3 transmits presence information to the presence server 13 of the home network 1 via the communication line 43 and the communication network 41. The presence information updated by the mobile device 3 is updated when, for example, the person carrying the mobile device 3 goes out of the building and the temperature around the mobile device 3 changes. This is when there is a change in the presence information of the machine 3. The presence information is compared with the presence information of the mobile device 3 stored in the presence server 13 of the home network 1 to which the presence information is transmitted, and the presence information is updated only when there is a difference in information (for example, Non-Patent Documents 1 and 2). reference).
3rd Generation Partnership Project Technical Specification 23.141 "Presence service; Architecture and functional description (Release6)", September 2004. pp.23-pp.24, [online], [Search February 3, 2005], Internet <URL : Http://www.3gpp.org/ftp/Specs/2004-12/Rel-6/23_series/> 3rd Generation Partnership Project Technical Specification 24.141 "Presence service using the IP Multimedia (IM) Core Network (CN) subsystem; stage3 (Release6)", January 2005. pp.81-pp.85, [online], [2005 2 Monthly Search], Internet <URL: http://www.3gpp.org/ftp/Specs/2004-12/Rel-6/24_series/>

  However, in the technologies described in Non-Patent Document 1 and Non-Patent Document 2, when the presence information of the mobile device is updated or when a certain time has elapsed, the presence server of the home network An event-driven update method that makes a presence information update request is used. According to this method, presence information is transmitted to the presence server for each mobile device when presence information update request is issued. As a result, there has been a problem that the processing load on the presence server in the home network increases in proportion to the increase in the number of mobile devices that update the presence information.

  The present invention relates to a communication method and a communication system for reducing the communication processing load of a presence server in a home network in communication between a mobile device moving between a plurality of communication networks, a home network, and an authentication server for each roaming network and a presence server. An object of the present invention is to provide a presence relay server.

  In order to solve the above-mentioned problem, in the roaming service, the invention according to claim 1 includes a mobile device that moves between a home network in which a presence server is installed, an authentication server, and a roaming network in which a presence relay server is installed; A presence information update method for updating presence information, which is the current status of the mobile device, with the presence server, wherein the roaming network authentication server uniquely identifies the mobile device within the roaming network A temporary mobile device address generation procedure that is possible and generates a temporary mobile device address based on a predetermined condition; a temporary mobile device address assignment procedure that assigns the generated temporary mobile device address to the mobile device; and The presence relay server of the roaming network is connected to the temporary mobile device from the mobile device. Presence information acquisition procedure for acquiring a dress and presence information, and presence information for collectively transmitting the presence information of a plurality of mobile devices to the presence server for each predetermined condition based on the temporary mobile device addresses And a method of transmitting presence information.

  By adopting such a method, there is no need to update the presence information of the mobile device or to make a presence information update request for each mobile device to the presence server of the home network at regular intervals. Can be collectively sent to the presence server of the home network, the processing load on the presence server of the home network can be reduced.

  By adopting such a configuration, it is possible to put information related to a predetermined condition on the temporary mobile device address, so that efficient information management is possible.

  According to the second aspect of the invention, there is a difference between the presence information classification procedure for classifying the presence information collectively received by the presence server of the home network for each mobile device, and the presence information stored in the presence server. The presence information updating method according to claim 1, further comprising: a presence information updating procedure for updating presence information.

  The invention according to claim 3 is the presence information update method according to claim 1, wherein the predetermined condition is a condition based on an allowable presence information delay time.

  By adopting such a method, it is possible to update the presence information suitable for the allowable presence information delay time.

  According to a fourth aspect of the present invention, the presence relay server determines, from the temporary mobile device address, a mobile device address capable of uniquely identifying the mobile device within the home network, and the allowable presence information delay time of the mobile device. 4. The presence information updating method according to claim 3, further comprising a procedure for acquiring an allowable presence information delay time to be acquired.

  The invention according to claim 5 is a timer value setting procedure in which the presence relay server sets a timer value based on the allowable presence information delay time, and a plurality of movements addressed to the same home network received within the timer value. 4. The presence information update method according to claim 3, further comprising: a presence information transmission procedure for transmitting the presence information of the devices collectively to the presence server.

  By adopting such a method, it is possible to update the presence information suitable for the allowable presence information delay time.

  According to a sixth aspect of the present invention, in a roaming service, a home network in which a presence server for managing presence information that is the current status of the mobile device is installed, and a mobile device is uniquely identified in the roaming network based on a predetermined condition. The present status of the mobile device is between the mobile device that moves between roaming networks in which an authentication server for generating a possible temporary mobile device address and assigning this to the mobile device is installed, and the presence server. A presence information service system for updating presence information, wherein presence information transmitted from a mobile device is stored in the roaming network, and presence information is collectively transmitted to a presence server based on a predetermined condition A presence information service system further comprising a server.

  With this configuration, it is not necessary to update the presence information of the mobile device or to make a presence information update request for each mobile device to the presence server of the home network at regular intervals. The server processing load can be reduced.

  The invention according to claim 7 is the presence information service system according to claim 6, wherein the predetermined condition is a condition based on an allowable presence information delay time.

  With such a configuration, presence information suitable for communication quality conditions can be updated.

  The invention according to claim 8 is a presence relay server of a roaming network, wherein the presence relay server of the roaming network includes a temporary mobile device address assigned to the mobile device based on a predetermined condition from the mobile device, and a mobile Presence-related information acquisition means for acquiring presence information that is the current status of the mobile device, and the presence information of a plurality of mobile devices based on the temporary mobile device address to the presence server in a batch for each predetermined condition A presence relay server for roaming network, comprising presence information transmitting means for transmitting.

  With this configuration, it is not necessary to update the presence information of the mobile device or to make a presence information update request for each mobile device to the presence server of the home network at regular intervals. The server processing load can be reduced.

  The invention according to claim 9 is a roaming network authentication server, wherein the roaming network authentication server is capable of uniquely identifying the mobile device within the roaming network, and is a temporary move based on a predetermined condition. A roaming network comprising: a temporary mobile device address generating means for generating a mobile address; and a temporary mobile device address assigning means for assigning the generated temporary mobile device address to the mobile device. It is an authentication server.

  With such a configuration, information regarding a predetermined condition can be put on the temporary mobile device address, so that efficient information management is possible.

  With such a configuration, information regarding a predetermined condition can be put on the temporary mobile device address, so that efficient information management is possible.

  With such a configuration, the communication processing load of the presence server of the home network is reduced in the communication between the mobile device moving between the plurality of communication networks and the authentication server and the presence server of the roaming network. It is possible to provide a communication method, a communication system, and a presence relay server.

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram of a communication system for updating presence information of a mobile device during roaming according to an embodiment of the present invention.
As shown in FIG. 1, in a communication system for updating presence information of a mobile device during roaming, a home network 1 having a service relationship with the mobile device 3 includes an authentication server 11 that performs processing for authentication. , A location registration server 12 that performs processing for location registration, a presence server 13 that stores and manages presence information, and a communication line 14 that connects these servers. The roaming network 2 which is a communication network having no service relationship with the mobile device 3 includes an authentication server 21 that performs processing for authentication, a location registration server 22 that performs processing for location registration, and temporary presence information. And a presence relay server 23 for transmitting the presence information to the presence server 13 of the home network 1 and a communication line 24 for connecting them. The home network 1 and the roaming network 2 are connected via a communication network 41.

(Home network authentication server)
As shown in FIG. 1, the authentication server 11 of the home network 1 includes a transmission / reception unit 111 that transmits and receives data, a storage unit 112 that stores each data, and processes such as calculation and encryption of the authentication result of each data It is comprised including the calculating part 113 which performs.

(Home network location registration server)
As shown in FIG. 1, the location registration server 12 of the home network 1 includes a transmission / reception unit 121 that transmits / receives data and the like, and a storage unit 122 that stores each data.

(Home network presence server)
As shown in FIG. 1, the presence server 13 of the home network 1 includes a transmission / reception unit 131 that transmits and receives data, a storage unit 132 that stores each data, a calculation unit 133 that performs processing such as classification of presence information, and a postscript The comparison unit 134 is configured to compare the presence information.

(Roaming network authentication server)
As shown in FIG. 1, the authentication server 21 of the roaming network 2 performs processing such as transmission / reception unit 211 that transmits / receives data, storage unit 212 that stores each data, calculation of the authentication result of each data, encryption, and the like. A calculation unit 213, a comparison unit 214 that compares each authentication result, and a temporary mobile device address generation unit 215 that generates a temporary mobile device address that can identify the mobile device 3 only within the roaming network 2 are configured. .

(Roaming network location registration server)
As shown in FIG. 1, the location registration server 22 of the roaming network 2 recognizes an address that can identify the home network 1, a transmission / reception unit 221 that transmits / receives data, a storage unit 222 that stores each data, and the like. A calculation unit 223 is included.

(Roaming network presence relay server)
As shown in FIG. 1, the presence relay server 23 of the roaming network 2 includes a transmission / reception unit 231 that transmits / receives data and the like, and a storage unit 232 that stores each data.

(Mobile machine)
As shown in FIG. 1, the mobile device 3 includes a transmission / reception unit 31 that transmits and receives signals and data, a storage unit 32 that stores each data, and a calculation unit 33 that performs processing such as calculation of authentication results and encryption. It is comprised including. When the mobile device 3 is located in the home network 1, the mobile device 3 is connected to the home network 1 via the communication line 42. When the mobile device 3 is in the roaming network 2, the mobile device 3 is connected to the roaming network 2 via the communication line 43.

  Note that the authentication server 11, the location registration server 12, the presence server 13, the authentication server 21 of the roaming network 2, the location registration server 22, and the presence relay server 23 shown in FIG. 1 are a CPU (Central Processing Unit). It is embodied using a computer including a RAM (Random Access Memory), a ROM (Read Only Memory), a hard disk drive, an input / output interface, and the like. Each part of these servers is stored in the hard disk drive of this computer. The program is implemented in the RAM and executed by the CPU.

  The temporary mobile device address described above is generated based on the allowable presence information delay time and is given to the mobile device 3. Here, the allowable presence information delay time is an allowable delay time of presence information. For example, when the temperature information of the place where the mobile device 3 exists is provided as presence information, the temperature does not need to be provided every moment because the temperature changes over a long period of time. For this reason, when the temperature is set as presence information, the allowable presence information delay time increases. On the other hand, in the case where the location information of the mobile device 3, that is, the location information of the person carrying the mobile device 3 is provided as presence information, the location information changes every moment, and naturally the allowable presence The information delay time is reduced. The storage unit 122 of the location registration server 12 of the home network 1 stores and manages the allowable presence information delay time for each mobile device.

(Authentication registration when roaming)
FIG. 2 is a processing flow in mobile device authentication at the time of location registration, which is executed when the mobile device according to the embodiment of the present invention roams to a roaming network.
With reference to FIG. 1, the flow of the authentication procedure at the time of location registration will be described with reference to FIG. In this embodiment, communication between the home network 1 and the roaming network 2 is performed via the communication network 41, and communication between the mobile device 3 and the home network 1 is performed via the communication line 42 between the mobile device 3 and the roaming network 2. Communication in is via the communication line 43, and will not be described below. In addition, communication between the servers of the home network 1 is performed via the communication line 14, and communication between the servers of the roaming network 2 is performed via the communication line 24.

The transmission / reception unit 31 of the mobile device 3 that has roamed in the roaming network 2 sends a location registration request signal to the calculation unit 223 of the location registration server 22 of the roaming network 2 via the transmission / reception unit 221 of the location registration server 22 of the roaming network 2. Is transmitted (S401).
The information included in the location registration request signal includes a mobile device address (eg, user name @ domain name) that can uniquely identify the mobile device 3, and the mobile device address can identify the home network. Home network addresses (eg domain names) are included. The computing unit 223 of the location registration server 22 of the roaming network 2 performs a home network address recognition process of the mobile device 3 (S402), and the mobile device 3 recognizes the home network address of the home network 1 with which the service belongs. . As a result, the calculation unit 223 of the location registration server 22 of the roaming network 2 transmits / receives the location registration server 12 of the home network 1 having the recognized home network address via the transmission / reception unit 221 of the location registration server 22 of the roaming network 2. A location registration request signal including the mobile device address is transmitted to unit 121 (S403).

The transmitting / receiving unit 121 of the location registration server 12 of the home network 1 transmits an authentication request signal including the mobile device address to the transmitting / receiving unit 111 of the authentication server 11 of the home network 1 in order to authenticate the mobile device 3 (S404). ), Requesting the mobile device 3 to be authenticated.
The transmission / reception unit 111 of the authentication server 11 of the home network 1 requests the calculation unit 113 of the authentication server 11 of the home network 1 to perform a first authentication result calculation process. The requested computing unit 113 of the authentication server 11 of the home network 1 includes a shared encryption key stored in advance between the storage unit 32 of the mobile device 3 and the storage unit 112 of the authentication server 11 of the home network 1, and the home network. The first authentication result calculation process is performed using the first random number generated by the calculation unit 113 of the first authentication server 11 (S405), and the authentication result (first authentication result) is calculated. Thereafter, the calculation unit 113 of the authentication server 11 of the home network 1 performs an encryption process on the calculated first authentication result using the shared encryption key (S406).
The computing unit 113 of the authentication server 11 of the home network 1 sends an authentication request signal including the encrypted first authentication result, the mobile device address of the mobile device 3, and the first random number to the authentication server of the home network 1. 11 and the transmission / reception unit 211 of the authentication server 21 of the roaming network 2 are transmitted to the storage unit 212 of the authentication server 21 of the roaming network 2 (S407).

The storage unit 212 of the authentication server 21 of the roaming network 2 performs processing for storing the received mobile device address and the encrypted first authentication result as a pair of data (S408).
Subsequently, the storage unit 212 of the authentication server 21 of the roaming network 2 sends the received authentication request signal including the first random number to the mobile device 3 located in the roaming network 2. The data is transmitted to the calculation unit 33 of the mobile device 3 via the transmission / reception unit 211 of the authentication server 21 and the transmission / reception unit 31 of the mobile device 3 (S409).
The computing unit 33 of the mobile device 3 receives the shared encryption key stored in advance between the storage unit 32 of the mobile device 3 and the storage unit 112 of the authentication server 11 of the home network 1 and the received first random number. And performing a second authentication result calculation process (S410), calculating the authentication result (second authentication result), and then encrypting the second authentication result using the shared encryption key. Processing is performed (S411).
Then, the calculation unit 33 of the mobile device 3 sends an authentication response signal including the encrypted second authentication result and the mobile device address of the mobile device 3 to the authentication server 21 of the roaming network 2 and the transmission / reception unit 31 of the mobile device 3. To the comparison unit 214 of the authentication server 21 of the roaming network 2 (S412).

  The comparison unit 214 of the authentication server 21 of the roaming network 2 retrieves the encrypted first authentication result from the storage unit 212 of the authentication server 21 of the roaming network 2 using the mobile device address as a search key. Then, a comparison process is performed between the first authentication result and the encrypted second authentication result (S413). As a result of comparison, if the encrypted authentication results are not the same, a communication rejection signal (not shown) is sent to the transmission / reception unit 31 of the mobile device 3 and the transmission / reception unit 111 of the authentication server 11 of the home network 1. ) To block communication. On the other hand, if the encrypted authentication results are the same, an authentication response signal is transmitted to the transmission / reception unit 111 of the authentication server 11 of the home network 1 via the transmission / reception unit 211 of the authentication server 21 of the roaming network 2. (S414).

The transmission / reception unit 111 of the authentication server 11 of the home network 1 further transmits an authentication response signal to the transmission / reception unit 121 of the location registration server 12 of the home network 1 (S415). The transmission / reception unit 121 of the location registration server 12 of the home network 1 that has received the authentication response signal makes a location information update request to the storage unit 122 of the location registration server 12 of the home network 1. The requested storage unit 122 of the location registration server 12 of the home network 1 performs a process of updating the location information of the mobile device 3 stored in the storage unit 122 of the location registration server 12 of the home network 1 (S416).
The storage unit 122 of the location registration server 12 of the home network 1 transmits a location registration response signal to the transmission / reception unit 221 of the location registration server 22 of the roaming network 2 via the transmission / reception unit 121 of the location registration server 12 of the home network 1 ( S417). The transmission / reception unit 221 of the location registration server 22 of the roaming network 2 further transmits a location registration response signal to the transmission / reception unit 31 of the mobile device 3 (S418).

The transmission / reception unit 121 of the location registration server 12 of the home network 1 sends a notice of allowable presence information delay time including the allowable presence information delay time for the mobile device 3 stored in the storage unit 122 of the location registration server 12 of the home network 1 in advance. It transmits to the transmission / reception part 221 of the location registration server 22 of the roaming network 2 (S419).
The transmission / reception unit 221 of the location registration server 22 of the roaming network 2 that has received the notification of the allowable presence information delay time receives the received allowable presence in order to generate a temporary mobile device address that enables the mobile device 3 to be recognized within the roaming network 2. The allowable presence information delay time of the mobile device 3 included in the information delay time notification is acquired, and a temporary mobile device address generation request signal including this is transmitted to the transmission / reception unit 211 of the authentication server 21 of the roaming network 2 (S420). The transmission / reception unit 211 of the authentication server 21 of the roaming network 2 that has received the temporary mobile device address generation request signal requests the temporary mobile device address generation unit 215 of the authentication server 21 of the roaming network 2 to generate a temporary mobile device address. The requested temporary mobile device address generation unit 215 of the authentication server 21 of the roaming network 2 acquires the allowable presence information delay time related to the mobile device 3 included in the temporary mobile device address generation request signal, and the authentication server of the roaming network 2 in advance. The temporary mobile device address that can uniquely identify the mobile device 3 in the roaming network 2 based on the correspondence table between the allowable presence information delay time set in the temporary mobile device address generation unit 215 and the temporary mobile device address. The process which produces | generates (S421). In the correspondence table between the allowable presence information delay time and the temporary mobile device address, for example, the 10000 range is allocated to the mobile device with the smallest allowable presence information delay time, and the 20000 range is the mobile device with the next minimum allowable presence information delay time. Information such as allocation to is stored.

Then, the temporary mobile device address generation unit 215 of the authentication server 21 of the roaming network 2 transmits the generated temporary mobile device address to the storage unit 212 of the authentication server 21 of the roaming network 2. And the memory | storage part 212 of the authentication server 21 of the roaming network 2 performs the process which memorize | stores a temporary mobile apparatus address and the mobile apparatus address memorize | stored by step S408 as a pair of data (S422).
Next, the storage unit 212 of the authentication server 21 of the roaming network 2 sends the temporary mobile device address generation request response signal including the temporary mobile device address generated to the transmission / reception unit 221 of the location registration server 22 of the roaming network 2 to the roaming network 2. Is transmitted to the transmission / reception unit 221 of the location registration server 22 of the roaming network 2 via the transmission / reception unit 211 of the authentication server 21 (S423).
Further, the transmission / reception unit 221 of the location registration server 22 of the roaming network 2 transmits an allowable presence information delay time response signal to the transmission / reception unit 121 of the location registration server 12 of the home network 1 (S424).
Next, the transmission / reception unit 221 of the location registration server 22 of the roaming network 2 sends a temporary mobile device address assignment request signal including a temporary mobile device address to the storage unit 32 of the mobile device 3 via the transmission / reception unit 31 of the mobile device 3. Transmit (S425). Then, the storage unit 32 of the mobile device 3 stores the temporary mobile device address, so that the temporary mobile device address is given to the mobile device 3. Then, the storage unit 32 of the mobile device 3 transmits a temporary mobile device address assignment response signal to the transmission / reception unit 221 of the location registration server 22 of the roaming network 2 via the transmission / reception unit 31 of the mobile device 3.

(Authentication procedure when updating presence information)
FIG. 3 is a flow of processing of an authentication procedure when presence information is updated.
With reference to FIG. 1, the flow of the authentication procedure when updating presence information will be described with reference to FIG.
The transmitter / receiver 31 of the mobile device 3 that has performed roaming in the roaming network 2 includes the temporary mobile device address to the computing unit 213 of the authentication server 21 of the roaming network 2 via the transmitter / receiver 211 of the authentication server 21 of the roaming network 2. An authentication request signal is transmitted (S501). The timing for transmitting the authentication request signal is, for example, immediately after the completion of roaming authentication registration, after a predetermined time has elapsed since the previous presence information was updated, or in the environment where the mobile device 3 exists. When it has changed (when a person carrying a mobile device goes out of a building, etc.).
The computing unit 213 of the authentication server 21 of the roaming network 2 uses the temporary mobile device address included in the sent authentication request signal as a search key, and stores the storage unit 212 of the authentication server 21 of the roaming network 2 in step S422 (see FIG. 2). The mobile device address of the mobile device 3 is searched and recognized from the paired data of the mobile device address and the temporary mobile device address stored in (S502). The mobile device address acquired by the computing unit 213 of the authentication server 21 of the roaming network 2 includes information that can identify the home network 1 (for example, the mobile device address is in the form of user name @ domain name). Then, the domain name becomes information that can identify the home network 1). Accordingly, the calculation unit 213 of the authentication server 21 of the roaming network 2 performs processing for recognizing the home network address from the mobile device address described above (S503).

  Accordingly, the computing unit 213 of the authentication server 21 of the roaming network 2 passes through the transmission / reception unit 211 of the authentication server 21 of the roaming network 2 and the transmission / reception unit 111 of the authentication server 11 of the home network 1. An authentication request signal is transmitted to the calculation unit 113 (S504).

The computing unit 113 of the authentication server 11 of the home network 1 includes a shared encryption key stored in advance between the storage unit 32 of the mobile device 3 and the storage unit 112 of the authentication server 11 of the home network 1, and the home network 1. The third authentication result calculation process is performed using the second random number generated by the computing unit 113 of the authentication server 11 (S505), and the authentication result (third authentication result) is calculated. Thereafter, the calculation unit 113 of the authentication server 11 of the home network 1 performs an encryption process on the calculated third authentication result using the shared encryption key (S506).
The computing unit 113 of the authentication server 11 of the home network 1 sends the authentication response signal including the encrypted third authentication result, the mobile device address of the mobile device, and the second random number to the authentication server 11 of the home network 1. Is transmitted to the storage unit 212 of the authentication server 21 of the roaming network 2 via the transmission / reception unit 111 of the roaming network 2 and the transmission / reception unit 211 of the authentication server 21 of the roaming network 2 (S507).

The storage unit 212 of the authentication server 21 of the roaming network 2 performs processing for storing the mobile device address and the encrypted third authentication result as a pair of data (S508).
Subsequently, the storage unit 212 of the authentication server 21 of the roaming network 2 sends the authentication request signal including the second random number received to the mobile device 3 located in the roaming network 2 to the authentication of the roaming network 2. The data is transmitted to the calculation unit 33 of the mobile device 3 via the transmission / reception unit 211 of the server 21 and the transmission / reception unit 31 of the mobile device 3 (S509).
The computing unit 33 of the mobile device 3 receives the shared encryption key stored in advance between the storage unit 32 of the mobile device 3 and the storage unit 112 of the authentication server 11 of the home network 1 and the received second random number. And performing a fourth authentication result calculation process (S510), calculating the authentication result (fourth authentication result), and subsequently using the calculated fourth authentication result using the shared encryption key. Then, encryption processing is performed (S511).
Then, the calculation unit 33 of the mobile device 3 sends an authentication response signal including the encrypted fourth authentication result and the mobile device address of the mobile device 3 to the authentication server 21 of the roaming network 2 and the transmission / reception unit 31 of the mobile device 3. Is transmitted to the comparison unit 214 of the authentication server 21 of the roaming network 2 (S512).

  The comparison unit 214 of the authentication server 21 of the roaming network 2 uses the mobile device address included in the received authentication response as a search key to encrypt the third authentication result from the storage unit 212 of the authentication server 21 of the roaming network 2. And a comparison process between the encrypted third authentication result and the encrypted fourth authentication result is performed (S513). As a result of comparison, if the encrypted authentication results are not the same, a communication rejection signal (not shown) is sent to the transmission / reception unit 31 of the mobile device 3 and the transmission / reception unit 111 of the authentication server 11 of the home network 1. ) To block communication. If the encrypted authentication results are the same, the authentication server 11 of the home network 1 stores the data via the transmission / reception unit 211 of the authentication server 21 of the roaming network 2 and the transmission / reception unit 111 of the authentication server 11 of the home network 1. An authentication completion notification signal is transmitted to the unit 112 (S514).

Next, the transmission / reception unit 111 of the authentication server 11 of the home network 1 uses the authentication completion response signal indicating that the authentication has been completed as an authentication completion response signal, via the transmission / reception unit 211 of the authentication server 11 of the home network 1. Is transmitted to the transmission / reception unit 211 (S515).
The transmission / reception unit 211 of the authentication server 21 of the roaming network 2 transmits an authentication response signal to the transmission / reception unit 31 of the mobile device 3 (S516).
As a result, the authentication of the mobile device 3 is completed, and the mobile device 3 can change the presence information of the presence server 13 of the home network 1.

(Presence information update procedure)
FIG. 4 is a flowchart of the presence information update process.
The presence information update process will be described with reference to FIG.
First, the transmission / reception unit 31 of the mobile device 3 transmits a presence information update request signal including the temporary mobile device address and presence information to the transmission / reception unit 231 of the presence relay server 23 of the roaming network 2 (S601).
The transmission / reception unit 231 of the presence relay server 23 of the roaming network 2 that has received the presence information update request signal acquires the temporary mobile device address of the mobile device 3 included in the transmitted presence information update request signal, and includes this The temporary mobile device address search request signal is transmitted to the computing unit 213 of the authentication server 21 of the roaming network 2 via the transmission / reception unit 211 of the authentication server 21 of the roaming network 2 (S602).
Next, the calculation unit 213 of the authentication server 21 of the roaming network 2 sets a pair of the temporary mobile device address and the mobile device address stored in the storage unit 212 of the authentication server 21 of the roaming network 2 in step S422 (see FIG. 2). A search is performed using the temporary mobile device address received from the data as a key, the corresponding mobile device address is acquired, and an allowable presence information delay time included in the temporary mobile device address is acquired (S603).

Subsequently, the computing unit 213 of the authentication server 21 of the roaming network 2 sends the acquired mobile device address of the mobile device 3 and the temporary mobile device address search response signal including the allowable presence information delay time to the authentication server 21 of the roaming network 2. Is transmitted to the storage unit 232 of the presence relay server 23 of the roaming network 2 via the transmission / reception unit 211 of the roaming network 2 and the transmission / reception unit 231 of the presence relay server 23 of the roaming network 2 (S604).
Note that the processing from step S601 to step S604 is performed for each mobile device.

  Next, the storage unit 232 of the presence relay server 23 of the roaming network 2 allows the presence information of a plurality of mobile devices addressed to the same home network received within a timer value set in advance according to the allowable presence information update time. A process of collectively storing presence information transmitted from a plurality of mobile devices 3 for each presence information delay time or for each allowable presence multiplexing number that can be allowed by the storage unit 232 of the presence relay server 23 of the roaming network 2 This is performed (S605). The timer value is, for example, a large value for presence information having a large allowable presence information delay time, and a small value for presence information having a small allowable presence information delay time. By setting in this way, the storage unit 232 of the presence relay server 23 of the roaming network 2 can store the presence information as a group for each presence information having a value close to the allowable presence information delay time. The storage unit 232 of the presence relay server 23 of the roaming network 2 stores the presence information collectively until the threshold of either the allowable presence information delay time or the allowable presence multiplexing number is exceeded, and further the presence of the roaming network 2 The storage unit 232 of the relay server 23 is collectively connected to the calculation unit 133 of the presence server 13 of the home network 1 via the transmission / reception unit 231 of the presence relay server 23 of the roaming network 2 and the transmission / reception unit 131 of the presence server 13 of the home network 1. The presence information update request signal including the presence information for each group of the permitted presence information delay time is transmitted (S606). The transmission timing may be sent for each timer value described above, and presence information having a large allowable presence update delay time may be transmitted when the capacity of one packet that is the threshold of the allowable presence multiplexing number is satisfied. It may be. Here, it is assumed that the presence information transmitted in a batch is the amount of information that can be contained in one packet.

Next, the computing unit 133 of the presence server 13 of the home network 1 performs processing for classifying the presence information of a plurality of mobile devices received together into presence information for each mobile device (S607). Is transmitted to the comparison unit 134 of the presence server 13 of the home network 1.
Next, the comparison unit 134 of the presence server 13 of the home network 1 performs a process of comparing presence information for each mobile device (S608). Here, the contents to be compared are the previous presence information for each mobile device and the newly received presence information.
Next, the comparison unit 134 of the presence server 13 of the home network 1 performs processing for selecting and acquiring presence information of a mobile device having different presence information as a result of the comparison (S609).
Then, only the presence information of the selected and acquired mobile device is transmitted to the storage unit 132 of the presence server 13 of the home network 1, and the presence information received by the storage unit 132 of the presence server 13 of the home network 1 is updated. Then, processing for updating the presence information of the mobile device is performed (S610).
Next, the storage unit 132 of the presence server 13 of the home network 1 sends a presence information update response signal to the transmission / reception unit 131 of the presence server 13 of the home network 1 via the transmission / reception unit 131 of the presence server 13 of the home network 1. Is transmitted to the transmission / reception unit 231 of the presence relay server 23 of the roaming network 2 (S611).
Subsequently, the transmission / reception unit 231 of the presence relay server 23 of the roaming network 2 transmits a presence information update response signal to the transmission / reception unit 31 of the mobile device 3 (S612).

  As described above, in the present embodiment, presence information of a plurality of mobile devices 3 is transmitted from the presence relay server 23 of the roaming network 2 to the presence server 13 of the home network 1 in a lump. However, since presence information transmitted in a lump is transmitted in a lump by a single communication connection, more efficient communication is possible compared to the conventional method in which a communication connection is made for each mobile device 3. As a result, the processing load on the presence server 13 of the home network 1 can be reduced.

1 is a block diagram of a communication system for updating presence information of a mobile device when roaming according to an embodiment of the present invention. FIG. It is a processing flow in authentication of a mobile device at the time of location registration executed when the mobile device roams to a roaming network. It is a flow of the process of the authentication procedure at the time of presence information update. It is a flow of a presence information update process. FIG. 10 is a block diagram of a communication system for updating presence information of a mobile device during conventional roaming.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Home network 2 Roaming network 3 Mobile station 11 Home network authentication server 12 Home network location registration server 13 Home network presence server 14 Communication line 21 Roaming network authentication server 22 Roaming network location registration server 23 Roaming network presence relay Server 24 Communication line 41 Communication network 42 Communication line 43 Communication line

Claims (9)

Presence information, which is the current status of the mobile device, between the home network in which the presence server is installed, the mobile device that moves between the roaming network in which the authentication server and the presence relay server are installed, and the presence server. A presence information update method for updating,
An authentication server of the roaming network is
A temporary mobile device address generation procedure capable of uniquely identifying the mobile device within the roaming network and generating a temporary mobile device address based on a predetermined condition;
A temporary mobile device address assignment procedure for assigning the generated temporary mobile device address to the mobile device;
The presence relay server of the roaming network is
A presence information acquisition procedure for acquiring the temporary mobile device address and the presence information from the mobile device;
And a presence information transmission procedure for collectively transmitting the presence information of a plurality of mobile devices to the presence server for each of the predetermined conditions based on the temporary mobile device address. Presence information update method. The presence server of the home network
Presence information classification procedure for classifying presence information received in a batch for each mobile device,
The presence information according to claim 1, further comprising: a presence information update procedure for updating presence information when there is a difference from the presence information stored in the presence server of the home network. Update method.   The presence information update method according to claim 1, wherein the predetermined condition is a condition based on an allowable presence information delay time. The presence relay server of the roaming network is
And further including a permissible presence information delay time acquisition procedure for acquiring from the temporary mobile unit address a mobile unit address capable of uniquely identifying the mobile unit within the home network, and the permissible presence information delay time of the mobile unit. The presence information updating method according to claim 3, wherein: The presence relay server of the roaming network is
A timer value setting procedure for setting a timer value based on the allowable presence information delay time;
A presence information transmission procedure for transmitting the presence information of a plurality of mobile devices addressed to the same home network received within the timer value to the presence server of the home network in a lump. The presence information updating method according to claim 3. In a roaming service, a home network in which a presence server that manages presence information that is the current status of the mobile device is installed, and a temporary mobile device address that can uniquely identify the mobile device in the roaming network is generated based on a predetermined condition Presence information for updating presence information, which is the current status of the mobile device, between the mobile device that moves between roaming networks in which an authentication server that assigns this to the mobile device is installed and the presence server A service system,
A presence information service system further comprising: a presence relay server that stores presence information transmitted from a mobile device in the roaming network and collectively transmits presence information to a presence server based on a predetermined condition. . The presence information service system according to claim 6, wherein the predetermined condition is a condition based on an allowable presence information delay time. A presence relay server for a roaming network,
The presence relay server of the roaming network is
Presence-related information acquisition means for acquiring from the mobile device a temporary mobile device address assigned to the mobile device based on a predetermined condition and presence information that is the current status of the mobile device;
Presence information transmitting means for collectively transmitting the presence information of a plurality of mobile devices to the presence server for each of the predetermined conditions based on the temporary mobile device address. Roaming network presence relay server. A roaming network authentication server,
The roaming network authentication server is:
A temporary mobile device address generating means capable of uniquely identifying the mobile device within the roaming network and generating a temporary mobile device address based on a predetermined condition;
A roaming network authentication server, comprising: a temporary mobile device address assigning means for assigning the generated temporary mobile device address to the mobile device.

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