JP2006074603A - Call control server and nuisance incoming call prevention method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a call control server and a nuisance incoming call prevention method which avoids that a wireless LAN interface out of service is started by a nuisance e-mail or a nuisance incoming call and suppresses power consumption of a mobile terminal. <P>SOLUTION: Information about a calling origin where an incoming call is refused is held by being associated with mobile terminal information in a data base 102 and a DB retrieval part 103 retrieves calling origin information held in the data base 102 using the calling origin information as a retrieval key. In an incoming call refusal decision part 104, whether or not the incoming call is permitted is decided based on a retrieval result of the DB retrieval part 103. A WLAN I/F start confirmation part 105 inquires whether or not the wireless LAN interface of the mobile terminal is started to a Mobile IP agent and a cellular paging instruction part 106 instructs paging to a cellular position management server. A call control part 101 performs an incoming call processing to the wireless LAN interface of the mobile terminal where the incoming call is permitted. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a call control server and a nuisance incoming call prevention method, and more particularly to a call control server and a nuisance incoming call prevention method for performing call control of a mobile terminal having a cellular wireless interface and a wireless LAN (Local Area Network) interface.

  Generally, in a mobile communication system, paging for calling a mobile terminal is performed before data transmission including audio and video is performed. Paging is performed by transmitting a communication request from a higher-level device to a set of base stations that are considered to be visited by a mobile terminal to be called, and the base station that receives the communication request broadcasts a paging request signal. Is called.

  Incidentally, in recent years, mobile communication terminals having both a cellular wireless interface and a wireless LAN interface have been put into practical use. Even in such a mobile terminal, it is necessary to perform paging. However, when paging using a wireless LAN is considered, power consumption increases when the wireless LAN interface is activated for a long time, such as in a standby state. For this reason, a method of starting the wireless LAN interface via the cellular wireless interface while suppressing power consumption by setting the sleep state in which the energization to the wireless LAN interface is stopped has been studied (see, for example, Patent Document 1). ). Hereinafter, this method will be described with reference to the drawings.

  First, a general network configuration is conceptually shown in FIG. In this figure, a cellular wireless network, a wireless LAN network, and the Internet are connected to each other, and the cellular wireless network manages the position of the mobile terminal located in the communication area of the base station, and the cellular wireless interface of the mobile terminal. A cellular location management server having a paging function is arranged. In addition, in a wireless LAN network, a Mobile IP agent (location management server) that supports mobility at the IP layer of a mobile terminal located in the hot spot communication area, and incoming and outgoing calls to the wireless LAN interface of the mobile terminal A call control server to be controlled is arranged.

  Next, FIG. 11 shows a method of starting the wireless LAN interface via the cellular wireless interface. In this figure, in step (hereinafter abbreviated as “ST”) 11, the mobile terminal activates the wireless LAN interface, and in ST 12, the Binding Update (including the location information is included in the Mobile IP agent via the activated wireless LAN interface). For example, information that associates the home address of the terminal with the current care-of address is periodically transmitted. The Binding Update conforms to the Mobile IP (IP Mobility Support) protocol standardized in the IETF RFC.

  If the mobile terminal does not perform communication via the wireless LAN interface, in ST13, the mobile terminal pauses the wireless LAN interface to reduce power consumption of the mobile terminal.

  Here, in ST14, if a call directed to the mobile terminal occurs from the caller to the call control server, the call control server confirms the activation status of the wireless LAN interface of the mobile terminal with the Mobile IP agent in ST15. This confirmation is performed depending on whether or not the IP address of the mobile terminal is registered in the Mobile IP agent.

  Here, since the IP address of the mobile terminal is not registered in the Mobile IP agent, the Mobile IP agent responds to the call control server in ST16 to that effect (resting). The call control server that has received the response from the Mobile IP agent determines that the wireless LAN interface of the mobile terminal is inactive, and issues a paging instruction to the mobile terminal to the cellular location management server in ST17.

  Upon receiving the paging instruction from the call control server to the mobile terminal, the cellular location management server performs paging on the cellular radio interface of the mobile terminal in ST18. When receiving the paging, the mobile terminal activates the wireless LAN interface in ST19, and transmits the Binding Update to the Mobile IP agent in ST20, thereby registering the IP address of the wireless LAN interface. Also, the mobile terminal transmits a response to paging to the cellular location management server in ST21, and the cellular location management server notifies the call control server that paging was successful in ST22.

  In ST23, the call control server notified of the successful paging inquires the mobile IP agent again about the activation status of the wireless LAN interface of the mobile terminal, and the IP address of the mobile terminal is registered in ST24. Upon receiving the response, it is determined that the wireless LAN interface of the mobile terminal is activated. The call control server does not need to confirm ST23.

  The call control server makes a call to the wireless LAN interface of the mobile terminal in ST25, and the mobile terminal receives a call from the caller in ST26.

By such a method, it is possible to activate a dormant wireless LAN interface via the cellular wireless interface while suppressing power consumption by making the wireless LAN interface dormant.
JP 2003-229800 A JP 2002-368819 A JP 2003-134168 A

  However, the above-described method does not take into account preventing spam mails and incoming calls (such as annoying phone calls and switching off ones) to mobile terminals, and the inactive wireless LAN interface is activated by spam mails or incoming calls. In other words, power may be wasted.

  The present invention has been made in view of the above points, and a call control server and a nuisance incoming call prevention method that prevent a suspended wireless LAN interface from being activated by a junk mail or an nuisance incoming call and reduce power consumption of a mobile terminal. The purpose is to provide.

  The call control server of the present invention is configured to make a call to a mobile terminal having a first interface connected to the first wireless network and a second interface connected to a second wireless network different from the first wireless network. If the first interface of the mobile terminal is dormant, the call control server that activates the dormant first interface via the second wireless network and performs call control, and accepts incoming calls to the mobile terminal Or a storage unit that stores information of a sender to be rejected, an incoming call determination unit that determines whether to accept or reject an incoming call based on the source information stored in the storage unit, and the incoming call determination unit When it is determined that the mobile terminal is permitted, a configuration is provided that includes a call control unit that performs an incoming call process to the first interface of the mobile terminal.

  According to this configuration, when the incoming call is permitted, the incoming process to the first interface of the mobile terminal is performed. Therefore, if the first interface is inactive, it is not necessary to activate the inactive first interface. Therefore, the power consumption of the mobile terminal can be suppressed.

  The call control server of the present invention, in the above configuration, determines that the incoming call determination unit permits an incoming call, and when the first interface of the mobile terminal is dormant, the mobile terminal with respect to a second wireless network A configuration having paging instruction means for instructing paging to the network is adopted.

  According to this configuration, even when the first interface of the mobile terminal that is permitted to receive a call is inactive, the first interface of the mobile terminal is instructed by instructing paging to the mobile terminal via the second wireless network. It can be activated and can receive calls using the activated first interface.

  The call control server according to the present invention comprises activation confirmation means for confirming that the first interface of the mobile terminal is activated in the above configuration, wherein the incoming call determination means is connected to the mobile terminal by the activation confirmation means. When it is confirmed that the first interface is activated, the sender information stored in the storage means is ignored and the incoming call is permitted.

  According to this configuration, if the first interface is activated, the power consumption of the mobile terminal is not increased even if the incoming call from the transmission source stored in the storage unit is permitted, and the user is beneficial. The possibility of acquiring information can be improved.

  Annoying incoming call prevention method according to the present invention includes an incoming call determination step for determining whether to permit or reject an incoming call based on information of a transmission source that permits or rejects an incoming call to a wireless LAN interface of a mobile terminal; A paging instruction step for instructing the cellular radio network to paging to the mobile terminal when it is determined that the incoming call is permitted in the step and the wireless LAN interface of the mobile terminal is inactive, and activation of the mobile terminal And a call control process for performing an incoming call process to the wireless LAN interface.

  According to this method, when the incoming call is permitted, the incoming process to the first interface of the mobile terminal is performed. Therefore, if the first interface is inactive, it is not necessary to activate the inactive first interface. Therefore, the power consumption of the mobile terminal can be suppressed.

  According to the present invention, it is possible to provide a call control server and a nuisance incoming call prevention method that avoids activation of a dormant wireless LAN interface due to junk mail or nuisance incoming calls and suppresses power consumption of a mobile terminal.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

(Embodiment 1)
As shown in FIG. 1, when the call control unit 101 receives an incoming request (call) from a caller to a mobile terminal, the call control server 100 according to Embodiment 1 of the present invention A search is requested and the determination result of the incoming call rejection determination unit 104 is obtained. If the incoming call rejection determination result does not reject the incoming call, that is, if the incoming call is permitted, a request is made to confirm whether the wireless LAN interface of the mobile terminal that is the target of the incoming call is activated, to the WLAN I / F activation confirmation unit 105. Based on the confirmation result, the cellular paging instruction unit 106 is controlled to make a call to the mobile terminal.

  On the other hand, when the incoming call rejection determination result rejects the incoming call, the call control unit 101 notifies the caller of an incoming call rejection notice.

  In the database 102 as a storage means, as shown in FIG. 2, the mobile terminal rejects the incoming call in correspondence with the mobile terminal information such as the mobile terminal's telephone number, SIP-URI, IP telephone number, and E-mail address. The sender information such as the telephone number, SIP-URI, IP telephone number, and E-mail address of the sender is stored.

  When receiving a database search request from the call control unit 101, the DB (database) search unit 103 uses the source information as a search key, the source information that matches the search key, and the mobile terminal information corresponding to the source information, Is output to the incoming call rejection determination unit 104.

  The incoming call rejection determination unit 104 acquires the mobile terminal information that is the target of the incoming call request from the call control unit 101, and determines whether the acquired mobile terminal information matches the mobile terminal information output from the DB search unit 103. Is done. If they match, the call control unit 101 is notified that the incoming call is rejected, and if they do not match, the call control unit 101 is notified that the incoming call is permitted.

  In response to the wireless LAN interface activation confirmation request from the call control unit 101, the WLAN I / F activation confirmation unit 105 inquires of the Mobile IP agent whether the wireless LAN interface of the mobile terminal is activated. Specifically, it is confirmed whether or not the IP address of the mobile terminal is registered in the Mobile IP agent, and if it is registered, the wireless LAN interface is activated, and if not registered, the wireless LAN interface is suspended. Suppose you are. The confirmation result is notified to the call control unit 101.

  The cellular paging instruction unit 106 instructs paging to the cellular location management server when the confirmation result by the WLAN I / F activation confirmation unit 105 is paused, and if the paging is successful, the cellular location management server notifies the fact. Receive a response. This response is notified to the call control unit 101.

  Next, the operation of the call control server 100 having the above-described configuration will be described using FIG. FIG. 3 is a flowchart showing an operation procedure of the call control server 100 shown in FIG. In this figure, in ST111, the call control unit 101 receives an incoming request (call) from the caller, and in ST112, whether or not the incoming call rejection determination unit 104 rejects the incoming call based on the database search result (permitted). ) If it is determined to reject the incoming call (YES), the process proceeds to ST113, and if it is determined not to reject the incoming call (NO), the process proceeds to ST114.

  In ST113, since it is determined in ST112 that the incoming call is rejected, call control section 101 notifies the caller that the incoming call has been rejected.

  In ST114, since it is determined not to reject the incoming call in ST112, the WLAN I / F activation confirmation unit 105 confirms whether or not the wireless LAN interface is activated in the Mobile IP agent and is activated (YES). If it determines, it will transfer to ST116, and if it determines with not starting (NO), it will transfer to ST115.

  In ST115, when the cellular paging instructing unit 106 instructs paging to the cellular location management server, the dormant wireless LAN interface is activated via the cellular wireless network.

  In ST116, since the wireless LAN interface is activated, a call is made to the activated wireless LAN interface of the mobile terminal.

  Thus, if the sender information of the junk mail or the junk incoming call is held in the database 102 of the call control server 100, the call control server 100 rejects the incoming call request from the caller. It is possible to avoid activation due to junk mail or junk incoming calls, and to suppress the power consumption of the mobile terminal.

  Here, a processing procedure between each device (cellular location management server, mobile terminal, Mobile IP agent, call control server 100, transmission source) on the network will be described with reference to the drawings. The following description will be divided into four cases: a case where the incoming call rejection is not performed while the wireless LAN interface is inactive, and a case where the incoming call rejection is not performed while the wireless LAN interface is activated.

  First, a case where incoming calls are not rejected while the wireless LAN interface is suspended will be described with reference to FIG. In ST121, the wireless LAN interface of the mobile terminal is suspended, and in ST122, a call is made from the caller to the call control server 100 to the mobile terminal.

  In ST123, the DB search unit 103 of the call control server 100 searches the database 102, and in ST124, the incoming call rejection determination unit 104 determines whether to reject the incoming call based on the database search result. Here, it is assumed that the sender information is not held in the database 102, and the incoming call rejection is not performed. Therefore, in ST125, the WLAN I / F activation confirmation unit 105 of the call control server 100 receives the incoming call to the Mobile IP agent. It is confirmed whether or not the wireless LAN interface of the mobile terminal to be requested is activated. Here, since the wireless LAN interface is assumed to be dormant, the Mobile IP agent sends a response indicating the dormancy to the call control server 100 in ST126.

  In ST127, the cellular paging instruction unit 106 of the call control server 100 issues a paging instruction to the mobile terminal to the cellular location management server, and the cellular location management server that has received the paging instruction moves through the cellular wireless network in ST128. Paging the terminal.

  In ST129, the mobile terminal that has received the paging activates the wireless LAN interface, transmits a Binding Update to the Mobile IP agent in ST130, and makes a response to the paging to the cellular location management server in ST131.

  In ST132, the cellular location management server notifies the call control server 100 that the paging is successful, and in ST133, the WLAN I / F activation confirmation unit 105 of the call control server 100 again transmits the wireless LAN of the mobile terminal to the Mobile IP agent. Check if the interface is up.

  Since the wireless LAN interface is activated in ST129 and the Binding Update is transmitted to the Mobile IP agent in ST130, a response indicating that the wireless IP interface is activated from the Mobile IP agent is made in ST134.

  In ST135, the call control unit 101 of the call control server 100 makes a call to the mobile terminal, and arrives at the mobile terminal in ST136.

  Next, a case where incoming calls are rejected while the wireless LAN interface is suspended will be described with reference to FIG. In ST141, the wireless LAN interface of the mobile terminal is suspended, and in ST142, a call is made from the caller to the call control server 100 to the mobile terminal.

  In ST143, the call control server 100 searches the database, and in ST144, the incoming call rejection determination unit 104 determines whether to reject the incoming call based on the database search result. Here, it is assumed that the sender information is held in the database 102 and the incoming call is rejected. Therefore, in ST145, the call control unit 101 of the call control server 100 notifies the sender that the incoming call has been rejected. To do.

  Next, a case where incoming call rejection is not performed while the wireless LAN interface is activated will be described with reference to FIG. In ST151, the mobile terminal activates the wireless LAN interface, and in ST152, periodically sends a Binding Update to the Mobile IP agent via the activated wireless LAN interface.

  In ST153, a call is made from the caller to the mobile terminal to the call control server 100. In ST154, the call control server 100 searches the database. In ST155, the incoming call rejection determination unit 104 rejects the incoming call based on the database search result. It is determined whether or not to perform. Here, it is assumed that the sender information is not held in the database 102 and the incoming call rejection is not performed. Therefore, in ST156, the WLAN I / F activation confirmation unit 105 of the call control server 100 receives the incoming call to the Mobile IP agent. It is confirmed whether or not the wireless LAN interface of the mobile terminal to be requested is activated. Here, since the wireless LAN interface is activated, the Mobile IP agent sends a response indicating activation to the call control server 100 in ST157.

  In ST158, the call control unit 101 of the call control server 100 makes a call to the mobile terminal, and arrives at the mobile terminal in ST159.

  Next, a case where the incoming call rejection is performed while the wireless LAN interface is activated will be described with reference to FIG. In ST161, the mobile terminal activates the wireless LAN interface, and in ST162, periodically sends a Binding Update to the Mobile IP agent via the activated wireless LAN interface.

  In ST163, a call is made from the caller to the mobile terminal to the call control server 100. In ST164, the call control server 100 searches the database. In ST165, the incoming call rejection determination unit 104 rejects the incoming call based on the database search result. It is determined whether or not to perform. Here, it is assumed that the sender information is stored in the database 102 and the incoming call is rejected. Therefore, in ST166, the call control unit 101 of the call control server 100 notifies the caller that the incoming call has been rejected. To do.

  As described above, according to the first embodiment, if the sender information of the junk mail or the junk incoming call is held in the database of the call control server, the call control server rejects the incoming call request from the sender, and the cellular radio network Since the paging to the mobile terminal is not performed via the wireless LAN, it is possible to avoid the inactive wireless LAN interface from being activated by the junk mail or the junk incoming call, and to suppress the power consumption of the mobile terminal.

(Embodiment 2)
In the first embodiment, the case where the incoming call rejection determination is performed regardless of whether the wireless LAN interface of the mobile terminal is active or inactive has been described. However, in the second embodiment of the present invention, the call control server A case will be described where it is determined whether or not to reject an incoming call when the wireless LAN interface of the mobile terminal is idle. The configuration of the call control server according to the second embodiment of the present invention is the same as that shown in FIG. 1 and will be described with reference to FIG.

  In the call control server 100 according to the second embodiment of the present invention, even if the source information indicating the incoming call rejection is registered in the database 102, the incoming call to the mobile terminal is permitted if the wireless LAN interface is activated. The user setting information (incoming OK when the wireless LAN interface is activated) is held in the database 102 as shown in FIG.

  FIG. 9 is a flowchart showing an operation procedure of the call control server 100 shown in FIG. In ST 171, in ST 171, the call control unit 101 receives an incoming request (call) from the caller. In ST 172, the WLAN I / F activation confirmation unit 105 determines whether the wireless LAN interface is activated in the Mobile IP agent. If it is determined that it is activated (YES), the process proceeds to ST174. If it is determined that it is not activated (NO), the process proceeds to ST173.

  In ST173, incoming call rejection determination section 104 determines whether to reject (permit) the incoming call based on the database search result. If it is determined to reject the incoming call (YES), the process proceeds to ST175, and if it is determined not to reject the incoming call (NO), the process proceeds to ST174.

  In ST174, if it is determined in ST173 that the incoming call is not rejected, the cellular paging instructing unit 106 instructs the cellular location management server to perform paging, so that the dormant wireless LAN interface is activated via the cellular wireless network. The call control unit 101 makes a call to the wireless LAN interface activated by the mobile terminal. If it is determined in ST172 that the wireless LAN interface is activated, even if the sender information indicating rejection of the incoming call is registered in the database, if the wireless LAN interface is activated, the incoming call to the mobile terminal Therefore, the call control unit 101 makes a call to the wireless LAN interface activated by the mobile terminal without determining whether or not to reject the incoming call.

  In ST175, since it is determined to reject the incoming call in ST173, the call control unit 101 notifies the caller that the incoming call has been rejected.

  As described above, according to the second embodiment, if the wireless LAN interface is activated, the power consumption of the mobile terminal will not be increased even if the call from the caller registered for call rejection is accepted. The possibility that the user acquires useful information can be improved.

(Other embodiments)
In the second embodiment, a case has been described in which a call from a caller registered for call rejection is accepted if the wireless LAN interface is active. However, if the wireless LAN interface is charged during suspension, call rejection is performed. A case will be described in which a call from a caller registered in is accepted.

  The mobile terminal notifies the cellular location management server using the cellular radio interface that the wireless LAN interface is idle and the mobile terminal is being charged. The cellular location management server notifies the call control server of the contents notified from the mobile terminal, and the call control server notifies the Mobile IP agent.

  The call control server receives a call from a caller registered for call rejection, makes an inquiry to the Mobile IP agent, the wireless LAN interface of the mobile terminal is inactive, and the mobile terminal is charging. When the response is received, a paging instruction to the mobile terminal is given to the cellular location management server. As a result, the mobile terminal activates the wireless LAN interface and receives an incoming call. This is because there is almost no need to suppress power consumption if the mobile terminal is being charged.

  In each of the embodiments described above, it is needless to say that the mobile terminal needs to register source information for rejecting an incoming call in the call control server. The sender information for rejecting the incoming call to the call control server is registered.

  Even if the sender information indicating call rejection is registered in the call control server, if the wireless LAN interface is activated, the user setting information for permitting the incoming call to the mobile terminal is also registered. When performing these registrations, the mobile terminal may use a wireless LAN interface via a wireless LAN network, or may use a cellular wireless interface via a cellular network.

  In each of the embodiments described above, whether or not an incoming call is basically determined based on the caller information registered in the call control server, the present invention is not limited to this, and the incoming call is determined based on the application. You may decide whether it is possible. For example, incoming calls from a telephone (VoIP: Voice over IP) application are allowed, but incoming calls from other applications such as messenger and mail are rejected.

  Similarly, whether to accept an incoming call may be determined based on the reception size. For example, an email having an attached file of a certain size or larger, or an incoming mail such as a single email is rejected. Further, whether to receive a call may be determined depending on whether it contains a computer virus (a program that destroys a mobile terminal). Further, whether or not an incoming call can be determined by the above combination. For example, a telephone (VoIP) application allows an incoming call, but a telephone including a video (VoIP) rejects an incoming call due to a reception size limit.

  The call control server and the junk incoming call prevention method according to the present invention have the effect of avoiding activation of a dormant wireless LAN interface due to junk mail or junk incoming calls and suppressing power consumption of the mobile terminal, for example, It can be applied to a server in a wireless LAN network.

The block diagram which shows the structure of the call control server which concerns on Embodiment 1 of this invention. The figure which shows the table which the database shown in FIG. 1 manages. The flowchart which shows the operation | movement procedure of the call control server shown in FIG. Sequence diagram showing the processing procedure between devices on the network Sequence diagram showing the processing procedure between devices on the network Sequence diagram showing the processing procedure between devices on the network Sequence diagram showing the processing procedure between devices on the network Diagram for explaining user setting information The flowchart which shows the operation | movement procedure of the call control server shown in FIG. Conceptual diagram showing a typical network configuration Diagram for explaining a method of activating a wireless LAN interface via a cellular wireless interface

Explanation of symbols

DESCRIPTION OF SYMBOLS 101 Call control part 102 Database 103 DB search part 104 Incoming call rejection determination part 105 WLAN I / F determination part 106 Cellular paging instruction | indication part

Claims (4)

For a call to a mobile terminal having a first interface connected to the first wireless network and a second interface connected to a second wireless network different from the first wireless network, the first interface of the mobile terminal is A call control server that activates the dormant first interface via the second wireless network to perform call control if it is dormant,
Storage means for storing information of a sender that permits or rejects incoming calls to the mobile terminal;
An incoming call determination unit that determines whether to accept or reject an incoming call based on the transmission source information stored in the storage unit;
A call control unit for performing an incoming call process on the first interface of the mobile terminal, when the incoming call determination unit determines that the incoming call is permitted;
A call control server comprising:   And paging instruction means for instructing the second wireless network to paging to the mobile terminal when the incoming call determination means determines that the incoming call is permitted and the first interface of the mobile terminal is idle. The call control server according to claim 1. Comprising activation confirmation means for confirming that the first interface of the mobile terminal is activated;
When the activation confirmation unit confirms that the first interface of the mobile terminal is activated, the incoming call determination unit ignores the source information stored in the storage unit and permits the incoming call. The call control server according to claim 1 or 2, characterized in that An incoming call determination step for determining whether to accept or reject an incoming call based on information of a transmission source that permits or rejects an incoming call to the wireless LAN interface of the mobile terminal;
A paging instruction step for instructing the cellular radio network to paging to the mobile terminal when it is determined that the incoming call is permitted in the incoming call determination step and the wireless LAN interface of the mobile terminal is idle;
A call control step for performing an incoming call process to the wireless LAN interface in which the mobile terminal is activated;
An annoying incoming call prevention method comprising:

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