JP2005204213A - Call arrival control method for mobile communication terminal, mobile communication terminal, and call arrival control system for same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To receive call arrival from a mobile communication network to which a mobile communication terminal subscribes, using an auxiliary communication means if the mobile communication terminal is located out of a service area of the mobile communication network. <P>SOLUTION: A mobile communication terminal A (MS-A) 4 which is located out of a service range 3 of a base station (BS) 2 belonging to a mobile communication network 1 establishes a link with another mobile communication terminal B (MS-B) 5 within the service area using a short-distance radio communication means. An identification information storage unit 57 of the MS-B 5 stores mobile terminal identification information of the MS-A 4, which is received via the short-distance link, and a control unit 58 uses the mobile terminal identification information to establish a control channel with the BS 2. The BS 2 sends call arrival addressed to the MS-A 4 to the MS-B 5 via the control channel, and the MS-B 5 further replays the call arrival to the MS-A 4. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an incoming call control method for a mobile communication terminal, a mobile communication terminal, and an incoming call control system for a mobile communication terminal, and more particularly to an incoming call control method when the mobile communication terminal is located outside the service area of a mobile communication network to which the mobile communication terminal subscribes. The present invention relates to a mobile communication terminal and system.

  When the mobile communication terminal is located outside the service area of the mobile communication network to which the mobile communication terminal is subscribed, by relaying another mobile communication terminal or the like using auxiliary communication means (for example, short-range wireless communication means represented by Bluetooth) In some cases, it is required to enable communication via a mobile communication network. Conventionally, an invention for responding to such a request has been made (for example, see Patent Document 1 or Patent Document 2).

  The invention disclosed in Patent Document 1 is based on a relay device such as a fixed communication terminal that is searched and detected using short-range wireless communication means when a mobile communication terminal is out of service area and cannot be transmitted. It makes it possible to make outgoing calls. Further, the invention disclosed in Patent Document 2 preferentially uses the means when the mobile communication terminal detects that the short-distance wireless communication means can communicate with the relay device. Is configured to automatically transfer incoming calls from the mobile communication network to the mobile communication terminal to the relay device according to a pre-set on the premise of having an automatic incoming call transfer function.

However, these conventional techniques also have a problem that incoming calls cannot be received via the relay device regardless of the function of the mobile communication network.
JP 2003-47064 A (2nd, 5th, 6th pages, FIG. 1) JP 2001-103549 A (2nd page, FIG. 1)

  In the conventional technique disclosed in Patent Document 1 described above, there is a problem that a call can be received from a mobile communication terminal located outside the service area but cannot be received. Further, the conventional technique disclosed in Patent Document 2 described above has a problem that it is not effective when the mobile communication network does not have an incoming call automatic transfer function.

  The present invention has been made to solve the above-described problem, and an incoming call control method for a mobile communication terminal capable of receiving an incoming call in a mobile communication terminal located outside the service area regardless of the function of the mobile communication network, a mobile communication terminal, and An object of the present invention is to provide an incoming call control system for a mobile communication terminal.

  In order to achieve the above object, an incoming call control method for a mobile communication terminal according to the present invention is a subscriber terminal to which mobile terminal identification information is assigned in a mobile communication network, and is a first mobile device provided with short-range wireless communication means. When the communication terminal determines that it is outside the service area of the mobile communication network, a search is performed using the short-range wireless communication means, and the second mobile communication within the service area of the mobile communication network as a result of the search When a terminal is detected, a short-range link is established with the second mobile communication terminal using the short-range wireless communication means, and the second mobile communication terminal is connected to the second mobile communication terminal using the short-range link. The mobile terminal identification information is transmitted, and the second mobile communication terminal receives and stores the mobile terminal identification information transmitted from the first mobile communication terminal, and stores the mobile terminal identification information. make use of A control channel is established with the mobile communication network, and the first short-range link is used when the first mobile communication terminal receives an incoming call from the mobile communication network via the control channel. The incoming call is relayed to a mobile communication terminal.

  According to the present invention, since the relay device in the service area of the mobile communication network has the mobile terminal identification information (for example, the subscriber telephone number) of the mobile communication terminal and is connected to the mobile communication network, Even if the communication terminal itself is outside the service area of the mobile communication network, it can receive an incoming call via the relay device.

  Embodiments of the present invention will be described below with reference to the drawings.

  Hereinafter, Embodiment 1 of the present invention will be described with reference to FIGS. 1 and 2. FIG. 1 is a block diagram of an incoming call control system for a mobile communication terminal according to a first embodiment of the present invention and a mobile communication terminal used as a relay device in the system. In the figure, reference numeral 1 denotes a mobile communication network, which is interconnected with a fixed communication network (not shown) to form a public network as a whole. 2 is a base station (abbreviated as BS) belonging to the mobile communication network 1, and 3 is a service range of the geographical base station 2. Reference numeral 4 denotes a mobile communication terminal A (abbreviated as MS-A), which is a subscriber terminal of the mobile communication network 1 but is located outside the service area 3. This means that the BS- 2 generally represents a base station belonging to the mobile communication network 1 and that any base station belonging to the mobile communication network 1 is located outside the service area of the MS-A 4 And

  The MS-A 4 has short-range wireless communication means (for example, Bluetooth), and establishes a short-range link with the mobile communication terminal B (abbreviated as MS-B) 5 using the means to perform communication. Can do. MS-B 5 is a subscriber terminal of the mobile communication network 1 and is located within the service range 3.

  The MS-B 5 includes a first antenna 51, a first radio unit 52, and a first modulation / demodulation unit 53 that are communication means with the BS 2 belonging to the mobile communication network 1. Moreover, the 2nd antenna 54, the 2nd radio | wireless part 55, and the 2nd modulation / demodulation part 56 which are near field communication means between MS-A4 are provided. The mobile terminal identification information received from the MS-A 4 (the subscriber telephone number of the MS-A 4 given from the mobile communication network 1) is stored in the identification information storage unit 57. The control unit 58 controls transmission / reception with the BS 2. The incoming call relay unit 59 relays the incoming call to the MS-A 4 received by the control unit 58 from the mobile communication network 1 to the MS-A 4 via the short-range wireless communication means described above. The other configurations of MS-B5 are not shown.

  Next, with reference to FIG. 2, the incoming call control method of the mobile communication terminal according to the first embodiment of the present invention will be described. FIG. 2 is a sequence diagram illustrating an incoming call control method for the mobile communication terminal according to the first embodiment of the present invention. Three straight lines in the vertical direction in the figure correspond to MS-A4, MS-B5, and BS2, respectively. The blocks on each line represent events in the corresponding configuration. An arrow connecting a straight line representing MS-A4 and a straight line representing MS-B5 represents a communication event via a short-distance link. Moreover, the arrow which connects between the straight line showing MS-B5 and the straight line showing BS-2 represents the communication event between MS-B5 and BS-2.

  First, it is detected that MS-A4 is out of service area 3 of BS2 (event E1). Then, MS-A4 performs a search using a known method by the short-range communication means (event E2), and receives a response from MS-B5 located in the short-range communication range having the same short-range communication means. Detect (event E3). As a result, a short-distance link is established between MS-A4 and MS-B5 (event E4).

  After the short-distance link is established, MS-A4 transmits its own mobile terminal identification information to MS-B5 via the short-distance link (event E5). The mobile terminal identification information is received by the second antenna 54 and the second radio unit 55 of the MS-B5, demodulated by the second modem unit 56, and then stored in the identification information storage unit 57 (event E6).

  Then, the control unit 58 refers to the MS-A4 mobile terminal identification information stored in the identification information storage unit 57 and requests the BS 2 to establish a control channel using the mobile terminal identification information (event E7). . In response to the request, BS2 returns a response indicating consent to establishment of the control channel to MS-B5 as if MS-A4 is within range (event E8). In MS-B5, the establishment request is transmitted from the control unit 58 via the first modem unit 53, the first radio unit 52, and the first antenna 51, and the consent response is controlled by reversing the same path. Part 58 is reached. The above control channel establishment request and consent response are performed by a known method. At this time, the MS-B 5 uses the mobile terminal identification information of the MS-A 4 instead of its own mobile terminal identification information. belongs to.

  As a result, a control channel based on the mobile terminal identification information of MS-A4 is established between MS-B5 and BS2 (event E9). In this state, when an incoming call to the MS-A 4 from the mobile communication network 1 (or from a public network including the mobile communication network 1) reaches the BS 2 (event E10), the BS 2 sends the incoming call to the mobile terminal identification information of the MS-A 4 Is sent to MS-B5 via the control channel established based on (event E11), and MS-B5 relays this to MS-A4 (event E12).

  According to the first embodiment of the present invention, even when the mobile communication terminal is not in the service area of the mobile communication network, the mobile communication network or the mobile communication terminal Incoming calls from public networks including this can be received.

  Hereinafter, Embodiment 2 of the present invention will be described with reference to FIGS. 3 and 4. FIG. 3 is a block diagram of an incoming call control system for a mobile communication terminal according to a second embodiment of the present invention. Reference numeral 31 in the figure denotes a fixed communication network, which is interconnected with a mobile communication network (not shown) to form a public network as a whole. A fixed communication terminal 32 is a subscriber terminal of the fixed communication network 31 and is connected to the fixed communication network 31 by a relay server 33. 34 is a terminal identification information database for registering fixed terminal identification information (subscriber telephone number given from the fixed communication network 31).

  On the other hand, 35 is a subscriber terminal of the mobile communication network (not shown), but is a mobile communication terminal located outside the service area. The mobile communication terminal 35 has short-distance wireless communication means (for example, Bluetooth), and can establish a short-distance link with the fixed communication terminal 32 using the means to perform communication.

  Next, with reference to FIG. 4, the incoming call control method of the mobile communication terminal according to the second embodiment of the present invention will be described. FIG. 4A is a sequence diagram illustrating an incoming call control method for a mobile communication terminal according to the second embodiment of the present invention. Three straight lines in the vertical direction in the figure correspond to the mobile communication terminal 35, the fixed communication terminal 32, and the relay server 33, respectively. The meanings of the blocks on each straight line and the arrows between the straight lines are the same as those in FIG.

  First, it is detected that the mobile communication terminal 35 is out of the service area (event E41) to event E45. The process of the short-distance link of the mobile communication terminal 35 is not a separate mobile communication terminal but a fixed communication terminal. Except for the point 32, it is the same as FIG. The fixed communication terminal 32 that has received the mobile terminal identification information from the mobile communication terminal 35 registers the information in the terminal identification information database 34 via the relay server 33. This registration is performed in association with the fixed terminal identification information unique to the fixed communication terminal 32 (the subscriber telephone number of the fixed communication terminal 32 given from the fixed communication network 31). FIG. 4B is a diagram illustrating an example registered under such association.

  When an incoming call from the fixed communication network 31 (or from a public network including the fixed communication network 31) reaches the relay server 33 (event E47), the relay server 33 moves to the destination of the incoming call. Based on the terminal identification information (for example, “090-8765-4321” in FIG. 4B), the registered content of the terminal identification information database 34 is searched. As a result, when the fixed terminal identification information (for example, “042-123-4567” in FIG. 4B) associated with the mobile terminal identification information is detected, the relay server 33 detects the detected fixed terminal. The incoming call is sent to the fixed communication terminal 32 having the identification information (event E49). The fixed communication terminal 32 further relays the incoming call to the mobile communication terminal 35 (event E50).

  According to the second embodiment of the present invention, even if the mobile communication terminal is not in the service area of the mobile communication network, it is close to the fixed communication terminal connected to the fixed communication network that forms the public network together with the mobile communication network. By establishing a distance link and relaying it to the fixed communication terminal, it is possible to receive an incoming call from a mobile communication network or a public network.

  Hereinafter, Embodiment 3 of the present invention will be described with reference to FIGS. 5 and 6. FIG. 5 is a diagram illustrating the configuration of an incoming call control system for a mobile communication terminal according to a third embodiment of the present invention. The mobile communication network 1, BS 2 and service range 3 in the figure are the same as in FIG. A mobile communication terminal C (abbreviated as MS-C) 14 is a subscriber terminal of the mobile communication network 1 but is located outside the service area 3. As in the first embodiment, this means that the MS-C 14 is located outside the service range of any base station belonging to the mobile communication network 1. The MS-C 14 has short-range wireless communication means (for example, Bluetooth), and can establish a short-range link with the communication device 15 using the means to perform communication.

  The MS-C 14 is also a user terminal of an information service provided by the server 16 and stores the address of the server 16 in the network 17 for providing the information service, user identification information, and a password. Although not shown in FIG. 5 for the sake of simplicity, the network 17 for providing information services is interconnected with the mobile communication network 1, and the MS-C 14 is mobile communication when it is within the service area of the mobile communication network 1. The server 16 can be accessed via the network 1. Therefore, the mobile terminal identification information of the MS-C 14 in the mobile communication network 1 is registered in the information service user database 18 in association with the above-described user identification information and password.

  Note that the communication device 15 is constantly connected to the network 17 for providing information services. If the address of the server 16 is obtained, the communication device 15 can access and connect to the server 16. In addition, a mobile communication terminal D (abbreviated as MS-D) 19 that is a subscriber terminal of the mobile communication network 1 and is located within the service area of the BS 2 is steadily connected to the server 16.

  Next, with reference to FIG. 6, the incoming call control method of the mobile communication terminal according to the third embodiment of the present invention will be described. FIG. 6 is a sequence diagram illustrating an incoming call control method for a mobile communication terminal according to a third embodiment of the present invention. The five straight lines in the vertical direction in the figure correspond to the MS-C 14, the communication device 15, the server 16, MS-D 19 and BS2, respectively. The meanings of the blocks on each straight line and the arrows between the straight lines are the same as those in FIG.

  First, the process from detecting that the MS-C 14 is out of the service area (event E61) to the event E64 is the communication device 15 instead of another mobile communication terminal at the other end of the short-distance link of the MS-C14. Except for this point, the description is omitted because it is the same as FIG. The MS-C 14 sends the address, user identification information, and password of the server 16 to the communication device 15 using the established short-distance link (event E65).

  The communication device 15 transfers the user identification information and password to the server 16 based on the received address (event E66). Then, the server 16 returns certification information for certifying that it is an authenticated server to the communication device 15 (event E67), and the communication device 15 confirms the certification information and transmits its own communication device identification information to the server. 16 (event E68).

  Subsequently, based on the user identification information of the MS-C 14 transferred from the communication device 15, the server 16 previously registers the mobile terminal identification information of the mobile communication terminal in association with the user identification information. The database 18 is searched. As a result, when the mobile terminal identification information of the MS-C 14 is detected, the communication device identification information of the communication device 15 is registered in the user database 18 in association with the mobile terminal identification information. FIG. 7 is a diagram illustrating an example registered under such association.

  Next, the server 16 sends the mobile terminal identification information of MS-C14 to MS-D19 (event E70), and MS-D19 receives the mobile terminal identification information of MS-C14 in the same manner as MS-B5 of the first embodiment. And memorize (event E71). Thereafter, the MS-D 19 requests the BS 2 to establish a control channel using the mobile terminal identification information of the MS-C 14, and the processing until the control channel is established (from event E72 to event E74) is as shown in FIG. This is the same as the processing from events E7 to E9.

  Here, when an incoming call from the mobile communication network 1 (or from a public network including the mobile communication network 1) reaches the BS 2 (event E75), the BS 2 converts the incoming call into the mobile terminal identification information of the MS-C 14. It is sent to the MS-D 19 via the established control channel (event E76), and the MS-D 19 further relays to the server 16 (event E77). The server 16 searches the registered content of the user database 18 based on the terminal identification information (for example, “090-8765-4321” in FIG. 7) of the MS-C 14 that is the destination of the incoming call (event E78). As a result, when communication device identification information (for example, “ABC-DEF-GHK-L” in FIG. 7) correlated with the mobile terminal identification information is detected, the server 16 detects the detected communication device identification information. The incoming call is sent to the communication device 15 having the event (event E79). The communication device 15 further relays the incoming call to the MS-C 14 (event E80).

  According to the third embodiment of the present invention, when a mobile communication terminal is also an information service user terminal and a public network connection using a short-distance link is possible as one form of the information service, the mobile communication network You can receive incoming calls from the public network even if you are not in the service area.

1 is a block diagram of an incoming call control system for a mobile communication terminal according to a first embodiment of the present invention and a mobile communication terminal that is a relay device thereof. The sequence diagram of the incoming call control method of the mobile communication terminal which concerns on Example 1 of this invention. The block diagram of the incoming call control system of the mobile communication terminal which concerns on Example 2 of this invention. (A) is a sequence diagram of an incoming call control method for a mobile communication terminal according to Embodiment 2 of the present invention, and (b) is a diagram showing association in registration of mobile terminal identification information and the like. The block diagram of the incoming call control system of the mobile communication terminal which concerns on Example 3 of this invention. The sequence diagram of the incoming call control method of the mobile communication terminal which concerns on Example 3 of this invention. The figure showing the association in registration of the mobile terminal identification information etc. which concern on Example 3 of this invention.

Explanation of symbols

1 Mobile communication network 2 Base station (BS)
3 Service range 4 Mobile communication terminal A (MS-A)
5 Mobile communication terminal B (MS-B)
14 Mobile communication terminal C (MS-C)
DESCRIPTION OF SYMBOLS 15 Communication device 16 Server 17 Network 18 for providing information service User database 19 Mobile communication terminal D (MS-D)
31 fixed communication network 32 fixed communication terminal 33 relay server 34 terminal identification information database 35 mobile communication terminal 51 first antenna 52 first radio unit 53 first modem unit 54 second antenna 55 second radio unit 56 second modem unit 57 Information storage unit 58 Control unit 59 Incoming relay unit

Claims (7)

When the first mobile communication terminal, which is a subscriber terminal provided with mobile terminal identification information in the mobile communication network and has a short-range wireless communication means, determines that it is out of the service area of the mobile communication network, the short-range When a search is performed using wireless communication means, and the second mobile communication terminal within the service area of the mobile communication network is detected as a result of the search, the short distance with the second mobile communication terminal While establishing a short-range link using wireless communication means, transmitting the mobile terminal identification information to the second mobile communication terminal using the short-range link,
The second mobile communication terminal receives and stores the mobile terminal identification information transmitted from the first mobile communication terminal, and communicates with the mobile communication network using the mobile terminal identification information. Establishing a control channel and receiving the incoming call from the mobile communication network via the control channel to the first mobile communication terminal using the short-range link when the incoming call is received from the first mobile communication terminal An incoming call control method for a mobile communication terminal, characterized in that When the mobile communication terminal, which is a subscriber terminal provided with mobile terminal identification information in the mobile communication network and is equipped with short-range wireless communication means, determines that the mobile communication network is outside the service area of the mobile communication network, the short-range wireless communication means When a fixed communication terminal connected to the public network is detected as a result of the search, a short-range link is established with the fixed communication terminal using the short-range wireless communication means And transmitting the mobile terminal identification information to the fixed communication terminal using the short-range link,
The fixed communication terminal receives the mobile terminal identification information transmitted from the mobile communication terminal, and correlates unique fixed terminal identification information with the mobile terminal identification information and belongs to the public network. Registered with
The relay server belonging to the public network searches the terminal identification information database using the mobile terminal identification information that is the destination of the incoming call when there is an incoming call to the mobile communication terminal. An incoming call control method for a mobile communication terminal, wherein when detected, the incoming call is relayed to the mobile communication terminal via the fixed communication terminal. A subscriber terminal to which mobile terminal identification information is given in a mobile communication network and a user terminal of the information service storing a server address, user identification information, and a password used for an information service, the information service The mobile terminal identification information is registered in the user database in association with the user identification information and password, and the first mobile communication terminal having short-range wireless communication means is outside the service area of the mobile communication network When it is determined that a search is performed using the short-range wireless communication means, and the communication device connectable to the server is detected as a result of the search, the short-range wireless communication means is connected to the communication device. To establish a short-range link, and use the short-range link to add the server to the communication device. Vinegar, and transmits the user identification information and the password,
The communication device transmits the user identification information and the password to the server using the address of the server, and confirms the certification information returned from the server to identify the communication device to the server. Send information,
When the server detects the mobile terminal identification information as a result of searching the user database using the user identification information received from the communication device, the server identifies the mobile device identification information received from the communication device. Registering in the user database in association with information, and transmitting the mobile terminal identification information to a second mobile communication terminal connected to the server,
The second mobile communication terminal receives and stores the mobile terminal identification information transmitted from the server when in the service area of the mobile communication network, and uses the mobile terminal identification information to store the mobile communication network. And establishes a control channel with the server, and relays the incoming call to the server when there is an incoming call from the mobile communication network to the first mobile communication terminal via the control channel,
The server relays the incoming call to the communication device using the communication device identification information detected as a result of searching the user database using the mobile terminal identification information that is the destination of the incoming call,
The mobile communication terminal incoming call control method, wherein the communication device relays the incoming call to the first mobile communication terminal using the short-distance link. A short-range wireless communication means for establishing a short-range link with a subscriber terminal to which mobile terminal identification information is assigned in a mobile communication network;
Means for receiving and storing the mobile terminal identification information transmitted from the subscriber terminal using the short-range link;
Means for establishing a control channel with the mobile communication network using the mobile terminal identification information;
And means for relaying the incoming call to the subscriber terminal using the short-distance link when an incoming call is received from the mobile communication network via the control channel. Mobile communication terminal. A subscriber terminal provided with mobile terminal identification information in a mobile communication network, comprising short-range wireless communication means, and when it is determined that the mobile terminal is outside the service area of the mobile communication network, search using the short-range wireless communication means And when the second mobile communication terminal within the service area of the mobile communication network is detected as a result of the search, the short-range wireless communication means is used for the short-range wireless communication means with the second mobile communication terminal. A first mobile communication terminal that establishes a distance link and transmits the mobile terminal identification information to the second mobile communication terminal using the short-range link;
The mobile terminal identification information transmitted from the first mobile communication terminal is received and stored, a control channel is established with the mobile communication network using the mobile terminal identification information, and the mobile Second mobile communication that relays the incoming call to the first mobile communication terminal using the short-range link when an incoming call is received from the communication network via the control channel to the first mobile communication terminal An incoming call control system for a mobile communication terminal comprising a terminal. A subscriber terminal provided with mobile terminal identification information in a mobile communication network, comprising short-range wireless communication means, and when it is determined that the mobile terminal is outside the service area of the mobile communication network, search using the short-range wireless communication means And when a fixed communication terminal connected to the public network is detected as a result of the search, a short-range link is established with the fixed communication terminal using the short-range wireless communication means, and A mobile communication terminal that transmits the mobile terminal identification information to the fixed communication terminal using a distance link;
Receiving the mobile terminal identification information transmitted from the mobile communication terminal, registering unique fixed terminal identification information in the terminal identification information database belonging to the public network in association with the mobile terminal identification information,
The relay server belonging to the public network searches the terminal identification information database using the mobile terminal identification information that is the destination of the incoming call when there is an incoming call to the mobile communication terminal. An incoming call control system for a mobile communication terminal, comprising: a fixed communication terminal that relays the incoming call from the relay server to the mobile communication terminal when detected. A subscriber terminal to which mobile terminal identification information is given in a mobile communication network and a user terminal of the information service storing a server address, user identification information, and a password used for an information service, the information service The mobile terminal identification information is registered in the user database in association with the user identification information and the password, and a first mobile communication terminal provided with short-range wireless communication means; a communication device connectable to the server; In the incoming call control system for a mobile communication terminal composed of the server and the user database, and a second mobile communication terminal connected to the server,
When the first mobile communication terminal determines that the mobile communication network is outside the service area of the mobile communication network, the first mobile communication terminal performs a search using the short-range wireless communication means, and the communication device connected to the server as a result of the search When detected, a short-distance link is established with the communication device using the short-distance wireless communication means, and the server address and the user identification for the communication device are established using the short-distance link. Send information and the password,
The communication device transmits the user identification information and the password to the server using the server address, confirms the certification information returned from the server, and identifies the communication device identification to the server. Send information,
When the server detects the mobile terminal identification information as a result of searching the user database using the user identification information received from the communication device, the server identifies the mobile device identification information received from the communication device. Registering in the user database in association with information, and transmitting the mobile terminal identification information to a second mobile communication terminal connected to the server,
The second mobile communication terminal receives and stores the mobile terminal identification information transmitted from the server when in the service area of the mobile communication network, and uses the mobile terminal identification information to store the mobile communication network. And establishes a control channel with the server, and relays the incoming call to the server when there is an incoming call from the mobile communication network to the first mobile communication terminal via the control channel,
The server relays the incoming call to the communication device using the communication device identification information detected as a result of searching the user database using the mobile terminal identification information that is the destination of the incoming call,
The server further relays the incoming call to the communication device using the communication device identification information detected as a result of searching the user database using the mobile terminal identification information that is the destination of the incoming call. The communication device further relays the incoming call to the first mobile communication terminal using the short-distance link.

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