JP2009278358A - Mobile communication terminal device, communication system, mobile communication terminal control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To achieve reduction of power consumption and shortening of restoration processing time within a range. <P>SOLUTION: The mobile communication terminal device acquires service information corresponding to mobile communication service provided outside a communication service area by a contracted mobile communication service provider. Outside the communication service area by the contracted communication service provider, retrieval processing for a frequency is performed only for a frequency restricted based on the acquired service information. By performing like this, service information on a roaming out destination is acquired from a service information provision device, the frequency for performing the retrieval processing is restricted according to the service information, and the retrieval processing is performed only for the optimal frequency in the area. The power consumption of the mobile communication terminal is reduced and a processing load of the terminal is suppressed. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a mobile communication terminal device, a communication system, and a mobile communication terminal control method, and in particular, a mobile communication terminal device that can be used even when roaming out and located in an area of a partner communication service provider in another country, The present invention relates to a communication system and a mobile communication terminal control method.

  A mobile communication terminal apparatus (hereinafter referred to as “mobile communication terminal” as appropriate) can use a mobile communication service in its own country when a user contracts with a mobile communication service provider (hereinafter referred to as an operator). . Furthermore, when the operator is affiliated with a foreign operator, the mobile communication terminal can be used even when roaming out in the foreign country (that is, outside the communication service area by the contracted communication service provider). It can be used as it is.

  In a roaming-out state, the mobile communication terminal periodically performs a search process for an operator with a high priority according to the description in TS23.122 4.4.3.3 of 3GPP (Third Generation Partnership Project). The above section of 3GPP describes logic for periodically performing a search process for an operator when roaming out and being located in the management area of the radio base station of an operator in another country. As a method of search processing in a roaming-out state, there is a rule for periodically performing search processing for an operator with high priority. This search process is normally performed (default), with a frequency of once every 60 minutes. Therefore, the mobile communication terminal needs to perform a search process for all supported frequencies once every 60 minutes.

  In the Limited Service State, when returning to the communication service area, a search process is performed for an operator who can register a location. Here, “Limited Service State” means a state that is outside the area of the roaming providing operator but is within the area of the roaming non-providing operator. In other words, the wireless communication of the non-roaming operator can be performed, but the mobile communication terminal device is not provided with roaming. It is. However, broadcast information from the radio base station is ready to be received. In the Limited Service State, services such as normal voice and packet communication cannot be used, but limited use such as contact with the police is allowed.

By the way, Japanese Patent Application Laid-Open No. 2004-133826 describes a technique for performing a search process for all frequencies in a state where the user roams out in a foreign country (that is, outside the communication service area by a contracted communication service provider).
JP-A-2005-260486 (paragraph 0037, paragraph 0041)

When roaming out in a foreign country (that is, outside the communication service area of a contracted communication service provider), a conventional mobile communication terminal periodically performs a search process for a high-priority operator. Yes. In this case, search processing is performed for all frequencies supported by the mobile communication terminal.
Here, as an example of the function of the mobile communication terminal, GSM fixed mode for performing search processing only for GSM (Global System for Mobile Communications), WCDMA fixed mode for performing search processing only for WCDMA (Wideband Code Division Multiple Access), GSM, There is a mode such as an automatic mode in which search processing is performed together with WCDMA. However, a user who uses a mobile communication terminal is in a situation where he / she does not know what frequency the mobile communication terminal using supports. Furthermore, the user is in a situation where he / she does not know which communication system and which frequency is provided in which country.

Then, the mobile communication terminal cannot recognize which service in the GSM communication system or the WCDMA system is provided in which country in which country. For this reason, the mobile communication terminal needs to perform frequency search processing for all supported frequencies. For example, for a Dual-compatible mobile communication terminal that can support two types of communication methods, a search process for the frequency of the WCDMA communication method is performed even in a country (area) that supports only the GSM communication method. Become. Such a search process is a useless process, and there is a problem in that it increases power consumption and hinders a reduction in the area return processing time.
The present invention has been made in order to solve the above-described problems of the prior art, and its purpose is not to perform useless frequency search processing, but to achieve reduction in power consumption and reduction in time to return to the service area. It is to provide a mobile communication terminal device, a communication system, and a mobile communication terminal control method that can be performed.

  A mobile communication terminal apparatus according to claim 1 of the present invention is a mobile communication terminal apparatus that searches a communicable mobile communication network, and receives service information receiving means (for example, a service information acquisition unit in FIG. 2). 13) and service information holding means for holding the service information received by the service information receiving means (for example, corresponding to the service information holding unit 14 in FIG. 2), and search for a mobile communication network capable of communication. In this case, it includes a search processing unit (for example, corresponding to the search processing unit 15 in FIG. 2) that searches for a frequency based on service information held in the service information holding unit. By limiting the frequency for performing the search process according to the service information received and held by the own apparatus, it is possible to perform the search process for only the optimum frequency in the area.

  According to claim 2 of the present invention, the mobile communication terminal device according to claim 1 is a service information request transmitting means for transmitting a service information request for receiving the service information (for example, the service information request transmitting unit 17 in FIG. 6). To the above). By transmitting a request for acquiring service information and limiting the frequency for performing the search process based on the acquired service information, it is possible to perform the search process for only the optimum frequency in the area.

  According to a third aspect of the present invention, there is provided a mobile communication terminal apparatus according to the first aspect, wherein a position registration request transmitting means for transmitting a position registration request (for example, corresponding to the position registration unit 12 in FIG. 2) and the position registration request Response receiving means (for example, corresponding to the location registration response receiving unit 16 in FIG. 2) for receiving the service information together with a location registration response (for example, corresponding to step S109 or S112 in FIG. 5) is further included. And By limiting the frequency for performing the search process according to the service information received and held together with the response to the location registration, it is possible to perform the search process for only the optimum frequency in the area.

  The communication system according to claim 4 of the present invention is a request receiving means for receiving at least one of a service information request and a location registration request (for example, corresponding to the location registration request receiving unit 61 in FIG. 3), and the request receiving means. When a request is received by the transmission means, a transmission means for transmitting a service information acquisition request for acquiring service information (for example, corresponding to the service information acquisition unit 62 in FIG. 3 and step S105 in FIG. 5), and the service When receiving an information acquisition request, service information transmitting means (for example, corresponding to service information transmitting unit 73 in FIG. 3 and step S106 in FIG. 5) for transmitting service information corresponding to the request, and the service information Service information receiving means for receiving the service information transmitted by the transmitting means (for example, the service information acquisition unit 62 in FIG. 3 and 5) and service information notification means for notifying the service information received by the service information receiving means (for example, corresponding to the service information notification unit 63 in FIG. 3). To do. It is possible to acquire service information such as roaming-out destinations, limit the frequency for performing the search process according to the service information, and perform the search process for only the optimum frequency in the area.

The communication system according to claim 5 of the present invention is, in claim 4, location registration availability determination means for determining location registration availability together with the service information when the request reception means is received by the request reception means (for example, FIG. 5). Corresponding to step S107 in the middle),
The service information notification unit notifies the service information together with a location registration completion notification or a location registration incomplete notification, which is a determination result of the location registration availability determination unit. According to the service information received and held together with the response to the location registration, the frequency for performing the search process is limited, and the search process can be performed only for the optimum frequency in the area.

  A mobile communication terminal control method according to claim 6 of the present invention is a mobile communication terminal control method for searching a communicable mobile communication network, and a service information receiving step (for example, in FIG. 5) for receiving service information. (Corresponding to step S109 or S112) and a search processing step for searching for a frequency based on the service information received in the service information receiving step (for example, step in FIG. 5) Corresponding to S115 or S116). By adopting this method, service information such as roaming-out destination is acquired from the service information providing apparatus, the frequency for performing the search process is limited according to the service information, and the search process is performed only for the optimum frequency in the area. be able to.

  According to the present invention, at the time of roaming out or the like, by limiting the frequencies to be searched based on the acquired service information, it is possible to reduce power consumption and shorten the area return processing.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings referred to in the following description, the same parts as those in the other drawings are denoted by the same reference numerals.
(System configuration)
FIG. 1 is a block diagram illustrating a configuration example of a service information communication system according to the present embodiment. In the figure, the service information communication system according to the present example is within a communication service area by an operator with whom the user (that is, a subscriber) of the mobile communication terminal 1 has contracted, that is, the home mobile communication network (hereinafter referred to as the Home network). ) And a mobile communication network provided in the region of country A (that is, outside the communication service area by the operator with whom the user has a contract).

  The Home network is provided with an HLR (Home Location Register) 6 and a service information providing apparatus 7 that holds a service information database 70. The HLR 6 has a function of managing information related to the position and state of the mobile communication terminal and providing such information when a request is received. Those pieces of information regarding the mobile communication terminal 1 are also stored in the HLR 6. Here, information indicating that the contract for the roaming service is performed is also stored in the HLR 6.

  On the other hand, the mobile communication network provided in the region of Country A has a BTS (Base Transceiver Station) 2 that is a radio base station for forming a mobile communication service area, and an RNC (Radio Network Controller) that controls the BTS. 3) is an interconnection point between SGSN (Serving GPRS Support Node) 4 having a packet routing function in the service area under its control and a packet data network, and other GPRS (General Packet) for gateway function and roaming. GGSN (Gateway GPRS Support Node) 5 having a function of connecting to a Radio Service (Network) network.

  In this example, a service area of frequency “GSM900” and a service area of frequency “WCDMA Band I” are formed for operator a, and a service area of frequency “GSM900” is formed for operator b. BTS2, RNC3, SGSN4, and GGSN5 are provided. However, a part of BTS2, RNC3, SGSN4, and GGSN5 may be shared for different frequencies.

  The mobile communication terminal 1 located in the area formed by the BTS 2 transmits the location registration request to the HLR 6 of the Home network through the BTS 2, the RNC 3, the SGSN 4, and the GGSN 5 in order, and the location registration response thereto Can be received. As will be described later, service information is added to the location registration response in addition to the location registration completion notification or location registration incomplete notification. In countries other than country A (not shown), BTS, RNC, SGSN, and GGSN are similarly provided to provide mobile communication services. Note that “located” means a state in which the location registration is completed within the management area of the radio base station.

(Configuration example of mobile communication terminal)
FIG. 2 is a block diagram showing a functional configuration example of the mobile communication terminal in FIG. In the figure, the mobile communication terminal includes a frequency detection unit 11 that detects a frequency at the time of location registration and at the time of transition to a service area (including the limited service state), and a location registration unit 12 that has a function of transmitting a location registration request. A service information acquisition unit 13 having a function of acquiring service information from the service information providing device, a service information holding unit 14 that holds service information in the current area acquired by the service information acquisition unit 13, and a service Based on the service information held in the information holding unit 14, a search processing unit 15 having a function of performing search processing for a limited frequency, and a location registration response receiving unit that receives service information together with a location registration response to the location registration request 16.
The mobile communication terminal is configured by a CPU, a memory, a user interface such as an input button, a display unit, a wireless communication unit, etc. (all not shown), and these functions operate to realize the above functions. Can do.

(Configuration example of service information providing device)
FIG. 3 is a block diagram showing a functional configuration example of the service information providing apparatus 7 and the HLR 6 in FIG. In the figure, a service information providing device 7 includes a service information database 70 in which service information is held, a network information determination unit 71 that determines in which area the mobile communication terminal is located based on MCC (Mobile Country Code), and , A network information receiving unit 72 for receiving network information such as MCC from the HLR 6, and a service information transmitting unit 73 for transmitting service information to the mobile communication terminal. In response to the request from the HLR 6, the service information providing apparatus 7 transmits the service information held in the service information database 70 to the mobile communication terminal via the HLR 6. Here, the service information is information indicating a frequency, a communication method, roaming availability information, and the like corresponding to a communication service provided outside a communication service area by a contracted communication service provider.

The HLR 6 transmits a location registration request receiving unit 61 that receives a location registration request, transmits a service acquisition request to the service information providing device 7, acquires a service information acquisition unit 62 that acquires service information, and acquired by the service information acquisition unit 62. And a service information notification unit 63 that notifies the mobile communication terminal of the service information.
Note that the service information providing apparatus and the HLR 6 are configured by a CPU, a memory, a communication interface, and the like (all not shown), and by operating these, the above functions can be realized.

(Service information database configuration example)
The service information database 70 is configured as shown in FIG. 4, for example. In other words, referring to the figure, the service information database includes items of “country”, “operator”, “roaming availability”, “communication method”, and “corresponding frequency”.
In “Country A”, there are “Operator a”, “Operator b”, and “Operator c”. For “operator a” and “operator b”, “roaming provision availability” is “permitted”, and a roaming service is provided. For “operator c”, “roaming availability” is “impossible”, and the roaming service is not provided.

“Operator a” uses the communication method “GSM”, the frequency “GSM900 / DCS1800”, the communication method “WCDMA”, and the frequency “Band I”. “Operator b” has a communication method of “GSM” and a frequency of “GSM900”. “Operator c” uses the communication system “GSM” and the frequency “GSM900 / PCS1900”.
In “Country B”, there are “Operator e” and “Operator f”, and “Roaming availability” is “Available”, and a roaming service is provided. “Operator e” has a communication method of “GSM” and a frequency of “GSM900 / DCS1800”. “Operator f” uses the communication method “WCDMA” and the frequency “Band I”.

(Acquisition of service information)
An example of a service information acquisition sequence will be described with reference to FIG. In the figure, the processes of the mobile communication terminal 1, the operator a, the operator b, the HLR 6, and the service information providing device 7 which are mobile communication service providers are shown. In this example, the frequencies that the mobile communication terminal 1 can support are Band I, Band VI, GSM900, DCS1800, and PCS1900. In country A, there are an operator a and an operator b. The operator a supports GSM and WCDMA, and the operator b supports only GSM. In the figure, the processing of the operator a is shown as separate processing for each support frequency and communication method, that is, for each of “WCDMA Band I” and “GSM900”.

In the figure, when the mobile communication terminal 1 is turned on when roaming out (step S101), broadcast information transmitted from the radio base station can be received. Similarly, when moving from a different area into the area, the broadcast information transmitted from the radio base station can be received.
The mobile communication terminal 1 can recognize the roaming operator a (GSM900) from the notification information transmitted from the radio base station (step S102).

  Next, location registration is performed in the mobile communication terminal 1. Specifically, the following processing is performed. That is, a location registration request is transmitted from the mobile communication terminal 1 to the operator a (GSM900) (step S103). The operator a (GSM900) receiving this location registration request transmits the location registration request to the HLR 6 (step S104). This location registration request includes the MCC. The service information acquisition request is transmitted from the HLR 6 that has received the location registration request to the service information providing apparatus 7 (step S105), and the HLR 6 acquires service information as a response (step S106).

  Then, in HLR 6, it is determined whether the operator is a location registerable operator (ie, a roaming providing operator) based on the service information (step S107). As a result of this determination, if the operator is a location registerable operator (ie, a roaming providing operator), service information is added to the location registration completion notification, and the mobile communication terminal 1 passes through the operator a (corresponding frequency is GSM900). (Steps S108 → S109 → S110). When the mobile communication terminal 1 receives this location registration completion notification, the mobile communication terminal 1 can acquire service information. The mobile communication terminal 1 can recognize the frequency required in the area by referring to the acquired service information.

  On the other hand, if it is determined in step S107 that the operator is not a location registerable operator (that is, the operator is not a roaming providing operator), service information is added to the location registration incomplete notification and the operator a (corresponding frequency is GSM900). Is transmitted to the mobile communication terminal 1 (steps S107 → S111 → S112). When the mobile communication terminal 1 receives this location registration incomplete notification, the mobile communication terminal 1 can acquire service information (step S113). The mobile communication terminal 1 can recognize the frequency required in the area by referring to the service information. That is, the mobile communication terminal 1 can recognize that it is in the Limited Service State and can recognize a frequency necessary for the area.

  Thereafter, the mobile communication terminal 1 determines whether or not the own terminal is located in the operator a (corresponding frequency is GSM900) (step S114). As a result of this determination, when the own terminal is located in the operator a (corresponding frequency is GSM900), the mobile communication terminal 1 determines the limited frequency (GSM900, DCS1800, WCDMA Band I based on the acquired service information). ) Only periodically (steps S114 → S115). On the other hand, if the result of the determination in step S114 is that the own terminal is in the Limited Service State, the mobile communication terminal 1 periodically uses only the limited frequency (GSM900, DCS1800, WCDMA Band I) based on the acquired service information. (Step S114 → S116).

In short, the mobile communication terminal 1 is limited to only Band I of GSM900, DCS1800, and WCDMA based on the acquired service information among Band I, Band VI, GSM900, DCS1800, and PCS1900, which are frequencies that the terminal can support. Thus, the search process can be performed, and the search process for the WCDMA Band VI and PCS 1900 can be omitted.
In the service information acquisition sequence example described with reference to FIG. 5, the HLR is configured to transmit a service information acquisition request triggered by the location registration request of the mobile communication terminal. A configuration in which an information acquisition request is directly transmitted may be employed. Which configuration is adopted may be determined based on the functions of the mobile communication network and the HLR. In the latter case, as shown in FIG. 6, the mobile communication terminal 1 needs to include a service information request transmission unit 17 that transmits a service information request for receiving service information.

(Application example)
FIG. 7 is a schematic diagram showing an application example of this system. In this example, the frequencies that can be supported by the mobile communication terminal 1 are WCDMA Band I and Band VI, GSM900, DCS1800, and PCS1900.
FIG. 4A shows a case where the user is roaming out to country A. FIG. FIG. 5B shows service information in country A in this example. Referring to FIG. 5B, the operator a and the operator b in the country A can provide roaming, and the operator c cannot provide roaming. The operator a can provide a service only with the communication system GSM, and the corresponding frequency is “GSM900 / DCS1800”. The operator b can provide services for the communication systems GSM and WCDMA, and the corresponding frequencies are “GSM900” for the former and “Band I” for the latter. The operator c can provide a service only for the communication system GSM, and the corresponding frequency is “GSM900 / DCS1800”.

In the case of this example, the mobile communication terminal 1 only needs to perform frequency search processing for only the GSM900, DCS1800, and WCDMA Band I corresponding to the operators a and b, which are roaming providing operators, in the country A. No search processing is required for Band VI and PCS 1900 for which no frequency is provided among the roaming operators.
FIG. 8 is a schematic diagram showing another application example of the present system. In this example, the frequencies that can be supported by the mobile communication terminal 1 are WCDMA Band I and Band VI, GSM900, DCS1800, and PCS1900.

  FIG. 6A is a diagram showing a case where the user roams out to country B. FIG. FIG. 5B shows service information in country B in this example. Referring to FIG. 5B, the operator a 'and the operator b' in the country B can provide roaming, and the operator c 'cannot provide roaming. The operator a 'can provide a service for the communication system WCDMA, and the corresponding frequencies are "Band I, Band VI, Band IX". The operator b 'can provide a service for the communication system WCDMA, and the corresponding frequency is "Band I". The operator c 'can provide a service for the communication system WCDMA, and the corresponding frequency is "Band I".

  In the case of this example, the mobile communication terminal needs to perform frequency search processing only for “Band I” and “Band VI” corresponding to the operators a ′ and b ′ that are roaming providing operators in the country B. For GSM900, DCS1800, and PCS1900 for which no frequency is provided among the roaming operators of B, search processing is not required. In addition, since the mobile communication terminal 1 does not support “Band IX” of the communication method WCDMA, the search process is not performed in the first place.

(Service information communication method)
In the service information communication system described above, the following service information communication method is adopted. That is, in response to a request from a mobile communication terminal device located outside a communication service area by a contracted communication service provider, service information provision in which information related to the subscriber of the mobile communication terminal device is stored A service information acquisition step (for example, corresponding to steps S103 to S109, S111 and S112 in FIG. 5) for acquiring service information corresponding to a communication service provided outside the communication service area from the device, and the mobile communication A service information communication method including a search processing step (for example, corresponding to steps S115 and S116 in FIG. 5) in which search processing for frequencies by the terminal device is performed only for frequencies limited based on the service information is employed. Yes.
By adopting this method, the service information of the roaming-out destination is acquired from the service information providing apparatus, the frequency for performing the search process is limited according to the service information, and the search process is performed only for the optimum frequency in the area. Can do.

(Mobile communication terminal control method)
In mobile communication terminals that can be used in the service information communication system described above, the following mobile communication terminal control method is employed. That is, a mobile communication terminal control method for searching a mobile communication network capable of communication, which can communicate with a service information reception step (for example, corresponding to step S109 or S112 in FIG. 5) for receiving service information A mobile communication network including a search processing step (for example, corresponding to step S115 or S116 in FIG. 5) for searching for a frequency based on the service information received in the service information receiving step when performing a mobile communication network search. A terminal control method is adopted.
By adopting this method, the service information of the roaming-out destination is acquired from the service information providing apparatus, the frequency for performing the search process is limited according to the service information, and the search process is performed only for the optimum frequency in the area. Can do.

(Modification)
The above has described the case where the mobile communication terminal is in the roaming out state, that is, outside the communication service area by the contracted communication service provider. However, the present invention is not limited to the roaming out state and is located in the Home network. It can be applied even in a state where
In addition, the above describes the case where the service information is acquired at the timing of location registration. However, instead of the timing of location registration, the service information is acquired in advance and stored in the mobile communication terminal, and the search process is performed based on the service information. You may make it perform.

(Summary)
In order to return to the service area in the above-mentioned Limited Service State, a search process is performed for an operator who can be in the service area (position registration is possible). At that time, if the service information providing apparatus notifies the mobile communication terminal of service information indicating the provided service communication method and the corresponding frequency in the area, the mobile communication terminal displays information on the communication method and the corresponding frequency in the area. The frequency band for performing the frequency search process can be temporarily limited.

By limiting the target of periodic frequency search processing when the mobile communication terminal is in the service area and the Limited Service State, it is possible to suppress an increase in power consumption of the mobile communication terminal and a processing load on the terminal.
The range in which the above effect occurs is when the mobile communication terminal is located in a communication service area of any communication service provider or in a limited service state. When it is completely out of service area (outside the communication service area of all communication service providers), it is unclear where it is located, and service information cannot be obtained, so the above processing is difficult. is there.

  The present invention can be applied when reducing the power consumption of a mobile communication terminal and suppressing the processing load of the terminal.

It is a block diagram which shows the structural example of the service information communication system concerning embodiment of this invention. It is a block diagram which shows the function structural example of the mobile communication terminal in FIG. It is a block diagram which shows the function structural example of the service information provision apparatus in FIG. It is a figure which shows the structural example of a service information database. It is a figure which shows the acquisition sequence example of service information. It is a block diagram which shows the other function structural example of a mobile communication terminal. It is a schematic diagram which shows the example of application of a service information communication system. It is a schematic diagram which shows the other example of application of a service information communication system.

Explanation of symbols

1 Mobile communication terminal 2 BTS
3 RNC
4 SGSN
5 GGSN
6 HLR
7 Service Information Providing Device 10 Service Information Database 11 Frequency Detection Unit 12 Location Registration Unit 13 Service Information Acquisition Unit 14 Service Information Holding Unit 15 Search Processing Unit 16 Location Registration Response Reception Unit 17 Service Information Request Transmission Unit 61 Location Registration Request Reception Unit 62 Service information acquisition unit 63 Service information notification unit 70 Service information database 71 Network information determination unit 72 Network information reception unit 73 Service information transmission unit

Claims (6)

  A mobile communication terminal device that performs a search for a communicable mobile communication network, capable of communicating with service information receiving means for receiving service information and service information holding means for holding service information received by the service information receiving means And a search processing means for searching for a frequency based on service information held in the service information holding means when performing a mobile communication network search.   The mobile communication terminal apparatus according to claim 1, further comprising service information request transmitting means for transmitting a service information request for receiving the service information.   The mobile communication terminal apparatus according to claim 1, further comprising: a location registration request transmitting unit that transmits a location registration request; and a response receiving unit that receives the service information together with a location registration response to the location registration request. .   A request receiving means for receiving at least one of a service information request and a location registration request; a transmission means for transmitting a service information acquisition request for acquiring service information when the request is received by the request receiving means; When receiving a service information acquisition request, service information transmitting means for transmitting service information corresponding to the request, service information receiving means for receiving service information transmitted by the service information transmitting means, and the service information receiving And a service information notifying means for notifying service information received by the means. A location registration availability determination unit that determines whether location registration is possible together with the service information when a location registration request is received by the request reception unit;
5. The communication system according to claim 4, wherein the service information notification unit notifies the service information together with a location registration completion notification or a location registration incomplete notification that is a determination result of the location registration availability determination unit.   A mobile communication terminal control method for searching for a communicable mobile communication network, the service information receiving step for receiving service information, and receiving in the service information receiving step when searching for a communicable mobile communication network And a search processing step of searching for a frequency based on the service information.