JP6150920B1 - Portable terminal, control method and control program - Google Patents

Abstract

An object of the present invention is to provide a portable terminal or the like that can suppress waste of time or power consumption related to a search for a base station. A portable terminal according to the present invention is a portable terminal connected to a network via wireless communication with a base station, and includes a first receiver that receives a signal from the base station, and a first frequency band. A search unit having a normal search mode for searching for a base station capable of communicating over a second frequency band, and a special search mode for searching for a base station capable of communicating over a second frequency band narrower than the first frequency band; Control is performed so that the search unit searches for the base station in the special search mode based on the second reception unit that receives the communication condition information regarding the station from the other portable terminal and the communication condition information received by the second reception unit. And a control unit. [Selection] Figure 1

Description

  The present invention relates to a mobile terminal, a control method, and a control program.

  Conventionally, when a mobile terminal establishes wireless communication with a base station and connects to a network, the mobile terminal sequentially searches for a base station corresponding to a frequency band in which the communication module of the mobile terminal can execute wireless communication. It is known. The mobile terminal selects a base station that has transmitted a signal having the strongest reception intensity by executing a search for the base station, and establishes wireless communication with the selected base station. Further, when the mobile terminal is located in a place where radio waves from the base station cannot be received (so-called “out of service area”), the user who owns the mobile terminal can receive radio waves from the base station (so-called “so-called“ Wireless communication between the mobile terminal and the base station can be established.

  For example, Patent Document 1 describes a mobile terminal that searches for a base station in the event of a disaster. When the base station is damaged due to the occurrence of a disaster or the like, the portable terminal operates in a power saving mode in order to suppress power consumption due to a long-time search for the base station. When the mobile terminal operating in the power saving mode repeats the search for the base station for a predetermined time and cannot find the base station within the predetermined time, the mobile terminal does not execute the search for the base station until radio waves are detected by the antenna of the mobile terminal.

JP 2014-36233 A

  However, in the mobile terminal described in Patent Document 1, when radio waves are detected by the antenna of the mobile terminal, the base station is searched over all frequency bands corresponding to the mobile terminal. This search target of the mobile terminal includes a base station that is damaged and cannot be used due to a disaster or the like, and thus time and power consumption for searching the base station of the mobile terminal are wasted.

  The present invention has been made to solve such a conventional problem, and provides a mobile terminal, a control method, and a control program capable of suppressing waste of time or power consumption related to searching for a base station. The purpose is to do.

  A portable terminal according to the present invention is a portable terminal connected to a network via wireless communication with a base station, and communicates over a first frequency band with a first receiver that receives a signal from the base station. A search unit having a normal search mode for searching for a possible base station, a special search mode for searching for a base station capable of communication over a second frequency band narrower than the first frequency band, and communication conditions related to the base station A control unit that controls the search unit to search for a base station in a special search mode based on communication condition information received by the second receiving unit, the second receiving unit that receives information from another mobile terminal; Have

  In the mobile terminal according to the present invention, the communication condition information includes information on a frequency that can be executed by the second base station that establishes wireless communication with another mobile terminal, and the search unit performs communication in the special search mode. It is preferable to search for a base station using frequency information included in the condition information.

  Further, in the mobile terminal according to the present invention, the control unit, when the first receiving unit becomes unable to receive a signal from the predetermined base station after the first receiving unit has established wireless communication with the predetermined base station, When disaster information is received from an external server device or when there is an operation input related to the setting of the special search mode by the user, it is preferable to control the search unit to search for the base station in the special search mode.

  In the mobile terminal according to the present invention, the mobile terminal has a storage unit that stores battery remaining amount information indicating the remaining battery level of the mobile terminal, and the communication condition information includes battery remaining amount information of other mobile terminals, and a search unit If the remaining battery level information stored in the storage unit is less than the remaining battery level information of other portable terminals included in the communication condition information, it is preferable not to execute the search in the normal search mode for a certain period.

  In the mobile terminal according to the present invention, the communication condition information further includes information on a third base station arranged around the second base station, and the search unit is included in the communication condition information in the special search mode. It is preferable to search for a base station using information on the second base station and the third base station.

  Further, in the mobile terminal according to the present invention, when the second receiving unit receives the communication condition information from each of the plurality of other mobile terminals, the second receiving unit measures the intensity of the signal from each of the plurality of other mobile terminals, In the special search mode, the search unit preferably searches for a base station based on communication condition information of another mobile terminal that has transmitted the strongest signal.

  In the mobile terminal according to the present invention, it is preferable that the communication condition information is transmitted at a frequency corresponding to the movement state of the other mobile terminal.

  Further, in the mobile terminal according to the present invention, when wireless communication between the base station selected by the search in the special search mode and the mobile terminal is established, communication condition information regarding the base station established with the mobile terminal, Furthermore, it is preferable to have a transmission part which transmits to another portable terminal.

  In the mobile terminal according to the present invention, the transmission unit further transfers the communication condition information received from the other mobile terminal to the other mobile terminal, and the communication condition information is the mobile terminal that transferred the communication condition information. The search unit preferably includes a hop number based on the number, and the search unit searches for the base station using communication condition information having a hop number equal to or less than a predetermined number in the special search mode.

  A control method according to the present invention is a method for controlling a mobile terminal having a first receiving unit, a second receiving unit, a search unit, and a control unit, which is connected to a network via wireless communication with a base station. 1 receiving unit receives a signal from the base station, the search unit searches for a base station in a normal search mode for searching for a base station capable of communication over the first frequency band, and the second receiving unit Communication condition information related to the base station is received from another portable terminal, and the control unit has a second frequency band narrower than the first frequency band based on the communication condition information received by the second reception unit. Controlling to search for base stations in a special search mode for searching for base stations that can communicate across.

  A control program according to the present invention includes a first receiving unit that receives a signal from a base station, a second receiving unit that receives information from another mobile terminal, a search unit that searches for a base station, and a control unit. A mobile terminal control program for connecting to a network via wireless communication with a station, wherein the search unit searches for a base station in a normal search mode for searching for a base station that can communicate over a first frequency band. The control unit searches for a base station capable of communicating over a second frequency band narrower than the first frequency band based on communication condition information regarding the base station received from another mobile terminal. Control to search for base stations in mode.

  With the mobile terminal, control method, and control program according to the present invention, it is possible to suppress waste of time or power consumption related to searching for a base station.

1 is a schematic diagram for explaining an outline of a communication system 1. FIG. 1 is a diagram illustrating an example of a schematic configuration of a communication system 1. FIG. 2 is a diagram illustrating an example of a schematic configuration of a mobile terminal 2. FIG. It is a figure which shows an example of the data structure of communication condition information. It is a flowchart which shows an example of a mode control process. It is a figure which shows an example of a special search process. It is a figure which shows an example of the data structure of communication condition information. (A) is a schematic diagram for demonstrating the outline of the base station 3 corresponding to neighboring cell ID, (b) is a schematic diagram for demonstrating the outline of the base station 3 corresponding to non-passing cell ID. is there. It is a figure which shows an example of the data structure of communication condition information. It is a figure which shows an example of the schematic diagram for demonstrating the outline of the reception process and transmission process of communication condition information. It is a figure which shows an example of the data structure of communication condition information. It is a schematic diagram for demonstrating the outline of a reception process and transmission process of communication condition information. It is a figure which shows an example of the data structure of communication condition information. It is a schematic diagram for demonstrating the outline of a reception process and transmission process of communication condition information. It is a schematic diagram for demonstrating the outline of the reception process of communication condition information.

  Hereinafter, various embodiments of the present invention will be described with reference to the drawings. However, it should be noted that the technical scope of the present invention is not limited to these embodiments, and extends to the invention described in the claims and equivalents thereof.

(First embodiment)
The communication system 1 includes a plurality of portable terminals 2 that are connected to a network via wireless communication with a base station 3. The mobile terminal 2 is, for example, a multi-function mobile phone called a “smart phone” or a mobile phone called a feature phone, but it may be a device dedicated to data communication. It may be a mold.

  The portable terminal 2 corresponds to a signal over one or more frequency bands. The duplex mode of the frequency band supported by the mobile terminal 2 may be a TDD (Time Division Duplex) mode or an FDD (Frequency Division Duplex) mode. TDD is a method in which the same frequency band is used in one carrier wave, and the frequency band is divided finely on the time axis and communication is performed by switching between transmission processing and reception processing at high speed, and the upstream frequency band and downstream frequency in the TDD mode. The bands are the same frequency band. FDD is a method for performing full-duplex communication by dividing a frequency band used for communication into a transmission frequency band and a reception frequency band, and an upstream frequency band and a downstream frequency band in FDD mode. Are different frequency bands. Note that the frequency band supported by the mobile terminal 2 is an example of a first frequency band. Hereinafter, the outline of the communication system 1 will be described with reference to FIG.

  FIG. 1 is a schematic diagram for explaining the outline of the communication system 1.

(1) Normal search mode Normally, when the mobile terminal 2a is activated, the mobile terminal 2a receives a signal transmitted from the base station 3a, refers to frequency band information included in the received signal, etc. Determine the communication bandwidth to use. And the portable terminal 2a determines the frequency of the signal to be used based on the frequency channel information assigned by the base station 3a, and establishes wireless communication with the base station 3a based on the determined frequency.

  In addition, the mobile terminal 2a determines that the mobile terminal 2a is out of service and reconnects to the base station 3a when each of the reception strengths of signals from one or a plurality of base stations 3a is less than a predetermined level. The base station 3a is searched by the search mode. In the search for the base station 3a in the normal search mode, first, the mobile terminal 2a refers to the connection history so far, and searches for the base station 3a corresponding to the frequency communicated immediately before going out of service, for example. Next, when the mobile terminal 2a cannot search for the base station 3a, the base station 3 (3b, 3c, 3d,...) That can communicate over the entire frequency band of the band to which the mobile terminal 2a corresponds.・) Search. When the mobile terminal 2a can search the base station 3, the mobile terminal 2a determines the frequency of the signal to be used based on the frequency channel information assigned by the base station 3, and based on the determined frequency, Establish wireless communication.

(2) Occurrence of disaster If the communication function of a given base station 3a is damaged due to the occurrence of a disaster such as an earthquake and cannot be used for a long time, the mobile terminal 2a It becomes impossible to receive the signal from the station 3a, and the terminal is out of service. In this case, the mobile terminal 2a searches for the base station 3 in the special search mode without searching for the base station 3 in the normal search mode.

(3) Special Search Mode Hereinafter, the search for the base station 3 in the special search mode will be described. When the portable terminal 2a cannot receive a signal from the predetermined base station 3a with which wireless communication has been established and becomes out of service, the portable terminal 2a transitions to the special search mode.

  Here, when the communication function of a predetermined base station 3a is damaged due to the occurrence of a disaster such as an earthquake, while the communication function of another second base station 3b can be used, wireless communication with the second base station 3b is performed. There is another mobile terminal 2b with which communication has been established. In the special search mode, the other portable terminal 2b directly transmits communication condition information regarding the second base station 3b with which wireless communication is established to the portable terminal 2a. Note that the mobile terminal 2a and the other mobile terminal 2b communicate wirelessly according to a communication method such as Wi-Fi (Wireless Fidelity, registered trademark) or near field wireless communication according to a communication method such as Bluetooth (registered trademark). The communication condition is broadcast directly by mutual beacon or by using a beacon such as Wi-Fi Aware (registered trademark) or Bluetooth (registered trademark). The communication condition information includes cell ID (identification) and frequency information of the second base station 3b with which wireless communication is established. The frequency information is information on a frequency at which wireless communication between the other mobile terminal 2b and the second base station 3b can be performed. The cell is a range in which the mobile terminal 2 or the like can receive a signal from the base station 3.

  When the mobile terminal 2a receives the communication condition information from the other mobile terminal 2b, the mobile terminal 2a searches the base station 3 in a special search mode based on the received communication condition information. In the search of the base station 3 in the special search mode, for example, the mobile terminal 2a searches for the second base station 3b corresponding to the cell ID and frequency information included in the communication condition information. When the mobile terminal 2a can search for the second base station 3b, the mobile terminal 2a establishes wireless communication with the second base station 3b based on the frequency included in the communication condition information. In addition, when the mobile terminal 2a cannot search the second base station 3b, the mobile terminal 2a does not execute the search for a certain period.

  As described above, in the communication system 1, when the mobile terminal 2a cannot receive a signal from the predetermined base station 3a, the mobile terminal 2a performs the second search in the special search mode based on the communication condition information received from the other mobile terminal 2b. Control is performed to search for the base station 3b. Thereby, it is possible to suppress waste of time or power consumption related to the search of the base station 3 of the mobile terminal 2a.

  The description of FIG. 1 described above is merely an explanation for deepening the understanding of the contents of the present invention. Specifically, the present invention may be implemented in various embodiments described below, and may be implemented in various modifications without substantially exceeding the principle of the present invention. All such variations are within the scope of the present disclosure and the specification.

(Schematic configuration of the communication system 1)
FIG. 2 is a diagram illustrating an example of a schematic configuration of the communication system 1.

  The communication system 1 includes a plurality of mobile terminals 2 (2a, 2b,...) Owned by each of a plurality of users. Each of the plurality of portable terminals 2 is connected to a network 6 such as the Internet via a base station 3 (3a, 3b,...), A mobile communication network 4, and a gateway 5, for example. In addition, each of the plurality of mobile terminals 2 can connect to other mobile terminals 2 using a predetermined wireless standard, and directly transmit and receive data between the mobile terminals 2. The predetermined wireless standard is, for example, Wi-Fi (registered trademark), Wi-Fi Aware (registered trademark), Bluetooth (registered trademark), or the like.

(Schematic configuration of the mobile terminal 2)
FIG. 3 is a diagram illustrating an example of a schematic configuration of the mobile terminal 2.

  The portable terminal 2 enables connection to the network 6, search for the base station 3, execution of a predetermined application program, and the like. For this purpose, the mobile terminal 2 includes a first wireless communication unit 21, a second wireless communication unit 22, a terminal storage unit 23, an operation unit 24, a display unit 25, and a terminal processing unit 26.

  The mobile terminal 2 is assumed to be a multi-function mobile phone (so-called “smart phone”), but the present invention is not limited to this. The mobile terminal 2 only needs to be applicable to the present invention. For example, a mobile phone (so-called “feature phone”), a mobile information terminal (Personal Digital Assistant, PDA), a mobile game machine, a mobile music player, a tablet terminal, a tablet A PC, a notebook PC, or the like may be used.

  The first wireless communication unit 21 includes a communication interface circuit including an antenna whose sensitivity band is a predetermined frequency band, and connects the mobile terminal 2 to the network 6 (FIG. 2). The first radio communication unit 21 establishes a radio signal line using the CDMA (Code Division Multiple Access) method or the like with the base station 3 via the channel assigned by the base station 3, and communicates with the base station 3. Communicate. Note that the communication method with the base station 3 is not limited to the CDMA method, and may be another communication method such as a W-CDMA (Wideband Code Division Multiple Access) method or an LTE (Long Term Evolution) method. The communication method with the base station 3 may be another communication method such as PHS (Personal Handy-phone System). Then, the first wireless communication unit 21 supplies the data received from the base station 3 to the terminal processing unit 26. In addition, the first wireless communication unit 21 transmits the data supplied from the terminal processing unit 26 to the base station 3. The first wireless communication unit 21 is an example of a first reception unit.

  The second wireless communication unit 22 includes an interface circuit for performing wireless communication in accordance with a communication method such as Wi-Fi (registered trademark) or Wi-Fi Aware (registered trademark). Direct wireless communication is established by establishing wireless communication between terminals. Note that the interface circuit included in the second wireless communication unit 22 may be short-range wireless communication in accordance with a communication method such as communication using Bluetooth (registered trademark) or 920 MHz band specific low power wireless. The second wireless communication unit 22 is an example of a second receiving unit.

  The terminal storage unit 23 includes, for example, a semiconductor memory. The terminal storage unit 23 stores a driver program, an operating system program, an application program, data, and the like used for processing in the terminal processing unit 26. For example, the terminal storage unit 23 includes a communication device driver program that controls the first wireless communication unit 21, a wireless communication device driver program that controls the second wireless communication unit 22, and an input device driver that controls the operation unit 24 as driver programs. A program, an output device driver program for controlling the display unit 25, and the like are stored. In addition, the terminal storage unit 23 stores, as an operating system program, a connection control program for executing a wireless communication scheme of the IEEE 802.11 standard, a connection control program for a mobile phone, and the like. The terminal storage unit 23 also stores, as application programs, a web browser program that acquires and displays web pages, an e-mail program that transmits and receives e-mails, and the like. The computer program is a terminal storage unit using a known setup program or the like from a computer-readable portable recording medium such as a CD-ROM (compact disk read only memory) or a DVD-ROM (digital versatile disk read only memory). 23 may be installed. Further, the terminal storage unit 23 receives, as data, search mode information indicating that one of the normal search mode and the special search mode is valid, received from another portable terminal 2 and / or stored in another portable terminal 2. The communication condition information to be transmitted, the remaining battery level information indicating the remaining battery level of the mobile terminal 2, and the like are stored.

  The operation unit 24 may be any device as long as the operation of the mobile terminal 2 is possible. For example, the operation unit 24 is a touch panel type input device, a keypad, or the like. The user can input letters, numbers, and the like using this device. When operated by the user, the operation unit 24 generates a signal corresponding to the operation. The generated signal is input to the terminal processing unit 26 as a user instruction.

  The display unit 25 may be any device that can output a moving image, a still image, and the like, and is, for example, a touch panel display device, a liquid crystal display, an organic EL (Electro-Luminescence) display, or the like. The display unit 25 displays a moving image corresponding to the moving image data supplied from the terminal processing unit 26, a still image corresponding to the still image data, and the like.

  The terminal processing unit 26 includes one or a plurality of processors and their peripheral circuits. The terminal processing unit 26 controls the overall operation of the mobile terminal 2 and is, for example, a CPU (Central Processing Unit). The terminal processing unit 26 performs the first wireless communication so that various processes of the mobile terminal 2 are executed in an appropriate procedure according to the program stored in the terminal storage unit 23 and the output from the operation of the operation unit 24. The operations of the unit 21, the second wireless communication unit 22, the display unit 25, and the like are controlled. The terminal processing unit 26 executes processing based on programs (driver program, operating system program, application program, etc.) stored in the terminal storage unit 23. Further, the terminal processing unit 26 can execute a plurality of programs (such as application programs) in parallel.

  The terminal processing unit 26 includes a control unit 261 and a search unit 262. Each of these units included in the terminal processing unit 26 is a functional module implemented by a program executed on a processor included in the terminal processing unit 26. Alternatively, these units included in the terminal processing unit 26 may be mounted on the mobile terminal 2 as independent integrated circuits, microprocessors, or firmware.

(Function of mobile terminal 2)
When the mobile terminal 2a receives the communication condition information from the other mobile terminal 2b, the mobile terminal 2a searches the base station 3 in the special search mode based on the received communication condition information. Hereinafter, the communication function of the portable terminal 2a will be described.

  FIG. 4 is a diagram illustrating an example of a data structure of communication condition information. The communication condition information shown in FIG. 4 includes a terminal ID, an established cell ID, an uplink frequency, a downlink frequency, a band, and the like.

  The terminal ID is terminal identification information for identifying the mobile terminal 2b that has transmitted the communication condition information. The established cell ID is the cell ID of the second base station 3b with which the mobile terminal 2b has established wireless communication. The uplink frequency and the downlink frequency are a frequency used for transmission and a frequency used for reception assigned when the second base station 3b performs wireless communication with the mobile terminal 2b. Hereinafter, the uplink frequency and the downlink frequency may be referred to as establishment frequency information. The band is information on a band corresponding to the second base station 3b with which the mobile terminal 2b has established wireless communication.

  FIG. 5 is a flowchart illustrating an example of mode control processing by the control unit 261 included in the mobile terminal 2a. The mode control process is executed only when search mode information indicating that the normal search mode is valid and the special search mode is invalid is stored in the terminal storage unit 23.

  First, the control unit 261 determines whether disaster information has been received from an external server device via the first wireless communication unit 21 (step S101). The disaster information is information for notifying the occurrence of a disaster that is transmitted from an external server device in response to the occurrence of the disaster, and is, for example, an emergency earthquake bulletin. The external server device is a server device that transmits disaster information such as a mail server of the Japan Meteorological Agency.

  When it determines with having received disaster information from the external server apparatus (step S101-Yes), the control part 261 displays the communication condition information regarding the base station 3a with which communication with the portable terminal 2a is established of the portable terminal 2a. It memorize | stores in the terminal memory | storage part 23 (step S104). Next, the control unit 261 advances the process to step S105 described later after the process of step S104. The communication condition information related to the base station 3a with which communication with the mobile terminal 2a is established includes the terminal ID of the mobile terminal 2a, the established cell ID of the base station 3a, the uplink frequency and the downlink frequency assigned by the base station 3a, In addition, the base station 3a includes a corresponding band.

  When determining that the disaster information has not been received (step S101—No), the control unit 261 determines whether communication condition information has been received from the other portable terminal 2b via the second wireless communication unit 22. (Step S102).

  When it is determined that the communication condition information has been received from the other portable terminal 2b (step S102-Yes), the control unit 261 stores the received communication condition information in the terminal storage unit 23 of the portable terminal 2a (step S104). ), The process proceeds to step S105 described later. In step S104, when communication between the mobile terminal 2a and the base station 3a is established, communication condition information regarding the base station 3a with which communication with the mobile terminal 2a is established is stored in the terminal storage unit of the mobile terminal 2a. 23. Communication condition information related to the base station 3a with which communication with the mobile terminal 2a is established includes the terminal ID of the mobile terminal 2a, the established cell ID of the base station 3a, the uplink and downlink frequencies assigned by the base station 3a, and The base station 3a includes a corresponding band.

  When the control unit 261 determines that the communication condition information has not been received from the other portable terminal 2b (step S102-No), each of the reception strengths of the signals from the one or more base stations 3 is less than a predetermined level. It is determined whether or not there is (out of service area) (step S103). That is, when the signal from the base station 3 can be detected via the first wireless communication unit 21, the control unit 261 determines whether or not the signal reception intensity is less than a predetermined level. In addition, when the signal from the base station 3 cannot be detected via the first wireless communication unit 21, the control unit 261 determines that the signal reception intensity is less than a predetermined level.

  When the control unit 261 determines that the reception intensity of the signal from any of the base stations 3 is equal to or higher than a predetermined level (within a range) (step S103—No), the control unit 261 returns the process to step S101.

  When the control unit 261 determines that each of the reception strengths of signals from one or a plurality of base stations 3 is less than a predetermined level (out of service area) (step S103—Yes), the mode switching button is operated by the user. It is determined whether it has been done (step S105). The mode switching button is a button displayed on the display unit 25 of the mobile terminal 2a, and it is determined whether or not the mode switching button has been selected in response to a user operation input via the operation unit 24. Thus, it becomes possible for the mobile terminal 2a to confirm with the user that the mobile terminal 2a is set to the special search mode by inquiring the user whether or not the operation input of the mode switching button is necessary.

  When the control unit 261 determines that the mode switching button has not been operated by the user (step S105—No), the control unit 261 returns the process to step S101. Note that a predetermined time limit (for example, within one minute) may be provided for the determination of the user's operation input to the mode switching button in step S104. In this case, when the user's operation input to the mode switching button is not performed within a predetermined time (for example, within 1 minute) in step S105, the process is automatically returned to step S101.

  Then, when the control unit 261 determines that the mode switching button has been operated and input by the user (step S105-Yes), the control unit 261 sets the mobile terminal 2a to the special search mode (step S106). That is, the control unit 261 stores the search mode information indicating that the normal search mode is invalid and the special search mode is valid in the terminal storage unit 23, thereby setting the mobile terminal 2a to the special search mode. .

  As described in the mode control process of FIG. 5 described above, the mobile terminal 2a receives disaster information from an external server device, receives communication condition information from another mobile terminal 2b, or the mobile terminal 2a When the mobile terminal 2a is out of the service area, the mobile terminal 2a can be set to the special search mode. Even if the control unit 261 determines in step S103 that each of the signal strengths of the signals from one or a plurality of base stations 3 is greater than or equal to a predetermined value (within a range), the process may proceed to step S105. . Thereby, the portable terminal 2a can change to the special search mode only by the determination of the user who owns the portable terminal 2a.

  FIG. 6 is a diagram illustrating an example of a special search process performed by the search unit 262 included in the mobile terminal 2a. The special search process is a search process of the base station 3 that is executed by the mobile terminal 2a when the mobile terminal 2a is set to the special search mode.

  First, the search unit 262 determines whether or not the communication condition information is stored in the terminal storage unit 23 of the mobile terminal 2a (step S201). When the search unit 262 determines that the communication condition information is stored in the terminal storage unit 23 (step S201—Yes), the search unit 262 advances the process to step S204 described later.

  When the search unit 262 determines that the communication condition information is not stored in the terminal storage unit 23 (No in step S201), the search unit 262 receives the communication condition information from the other portable terminal 2b via the second wireless communication unit 22. It is determined whether or not (step S202).

  When it is determined that the communication condition information has not been received from the other portable terminal 2b (step S202-No), the search unit 262 waits until the communication condition information is received from the other portable terminal 2b.

  If the search unit 262 determines that the communication condition information has been received from the other mobile terminal 2b (step S202-Yes), the search unit 262 stores the received communication condition information in the terminal storage unit 23 of the mobile terminal 2a (step S203). .

  Next, the search unit 262 searches for the second base station 3b in the special search mode based on the information on the established cell ID and the established frequency included in the communication condition information stored in the terminal storage unit 23 (step S204). ). The communication condition information stored in the terminal storage unit 23 is the communication condition information stored in step S104 (FIG. 5) and step S203. The establishment frequency used in the special search mode is an example of a second frequency band that is narrower than the frequency band (first frequency band) to which the mobile terminal 2a corresponds.

  Next, as a result of step S204, the search unit 262 can search the second base station 3b, and determines whether or not the wireless communication with the second base station 3b is established based on the established frequency included in the communication condition information. (Step S205).

  If the search unit 262 cannot search for the second base station 3b and has not established wireless communication with the second base station 3b (step S205—No), the search unit 262 waits for a certain period of time (step S206) and proceeds to step S202. To return.

  When the search unit 262 can search for the second base station 3b and establishes wireless communication with the second base station 3b (Yes in step S205), the search unit 262 creates communication condition information regarding the second base station 3b that has established wireless communication. (Step S207). That is, the search unit 262 includes the terminal ID of the mobile terminal 2a, the established cell ID of the second base station 3b, the uplink and downlink frequencies assigned by the second base station 3b, and the band to which the second base station 3b corresponds. Communication condition information including the above is created.

  Then, the search unit 262 broadcasts the created communication condition information to other portable terminals (2c, 2d,...) Via the second wireless communication unit 22 (step S208), and a series of steps. Exit.

  As described above, when the mobile terminal 2a cannot receive a signal from the base station 3a, the mobile terminal 2a searches the base station 3 in the special search mode based on the communication condition information received from the other mobile terminal 2b. As a result, it is possible to search only the second base station 3b that can communicate without being damaged, and it is possible to suppress waste of time or power consumption related to the search of the base station 3 of the portable terminal 2a.

  Note that the search unit 262 of the mobile terminal 2b is the information on the established cell ID and the established frequency included in the communication condition information stored in the terminal storage unit 23 in the search of the base station 3 in the special search mode in step S204 described above. After searching for the second base station 3b based on the above, the search may be performed over the frequency band of the band corresponding to the mobile terminal 2a other than the established cell ID and the established frequency included in the communication condition information. In this case, in step S205 described above, the search unit 262 cannot search the second base station 3b, and if the wireless communication with the second base station 3b is not established, the search of the second base station 3b that cannot be searched. The cell ID and frequency information may be included in the communication condition information and stored in the terminal storage unit 23. The search unit 262 of the mobile terminal 2a that has received such communication condition information searches for a base station 3 other than the second base station 3b regarding the established cell ID and the established frequency included in the communication condition information in the special search mode. The base station 3 other than the cell ID and frequency of the second base station 3b that could not be searched is searched. As a result, it is possible to execute a search excluding the second base station 3b that could not be searched by another mobile terminal 2b, and it is possible to suppress waste of time or power consumption related to the search.

(Second Embodiment)
FIG. 7 is a diagram illustrating another example of the data structure of the communication condition information. The communication condition information shown in FIG. 7 includes, in addition to the communication condition information shown in FIG.

  The neighboring cell ID is a cell ID of the base station 3 located around the second base station 3b indicated by the established cell ID. The disconnected cell ID is the cell ID of the second base station 3b that could not be searched in a predetermined period (for example, when a disaster occurs or from the time when the special search mode was first started to the current time). Also, the non-transmission frequency, non-transmission frequency, non-transmission band, etc. of the second base station 3b that could not be searched in a predetermined period (for example, from the time of occurrence of a disaster or from the time when the special search mode was first started to the current time) Upstream frequency, downstream frequency, and band.

  FIG. 8A is a schematic diagram for explaining the base station 3 corresponding to the neighboring cell ID.

  When the mobile terminal 2 establishes wireless communication with the base station 3, the mobile terminal 2 uses the peripheral cell ID of the base station 3 that covers the peripheral cell 801 of the cell 800 corresponding to the base station 3 for use in handover or the like. Obtain from station 3. Then, the mobile terminal 2 includes the acquired neighboring cell ID in the communication condition information and stores it in the terminal storage unit 23 of the mobile terminal 2.

  There is a possibility that the base station 3 in the vicinity of the second base station 3b that has established wireless communication with another mobile terminal 2b can also establish wireless communication with the mobile terminal 2. Accordingly, the search unit 262 of the mobile terminal 2 searches for the base station 3 corresponding to the neighboring cell ID together with the established cell ID based on the communication condition information including the neighboring cell ID in the special search mode in step S204 described above. Thereby, the portable terminal 2 can also include the base station 3 (base station 3 arranged around the second base station 3b) that may be able to perform wireless communication with the second base station 3b in the search target, It is possible to suppress the time or power consumption associated with the search. The base station 3 corresponding to the neighboring cell ID is an example of a third base station.

  FIG. 8B is a schematic diagram for explaining the outline of the base station 3 corresponding to the non-transmission cell ID, the non-transmission uplink frequency, the non-transmission downlink frequency, and the non-transmission band.

  When the search unit 262 of the mobile terminal 2 searches the base station 3 in the normal search mode or the special search mode, the established cell ID and the neighboring cell ID of the cell 810 of the second base station 3b with which wireless communication is established Among them, the cell ID of the cell 811 of the base station 3 that could not be searched and has not established wireless communication is included in the communication condition information as a non-communication cell ID and stored in the terminal storage unit 23. Further, the search unit 262 stores the uplink frequency, the downlink frequency, and the band of the second base station 3b that could not be searched in the communication condition information as the non-transmission uplink frequency, the non-transmission downlink frequency, and the non-transmission band, and stores them in the terminal storage unit 23. May be.

  In the special search mode in step S204 described above, the search unit 262 of the mobile terminal 2 uses the non-transmission cell ID, the non-transmission frequency, the non-transmission cell ID, the non-transmission frequency, the non-transmission frequency, and the non-transmission frequency, The base station 3 except the base station 3 corresponding to the non-communication downlink frequency and non-communication band is searched. As a result, the base station 3 that is unlikely to be able to perform wireless communication is excluded from the search target, and it is possible to suppress waste of time or power consumption related to the search.

  Note that the condition for executing the processing for creating the communication condition information in step S207 described above is not limited to the case where the second base station 3b can be searched and wireless communication with the second base station 3b is established. For example, even if the second base station 3b cannot be searched and the wireless communication with the second base station 3b is not established, the search unit 262 can obtain the established cell ID, the information on the established frequency, the band, and the neighboring cell ID. Communication condition information including a non-transmission cell ID, a non-transmission uplink frequency, a non-transmission downlink frequency, a non-transmission band, and the like indicating that the second base station 3b could not be searched may be created. In this case, the process for creating the communication condition information in step S207 and the process for transmitting the communication condition information in step 208 may be periodically executed. Thereby, other portable terminals 2 (2c, 2d,...) Around the portable terminal 2a can periodically receive the communication condition information.

(Third embodiment)
FIG. 9 is a diagram illustrating another example of the data structure of the communication condition information. In addition to the communication condition information shown in FIG. 4, the communication condition information shown in FIG. 9 includes battery remaining information indicating the remaining battery level, search status, and communication status.

  The remaining battery level information is information indicating the remaining battery level of the mobile terminal 2 that has transmitted the communication condition information. The search status indicates whether the mobile terminal 2 that has transmitted the communication condition information is in a search execution status, a search completion status, or a search execution waiting status when the communication condition information is transmitted. Information. The communication status is information indicating whether the mobile terminal 2 that has transmitted the communication condition information is within the range or out of the range when the communication condition information is transmitted.

  FIG. 10 is a diagram illustrating an example of a schematic diagram for explaining the outline of the reception process and the transmission process of the communication condition information.

  In the portable terminals 2a, 2b, and 2c shown in FIG. 10, the remaining battery level of the portable terminal 2a is larger than that of the other portable terminals 2b and 2c. In this case, the mobile terminals 2b and 2c leave the search for the base station 3 to the mobile terminal 2a for a certain period of time, and use the communication condition information transmitted from the mobile terminal 2a after the lapse of the fixed period, in the special search mode. Search for.

  The search unit 262 of the mobile terminal 2 includes the mobile terminal 2 in which the remaining battery level included in the communication condition information is indicated by the remaining battery level information stored in the terminal storage unit 23 in the special search mode in step S204 described above. It is determined whether there is more than the remaining battery level.

  Since the mobile terminal 2a shown in FIG. 10 has more battery power than the other mobile terminals 2b and 2c, the search unit 262 of the mobile terminal 2a uses the information on the established cell ID and the establishment frequency included in the communication condition information. Based on this, the base station 3 is searched. If the search unit 262 of the mobile terminal 2a cannot search the base station 3, the search unit 262 searches over the frequency band of the band corresponding to the mobile terminal 2a other than the established cell ID and the established frequency included in the communication condition information. I do. It should be noted that the search unit 262 of the mobile terminal 2a, during execution of the search, the search status indicating the status of the search being executed, the communication status, and the search result (established cell ID, probability frequency information, neighboring cell ID, non-access cell ID) Communication condition information including a non-communication uplink frequency, a non-communication downlink frequency, a non-communication band, etc.) is periodically transmitted to the mobile terminals 2b and 2c. When the mobile terminal 2a completes the search, the mobile terminal 2a searches for the status of the search and the search result (established cell ID, probability frequency information, neighboring cell ID, disconnected cell ID, disconnected frequency, The communication condition information including the non-communication downlink frequency and the non-communication band) is transmitted to the portable terminals 2b and 2c.

  Since the mobile terminals 2b and 2c shown in FIG. 10 have less battery power than the mobile terminal 2a, the search unit 262 of the mobile terminals 2b and 2c does not execute step S204 described above for a certain period. That is, the search unit 262 of the mobile terminals 2b and 2c receives a search status and search results (established cell ID, probability frequency information, neighboring cell ID, non-permitted cell ID) indicating the status of completion of the search from the mobile terminal 2a. Step S204 described above is not executed until communication condition information including a non-transmission frequency, a non-transmission frequency, and a non-transmission band is received. Then, the search unit 262 of the mobile terminals 2b and 2c searches the base station 3 in the special search mode based on the communication condition information received from the mobile terminal 2a.

  Note that the search unit 262 of the mobile terminals 2b and 2c starts executing the above-described step S204 when the communication status included in the communication condition information periodically transmitted from the mobile terminal 2a becomes out of service during the search execution. May be. As a result, when the mobile terminal 2a is out of the service area and the subsequent search becomes impossible, the base station search of the mobile terminals 2b and 2c can be executed.

(Fourth embodiment)
FIG. 11 is a diagram illustrating another example of the data structure of the communication condition information. The communication condition information shown in FIG. 11 includes hop number information indicating the number of hops in addition to the communication condition information shown in FIG. The hop number information is information indicating the hop number based on the transfer number of the communication condition information when the communication condition information received from the other portable terminal 2 is further transferred to the other portable terminal 2.

  FIG. 12 is a schematic diagram for explaining the outline of reception processing and transmission processing of communication condition information. The terminal processing units 26 of the mobile terminals 2b-1, 2b-2, 2b-3, and 2b-4 shown in FIG. 12 each have a transmission unit 263. When the transmission unit 263 of the mobile terminal 2b-1 illustrated in FIG. 12 transmits the communication condition information to the other mobile terminal 2b-2, the transmission unit 263 of the other mobile terminal 2b-2 The communication condition information received from is further transferred to another portable terminal 2b-3. In this case, the transmission unit 263 increments (increases) the hop number information included in the communication condition information by 1 before transmission (transfer), and further transmits (transfers) the communication condition information to the next portable terminal 2. To do. When the mobile terminal 2a shown in FIG. 12 receives the communication condition information of the mobile terminal 2b-1 transmitted first, 4 is stored in the hop number information included in the communication condition information.

  The search unit 262 of the mobile terminal 2a performs the base operation based on the communication condition information only when the number of hops indicated by the hop number information included in the communication condition information is equal to or less than a predetermined number in the special search mode in step S204 described above. Search for station 3. As a result, the base station 3 related to communication condition information with a large number of transfers can be excluded from search targets, and waste of time or power consumption related to the search can be suppressed.

(Fifth embodiment)
FIG. 13 is a diagram illustrating another example of the data structure of the communication condition information. The communication condition information shown in FIG. 13 includes the terminal status in addition to the communication condition information shown in FIG. The terminal status is information indicating the movement state of one of the mobile terminal 2 that has transmitted the communication condition information and is moving or stationary.

  FIG. 14 is a schematic diagram for explaining an outline of reception processing and transmission processing of communication condition information. When the terminal status is moving, the control unit 261 of the mobile terminal 2a further sets the transmission frequency of the communication condition information to the other mobile terminal 2c to be higher than the predetermined frequency. As a result, when the cell of the base station 3 is changed with the movement of the mobile terminal 2a, it is possible to accurately transmit information on the new base station 3 to the other mobile terminal 2c.

  In addition, when the terminal status is stationary, the control unit 261 of the mobile terminal 2a further transmits the communication condition information to the other mobile terminal 2c in response to reception of the communication condition information from the other mobile terminal 2b. To change. For example, when the terminal status is stationary and the communication condition information is received from the other portable terminal 2b, the control unit 261 of the portable terminal 2a further determines the transmission frequency of the communication condition information to the other portable terminal 2c. Set lower than the predetermined frequency. Further, when the terminal status is stationary and the communication condition information is not received from the other portable terminal 2b, the control unit 261 of the portable terminal 2a further sets the transmission frequency of the communication condition information to the other portable terminal 2c. Set higher than the predetermined frequency. Thereby, it becomes possible to suppress the power consumption of the portable terminal 2a.

(Sixth embodiment)
FIG. 15 is a schematic diagram for explaining an outline of a reception process of communication condition information. The mobile terminal 2a is a communication condition of the other mobile terminal 2b that has transmitted a signal having a high signal strength received from the other mobile terminals 2b and 2c among the communication condition information transmitted by the other mobile terminals 2b and 2c. Based on the information, the base station 3 is searched in the special search mode.

  In this case, first, the mobile terminal 2 a receives the communication condition information transmitted from the other mobile terminals 2 b and 2 c via the second wireless communication unit 22. Next, the second wireless communication unit 22 included in the mobile terminal 2a measures the signal strength of the communication condition information when receiving the communication condition information transmitted from the other mobile terminals 2b and 2c. Next, the search unit 262 of the mobile terminal 2a determines the strongest signal among the measured signal strengths, and specifies the mobile terminal 2b that has transmitted the determined signal. Then, the search unit 262 searches the base station 3 based on the communication condition information transmitted by the specified mobile terminal 2b.

  As a result, communication condition information from the mobile terminal 2b located closest to the mobile terminal 2a can be determined and used in the special search mode, thereby suppressing waste of time or power consumption related to the search for the base station. It becomes possible.

  Note that the communication condition information may be all or part of various types of information included in the communication condition information illustrated in FIGS. 4, 7, 9, 11, and 13. In this case, the search unit 262 executes a search process corresponding to various information included in the communication condition information to be used in the search of the base station 3 in the special search mode.

  It should be understood by those skilled in the art that various changes, substitutions, and modifications can be made thereto without departing from the spirit and scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Communication system 2, 2a, 2b Portable terminal 21 1st radio | wireless communication part 22 2nd radio | wireless communication part 23 Terminal memory | storage part 24 Operation part 25 Display part 26 Terminal process part 261 Control part 262 Search part 263 Transmitter part 3, 3a, 3b Base station 4 Mobile communication network 5 Gateway 6 Network

Claims (11)

A mobile terminal connected to a network via wireless communication with a base station,
A first receiver for receiving a signal from the base station;
A normal search mode for searching for a base station that can communicate over a first frequency band; and a special search mode for searching for a base station that can communicate over a second frequency band narrower than the first frequency band. Having a search part;
A second receiving unit that receives communication condition information regarding the base station from another mobile terminal;
A control unit that controls the search unit to search for a base station in the special search mode based on communication condition information received by the second receiving unit;
Mobile terminal having. The communication condition information includes information on a frequency that can be executed by the second base station that establishes wireless communication with the other mobile terminal,
The mobile terminal according to claim 1, wherein the search unit searches for a base station using the frequency information included in the communication condition information in the special search mode.   When the first receiving unit cannot receive a signal from the predetermined base station after the first receiving unit establishes wireless communication with the predetermined base station, the control unit receives a disaster from an external server device. The mobile phone according to claim 2, wherein when the information is received or when there is an operation input related to setting of the special search mode by a user, the search unit controls to search for a base station in the special search mode. Terminal. A storage unit for storing battery remaining amount information indicating a remaining battery amount of the mobile terminal;
The communication condition information includes battery remaining amount information of the other portable terminal,
The search unit does not execute the search in the normal search mode for a certain period unless the remaining battery level information stored in the storage unit is less than the remaining battery level information of the other mobile terminal included in the communication condition information. The mobile terminal according to claim 3. The communication condition information further includes information of a third base station arranged around the second base station,
The search unit according to any one of claims 2 to 4, wherein, in the special search mode, the search unit searches for a base station using information on the second base station and the third base station included in the communication condition information. The portable terminal described. The second receiving unit, when receiving the communication condition information from each of a plurality of other mobile terminals, measures the intensity of the signal from each of the plurality of other mobile terminals,
The said search part searches a base station based on the said communication condition information of the other portable terminal which transmitted the strongest signal in the said special search mode. Mobile device.   The mobile terminal according to any one of claims 1 to 6, wherein the communication condition information is transmitted at a frequency according to a movement state of the other mobile terminal.   When wireless communication between the base station selected by the search in the special search mode and the mobile terminal is established, communication condition information related to the base station established with the mobile terminal is further transmitted to another mobile terminal. The portable terminal as described in any one of Claims 1-7 which has a transmission part to perform. The transmission unit further transfers the communication condition information received from the other mobile terminal to another mobile terminal,
The communication condition information includes the number of hops based on the number of portable terminals that transferred the communication condition information,
The mobile terminal according to claim 8, wherein the search unit searches for a base station using the communication condition information having a predetermined number of hops or less in the special search mode. A control method of a mobile terminal having a first receiving unit, a second receiving unit, a search unit, and a control unit, connected to a network via wireless communication with a base station,
The first receiver receives a signal from a base station;
The search unit searches for a base station in a normal search mode for searching for a base station capable of communicating over a first frequency band,
The second receiving unit receives communication condition information related to the base station from another mobile terminal,
A special search in which the search unit searches for a base station that can communicate over a second frequency band narrower than the first frequency band, based on communication condition information received by the second receiving unit. Control to search for base stations in mode,
A control method comprising: A first receiving unit that receives a signal from the base station, a second receiving unit that receives information from another mobile terminal, a search unit that searches for a base station, and a control unit, and through wireless communication with the base station A mobile terminal control program connected to the network,
The search unit searches for a base station in a normal search mode for searching for a base station capable of communicating over a first frequency band,
Based on the communication condition information related to the base station received from the other mobile terminal, the control unit is configured to select a base station capable of communicating over a second frequency band narrower than the first frequency band. Control to search base station in special search mode to search,
A control program that makes things happen.

Images