JP2016178689A - Mobile terminal device, control method, and control program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress power consumption.SOLUTION: A mobile terminal device (101) detects that the display state of a screen (110) made a transition from non-display to display. When it detects that the display state of the screen (110) made a transition from non-display to display, the mobile terminal device (101) starts scan operation of an access point (102). When the access point (102) of the same access point identification information is continuously searched a prescribed number of times N, the mobile terminal device (101) stops scan operation of the access point (102). When movement of a self device is detected as a result of scan operation stop of the access point (102), the mobile terminal device (101) resumes scan operation of the access point (102).SELECTED DRAWING: Figure 1

Description

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

  2. Description of the Related Art Conventionally, there is a mobile terminal device having a communication function for connecting to a wireless LAN (Local Area Network). For example, the mobile terminal device can be connected to a network such as the Internet via a wireless LAN access point installed in various places.

  As a related prior art, for example, a search interval control server determines a search interval of a reference radio signal transmitted from an access point based on base station identification information and base station position information received from a radio terminal There is. There is also a technique in which a mobile phone terminal reads a profile name corresponding to position information from a public wireless base station WLAN profile related table, sets the WLAN profile as a scan profile, and scans the WLAN profile when out of the WLAN range.

  Further, there is a technique in which a computer device confirms connection by actually trying to connect to a hidden access point that has not transmitted identification information. Further, a technique for performing handover when the wireless communication apparatus determines that the number of base stations to which the wireless communication apparatus can belong is plural, and stopping handover when determining that the number of base stations to which the wireless communication apparatus can belong is singular. There is. There are also techniques for providing location aware Wi-Fi access for portable devices.

JP 2008-289026 A JP 2009-201104 A JP 2004-140778 A JP 2011-049787 A Special table 2011-521549 gazette

  However, according to the conventional technology, there is a problem that the power consumption of the mobile terminal device increases due to the scanning operation of the mobile terminal device that searches for an access point such as a wireless LAN serving as a base for connecting to the network.

  In one aspect, an object of the present invention is to provide a mobile terminal device, a control method, and a control program that can suppress power consumption.

  According to one aspect of the present invention, the movement of the mobile terminal device is detected, the transition from the non-display state in which the screen is not displayed to the display state in which the screen is displayed is detected, and the network identification information is accessed. An access point that has been searched from connection history information including network identification information for identifying a network to which a communication unit that connects to a network via a point is connected and whose access point identification information does not connect to the communication unit. It is determined whether or not the screen is searched from connection non-target information in which access point identification information to be identified and network identification information for identifying a network corresponding to an access point that does not connect to the communication unit are associated with each other. When it is detected that the display state has changed to the display state, an access point is connected to the communication unit. Network identification information for identifying a network corresponding to the access point searched by the communication unit does not exist in the connection history information, and access point identification information of the access point searched by the communication unit is A mobile terminal device, a control method, and a control program that stop searching for an access point by the communication unit when it is determined that the connection non-target information exists are proposed.

  According to another aspect of the present invention, access point identification information for identifying an access point connected to the network and an access point connected to the network is connected to the network via the access point. When searching for an access point connected to the first network by holding neighboring access point information including a plurality of entries associated with neighboring access point identification information for identifying neighboring access points existing in the vicinity of the first network A mobile terminal device that determines whether an entry including neighboring access point identification information associated with access point identification information has been searched from the neighboring access point information, and controls an access point search cycle based on the determined result, control Method and control program are proposed .

  According to one embodiment of the present invention, there is an effect that power consumption can be suppressed.

FIG. 1 is an explanatory diagram of an example of the control method according to the first embodiment. FIG. 2 is an explanatory diagram illustrating a system configuration example of the communication system 200. FIG. 3 is a block diagram illustrating a hardware configuration example of the mobile terminal device 101. FIG. 4 is an explanatory diagram showing an example of the contents stored in the connection AP table 400. FIG. 5 is an explanatory diagram showing an example of the stored contents of the connection non-target AP table 500. FIG. 6 is an explanatory diagram showing an example of the stored contents of the first management table 600. FIG. 7 is a block diagram of a functional configuration example of the mobile terminal apparatus 101 according to the first embodiment. FIG. 8 is an explanatory diagram of a first operation example of the mobile terminal apparatus 101 according to the first embodiment. FIG. 9 is an explanatory diagram illustrating a first transition example of the stored contents of the connection non-target AP table 500. FIG. 10 is an explanatory diagram of a second operation example of the mobile terminal apparatus 101 according to the first embodiment. FIG. 11 is an explanatory diagram illustrating a second transition example of the stored contents of the connection non-target AP table 500. FIG. 12 is an explanatory diagram of a third operation example of the mobile terminal apparatus 101 according to the first embodiment. FIG. 13 is an explanatory diagram illustrating a third transition example of the stored contents of the connection non-target AP table 500. FIG. 14 is an explanatory diagram showing an example of the stored contents of the scan result table 1400. FIG. 15 is an explanatory diagram showing a transition example of the stored contents of the first management table 600. FIG. 16 is an explanatory diagram (part 1) of a first control processing example of the mobile terminal apparatus 101 according to the first embodiment. FIG. 17 is an explanatory diagram (part 2) of the first control processing example of the mobile terminal apparatus 101 according to the first embodiment. FIG. 18 is an explanatory diagram of a second control process example of the mobile terminal apparatus 101 according to the first embodiment. FIG. 19 is an explanatory diagram of a third control process example of the mobile terminal apparatus 101 according to the first embodiment. FIG. 20 is a flowchart (part 1) illustrating an example of a first control processing procedure of the mobile terminal apparatus 101 according to the first embodiment. FIG. 21 is a flowchart (part 2) illustrating an example of a first control processing procedure of the mobile terminal apparatus 101 according to the first embodiment. FIG. 22 is a flowchart (part 3) of an example of a first control processing procedure of the mobile terminal apparatus 101 according to the first embodiment. FIG. 23 is a flowchart illustrating an example of a specific processing procedure of the first management table update process. FIG. 24 is a flowchart of an example of a connection non-target AP table update process procedure of the mobile terminal device 101 according to the first embodiment. FIG. 25 is an explanatory diagram of an example of the contents stored in the second management table 2500. FIG. 26 is an explanatory diagram of a fourth operation example of the mobile terminal apparatus 101 according to the first embodiment. FIG. 27 is an explanatory diagram (part 1) of a fourth control processing example of the mobile terminal apparatus 101 according to the first embodiment. FIG. 28 is an explanatory diagram (part 2) of the fourth control processing example of the mobile terminal apparatus 101 according to the first embodiment. FIG. 29 is a flowchart (No. 1) illustrating an example of a second control processing procedure of the mobile terminal device 101 according to the first embodiment. FIG. 30 is a flowchart (part 2) illustrating an example of a second control processing procedure of the mobile terminal apparatus 101 according to the first embodiment. FIG. 31 is a flowchart (part 3) illustrating an example of a second control processing procedure of the mobile terminal apparatus 101 according to the first embodiment. FIG. 32 is a flowchart illustrating an example of a specific processing procedure of the second management table update process. FIG. 33 is an explanatory diagram of an example of the control method according to the second embodiment. FIG. 34 is an explanatory diagram showing an example of the contents stored in the neighborhood AP table 3400. FIG. 35 is a block diagram of a functional configuration example of the mobile terminal apparatus 101 according to the second embodiment. FIG. 36 is an explanatory diagram of an example of control processing of the mobile terminal device 101 according to the second embodiment. FIG. 37 is an explanatory diagram of a first registration example of BSSIDs of neighboring APs. FIG. 38 is an explanatory diagram of a second registration example of BSSIDs of neighboring APs. FIG. 39 is an explanatory diagram of an example of registration processing of the mobile terminal device 101 according to the second embodiment. FIG. 40 is a flowchart of an example of a control processing procedure of the mobile terminal apparatus 101 according to the second embodiment. FIG. 41 is a flowchart of an example of a first registration process procedure of the mobile terminal apparatus 101 according to the second embodiment. FIG. 42 is a flowchart of an example of a second registration process procedure of the mobile terminal apparatus 101 according to the second embodiment. FIG. 43 is an explanatory diagram of an example of the control method according to the third embodiment. FIG. 44 is a block diagram of a functional configuration example of the mobile terminal apparatus 101 according to the third embodiment. FIG. 45 is an explanatory diagram of a control process example of the mobile terminal device 101 according to the third embodiment. FIG. 46 is a flowchart of an example of a control processing procedure of the mobile terminal apparatus 101 according to the third embodiment. FIG. 47 is an explanatory diagram of an example of the contents stored in the connection performance table 4700. FIG. 48 is a block diagram of a functional configuration example of the mobile terminal apparatus 101 according to the fourth embodiment. FIG. 49 is an explanatory diagram of a first control processing example of the mobile terminal apparatus 101 according to the fourth embodiment. FIG. 50 is an explanatory diagram of a second control process example of the mobile terminal apparatus 101 according to the fourth embodiment. FIG. 51 is a flowchart of an example of a determination process procedure of the mobile terminal apparatus 101 according to the fourth embodiment. FIG. 52 is a flowchart of an example of a control processing procedure of the mobile terminal apparatus 101 according to the fourth embodiment. FIG. 53 is an explanatory diagram of an example of the contents stored in the neighborhood AP table 5300. FIG. 54 is a flowchart of an example of a registration process procedure of the mobile terminal apparatus 101 according to the fourth embodiment.

  Exemplary embodiments of a mobile terminal device, a control method, and a control program according to the present invention will be explained below in detail with reference to the accompanying drawings.

(Embodiment 1)
FIG. 1 is an explanatory diagram of an example of the control method according to the first embodiment. In FIG. 1, a mobile terminal device 101 is a computer that has a screen 110 for displaying various types of information and is capable of wireless communication with an access point 102 (access points 102-1 and 102-2 in the example of FIG. 1). Specifically, for example, the mobile terminal device 101 is a smartphone, a mobile phone, a tablet PC (Personal Computer), a PHS (Personal Handy-phone System), or the like.

  The access point 102 can wirelessly communicate with the mobile terminal apparatus 101 existing in the communication area 103 (communication areas 103-1 and 103-2 in the example of FIG. 1). For example, the mobile terminal apparatus 101 is connected to the network. It is a radio station that serves as a base for this purpose. Specifically, for example, the access points 102 are, for example, wireless LAN access points scattered in various places.

  The mobile terminal apparatus 101 can perform a scanning operation for searching for an access point 102 capable of wireless communication, and can connect to the network via the searched access point 102. Examples of the network include a mobile communication network, a LAN, a WAN (Wide Area Network), and the Internet.

  Some access points 102 can be used only by users who have subscribed to a specific service, for example. For this reason, the mobile terminal apparatus 101 connects to the network via the access point 102 that can be used by the user of the mobile terminal apparatus 101 among the searched access points 102.

  Here, when there is no available access point 102 around the mobile terminal apparatus 101, it is not desirable in terms of power that the mobile terminal apparatus 101 performs the scanning operation of the access point 102. In addition, when using the access point 102, it is conceivable that the user instructs the start of the scanning operation of the access point 102. However, it is necessary for the user to input an operation, and the installation position of the available access point 102 is determined. The user may not know.

  Therefore, in the first embodiment, the mobile terminal apparatus 101 stops the scanning operation when it searches for the same access point 102 a predetermined number of times or for a predetermined time continuously as a result of periodically performing the scanning operation of the access point 102. When the user's walking is detected, the scanning operation is resumed. As a result, the connectivity to the available access point 102 is ensured to prevent usability from being impaired, and the power consumption for the scanning operation of the access point 102 is suppressed.

  Hereinafter, an operation example of the mobile terminal apparatus 101 according to the first embodiment will be described.

  (1) The mobile terminal apparatus 101 detects a transition from a non-display state where the screen 110 is not displayed to a display state where the screen 110 is displayed. Here, the non-display state (screen OFF) is, for example, a state where power supply to the screen 110 is stopped. The display state (screen ON) is a state in which power is supplied to the screen 110, for example.

  In the following description, the non-display state where the screen 110 is not displayed is referred to as “the display state of the screen 110 is not displayed”, and the display state where the screen 110 is displayed is referred to as “the display state of the screen 110 is displayed”. There is a case.

  (2) When the mobile terminal apparatus 101 detects that the display state of the screen 110 has changed from non-display to display, the mobile terminal apparatus 101 starts a scanning operation of the access point 102. When the access point 102 is searched, the mobile terminal apparatus 101 searches the connection history information 120 for network identification information for identifying the searched access point 102, and whether the network identification information is searched for from the connection history information 120. Determine.

  Here, the connection history information 120 is information for specifying the network identification information of the access point 102 connected to a network such as the Internet, that is, the available access point 102. The network identification information is, for example, an ESSID (Extended Service Set Identifier) of the access point 102.

  The same network identification information may be assigned to a plurality of access points 102. As an example of the access point 102 to which the same network identification information is given, for example, a set of access points having the same available communication service, or an access point installed in each of a plurality of stores operated by a company There is a set. Therefore, even if the user of the mobile terminal apparatus 101 has never used the searched access point 102, network identification information for identifying the searched access point 102 is searched from the connection history information 120. There is.

  When the network identification information is retrieved from the connection history information 120, the mobile terminal device 101 performs a connection operation to the searched access point 102. The connection operation to the access point 102 is a connection process for connecting to a network such as the Internet via the access point 102. As a result, the mobile terminal device 101 can be connected to a network such as the Internet via the access point 102. For example, when the connection to the access point 102 is completed, the mobile terminal apparatus 101 ends the scanning operation of the access point 102.

  On the other hand, when the access point 102 is not searched or the network identification information is not searched from the connection history information 120, the mobile terminal apparatus 101 repeats the scanning operation of the access point 102. In the example of FIG. 1, the scanning operation is repeated at time intervals of 10 [s (seconds)], 20 [s], 60 [s], and 150 [s].

  (3) The mobile terminal apparatus 101 stops the scanning operation of the access point 102 when the access point 102 having the same access point identification information is searched for a predetermined number N consecutive times. Here, the access point identification information is identification information for uniquely identifying the access point 102, and is, for example, a BSSID (Basic Service Set Identifier) of the access point 102.

  Further, the predetermined number N can be arbitrarily set. The predetermined number N is set, for example, to a value that can be determined that the user of the mobile terminal device 101 is not moving when the access point 102 having the same access point identification information is searched N times consecutively. Specifically, for example, the predetermined number N is set based on the time interval of the scanning operation for searching for the access point 102, the communication range of the access point 102, the average speed when the user of the mobile terminal device 101 walks, and the like. The

  However, even when the mobile terminal apparatus 101 is located within the communication area of the access point 102, the mobile terminal apparatus 101 may not be able to search for the access point 102 by a single scanning operation. For this reason, the predetermined number N may be set to at least two times.

  In the example of FIG. 1, it is assumed that “N = 5” is set as the predetermined number N, and that the access point identification information of the access point 102-1 has been searched for five times in succession. In this case, the mobile terminal apparatus 101 stops the scanning operation of the access point 102.

  (4) If the mobile terminal apparatus 101 detects the movement of its own device as a result of stopping the scanning operation of the access point 102, the mobile terminal apparatus 101 resumes the scanning operation of the access point 102. When the mobile terminal apparatus 101 moves, that is, when the user of the mobile terminal apparatus 101 moves, a new access point 102 capable of wireless communication with the mobile terminal apparatus 101 may appear. For this reason, the mobile terminal apparatus 101 restarts the scanning operation of the access point 102 when detecting the movement of the own apparatus.

  In the example of FIG. 1, it is assumed that the user of the mobile terminal apparatus 101 has moved from the communication area 103-1 of the access point 102-1 to the communication area 103-2 of the access point 102-2. In this case, the mobile terminal device 101 detects the movement of its own device and restarts the scanning operation of the access point 102. As a result, the mobile terminal apparatus 101 can search for a new access point 102-2 that has become capable of wireless communication when the user moves.

  Thus, according to the mobile terminal apparatus 101, when the display state of the screen 110 transitions from non-display to display, the scanning operation of the access point 102 can be started. Thereby, it is possible to search for available access points 102 existing around the mobile terminal apparatus 101 when the screen is turned on.

  Further, according to the mobile terminal apparatus 101, when the access point 102 having the same access point identification information is searched for a predetermined number N consecutive times, the scanning operation of the access point 102 can be stopped. That is, according to the mobile terminal device 101, when it can be determined that the user of the mobile terminal device 101 is not moving in a state of being disconnected from the access point 102, the scanning operation of the access point 102 can be stopped. .

  As a result, even when the scanning operation of the access point 102 is continued, the scanning operation of the access point 102 is stopped in a situation where the possibility of connecting to the access point 102 is low, and the power consumption for the scanning operation of the access point 102 is suppressed. can do.

  Further, according to the mobile terminal apparatus 101, when the movement of the own apparatus is detected as a result of stopping the scanning operation of the access point 102, the scanning operation of the access point 102 can be resumed. As a result, when the user of the mobile terminal apparatus 101 moves, the stopped scanning operation can be resumed, and connectivity to the available access point 102 can be ensured to prevent usability from being impaired.

  In the above description, the network identification information has been described as an example of the identification information of the available access points 102 stored in the connection history information 120. However, the present invention is not limited to this. For example, the connection history information 120 may store access point identification information of available access points 102. In this case, in the above (2), the mobile terminal apparatus 101 searches the connection history information 120 for the access point identification information of the searched access point 102 and determines whether the access point identification information is searched from the connection history information 120. To do.

  In (3) above, the mobile terminal apparatus 101 decides to stop the scanning operation of the access point 102 when the access point 102 having the same access point identification information is searched for a predetermined number N consecutive times. Not limited to this. For example, the mobile terminal apparatus 101 may stop the scanning operation of the access point 102 when the access point 102 having the same network identification information is searched for a predetermined N times consecutively.

(System configuration example of communication system 200)
A system configuration example of the communication system 200 according to the first embodiment will be described. In the following description, as an example of the access point 102 (see FIG. 1), a wireless LAN access point will be described as an example.

  FIG. 2 is an explanatory diagram illustrating a system configuration example of the communication system 200. In FIG. 2, the communication system 200 includes a mobile terminal device 101, base stations BS1 to BSm, access points AP1 to APn, and a server 201. In the communication system 200, base stations BS1 to BSm, access points AP1 to APn, and a server 201 are connected via a network 210. The network 210 includes, for example, a mobile communication network, LAN, WAN, and the Internet.

  Here, base stations BS1 to BSm are base stations of mobile communication networks (mobile phone networks) scattered in various places. In the following description, an arbitrary base station among the base stations BS1 to BSm may be referred to as “base station BSj” and a communication area representing a communicable range of the base station BSj may be referred to as “cell Cj” ( j = 1, 2,..., m).

  The access points AP1 to APn are wireless LAN base stations scattered in various places. Among the access points AP1 to APn, an access point (for example, Hotspot 2.0) that automatically establishes a connection with the mobile terminal device 101 without manually performing registration procedures and authentication procedures for available access points. A corresponding access point) may be included. Further, the access points AP1 to APn may include a portable access point or an access point installed on a moving body such as a train or a bus.

  In the following description, an arbitrary access point among the access points AP1 to APn may be referred to as “access point APi”, and a communication area indicating a communicable range of the access point APi may be referred to as “communication area Ri”. (I = 1, 2,..., N). The access point 102 shown in FIG. 1 corresponds to the access point APi.

  The mobile terminal apparatus 101 can wirelessly communicate with the base station BSj in the cell Cj, and can be connected to the network 210 via the base station BSj. The mobile terminal apparatus 101 can wirelessly communicate with the access point APi in the communication area Ri, and can be connected to the network 210 via the access point APi.

  The server 201 is a computer that provides a service to the mobile terminal device 101 via the network 210. The service is information processing provided to the mobile terminal apparatus 101, and examples thereof include a mail service, a telephone service, and a web service. Specifically, for example, the server 201 includes a mail server, a web server, an application server, a database server, and the like.

  In FIG. 2, only one mobile terminal apparatus 101 and one server 201 are shown, but the present invention is not limited to this. For example, the mobile terminal device 101 may be provided for each user who uses the communication system 200, and the server 201 may be provided for each service provider.

(Example of hardware configuration of mobile terminal apparatus 101)
FIG. 3 is a block diagram illustrating a hardware configuration example of the mobile terminal device 101. In FIG. 3, a mobile terminal device 101 includes a CPU (Central Processing Unit) 301, a memory 302, a display 303, a keypad 304, a public network I / F (Interface) 305, and a WLAN (Wireless LAN) I /. F306, an audio signal processing unit 307, a speaker 308, a microphone 309, and a sensor 310 are included. Each component is connected by a bus 300.

  Here, the CPU 301 governs overall control of the mobile terminal device 101. The memory 302 includes, for example, a ROM (Read Only Memory), a RAM (Random Access Memory), and a flash ROM. Specifically, for example, the flash ROM stores an OS (Operating System) program, the ROM stores an application program, and the RAM is used as a work area of the CPU 301. The program stored in the memory 302 is loaded into the CPU 301, thereby causing the CPU 301 to execute the coded process.

  The display 303 displays data such as a document, an image, and function information as well as a cursor, an icon, or a tool box. As the display 303, for example, a liquid crystal display, an organic EL (Electroluminescence) display, or the like can be adopted. Note that the screen 110 illustrated in FIG. 1 corresponds to the display 303.

  The keypad 304 includes keys for inputting characters, numbers, various instructions, and the like, and inputs data. The keypad 304 may be, for example, a touch panel type input pad, a numeric keypad, or a power key.

  The public network I / F 305 is connected to the network 210 via the base station BSj of the mobile communication network, and is connected to another computer (for example, the server 201) via the network 210. The public network I / F 305 controls an internal interface with the network 210 and controls input / output of data from other computers.

  The WLAN I / F 306 is connected to the network 210 via a wireless LAN access point APi, and is connected to another computer via the network 210. The WLAN I / F 306 controls an internal interface with the network 210 and controls input / output of data from other computers.

  The audio signal processing unit 307 is connected to the speaker 308 and the microphone 309. For example, sound received by the microphone 309 is A / D converted by the sound signal processing unit 307. In addition, sound is output from the speaker 308.

  The sensor 310 detects the movement of the mobile terminal device 101. The sensor 310 is realized by, for example, an acceleration sensor and a pedometer. Specifically, for example, the sensor 310 may detect the user's walking when detecting that the user of the mobile terminal device 101 has moved a certain number of steps (for example, 8 steps) or more.

  Although illustration is omitted, the mobile terminal device 101 includes, for example, a memory controller that controls reading / writing of data with respect to the memory 302 and a PMU (Power Management) that supplies a power supply voltage to each component. A unit, a battery, various timers, a GPS (Global Positioning System) unit, and the like. The hardware configurations of the base station BSj, access point APi, and server 201 are realized by, for example, a CPU, memory, I / F, auxiliary storage device, bus, and the like.

(Storage contents of connection AP table 400)
Next, the connection AP table 400 used by the mobile terminal apparatus 101 will be described. The connection AP table 400 is realized by, for example, the memory 302 illustrated in FIG. The connection history information 120 illustrated in FIG. 1 corresponds to the connection AP table 400.

  FIG. 4 is an explanatory diagram showing an example of the contents stored in the connection AP table 400. In FIG. 4, the connection AP table 400 stores the ESSID of the access point APi connected to the network 210 from the mobile terminal device 101. The mobile terminal apparatus 101 can identify the ESSID of the access point APi that can be used by the user of the mobile terminal apparatus 101, for example, ESSID-A, ESSID-B, by referring to the connection AP table 400.

  Note that the stored content of the connection AP table 400 is updated, for example, at the first connection to the access point APi. Specifically, for example, the ESSID of the connected access point APi is newly registered in the connected AP table 400 at the first connection to the access point APi by a user operation input.

(Storage contents of connection non-target AP table 500)
Next, the connection non-target AP table 500 used by the mobile terminal device 101 will be described. The connection non-target AP table 500 is realized by the memory 302, for example.

  FIG. 5 is an explanatory diagram showing an example of the stored contents of the connection non-target AP table 500. In FIG. 5, the connection non-target AP table 500 has fields of ESSID, BSSID, and registration time. By setting information in each field, connection non-target information (for example, connection non-target information 500-1, 500-2) is stored as a record.

  Here, in the ESSID field, the ESSID of the access point APi not connected to the mobile terminal apparatus 101 is set. In the BSSID field, the BSSID of the access point APi not connected to the mobile terminal apparatus 101 is set. In the registration time field, time information indicating the time when the connection non-target information is registered is set.

  For example, according to the connection non-target information 500-1, the mobile terminal apparatus 101 determines that the ESSID “ESSID-F”, BSSID “BSSID-F1”, and registration time of the connection non-target access point APi to which the mobile terminal apparatus 101 is not connected. “2012/09/24 11:00” can be specified.

  Note that the maximum number of records may be set in the connection non-target AP table 500. For example, when the number of records in the connection non-target AP table 500 reaches the maximum number of records, the mobile terminal apparatus 101 may delete the oldest record in the connection non-target AP table 500. Thereby, the usage amount of the memory 302 can be suppressed.

  In the following description, a connection non-target access point APi to which the mobile terminal apparatus 101 identified from the connection non-target AP table 500 is not connected may be referred to as “connection non-target AP”.

(Storage contents of the first management table 600)
Next, the first management table 600 used by the mobile terminal device 101 will be described. The first management table 600 is realized by the memory 302, for example.

  FIG. 6 is an explanatory diagram showing an example of the stored contents of the first management table 600. In FIG. 6, the first management table 600 has BSSID and search count fields, and stores search count information as a record by setting information in each field. Specifically, the search number information is information that represents the BSSID of the access point APi searched by the scanning operation of the mobile terminal apparatus 101 and the search number of times that the access point APi was continuously searched for in association with each other. .

  Although not shown, the first management table 600 stores the ESSID of the access point APi in association with the BSSID of the access point APi.

(Functional configuration example of mobile terminal apparatus 101)
FIG. 7 is a block diagram of a functional configuration example of the mobile terminal apparatus 101 according to the first embodiment. In FIG. 7, the mobile terminal device 101 includes a display state detection unit 701, a movement detection unit 702, a communication unit 703, and a communication control unit 704. Specifically, each functional unit, for example, causes the CPU 301 to execute a program stored in the memory 302 illustrated in FIG. 3, or hardware such as the public network I / F 305, the WLAN I / F 306, and the sensor 310. The function is realized by hardware. The processing result of each functional unit is stored in the memory 302, for example.

  The display state detection unit 701 has a function of detecting that the display state of the display 303 (see FIG. 3) has changed from non-display to display. Specifically, for example, when the display state detection unit 701 switches the display state of the display 303 from non-display to display by a user operation input using the keypad 304 (power key), the display 303 Detect that the display state has changed from non-display to display.

  More specifically, for example, when the display state detection unit 701 resumes the work from a state immediately before the display state of the display 303 is hidden by the resume function, the display state of the display 303 is changed from non-display to display. You may decide to detect having changed. Further, for example, when an application such as an alarm that is activated at a predetermined time is activated, the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display. Also good.

  The display state detection unit 701 has a function of detecting that the display state of the display 303 has changed from display to non-display. Specifically, for example, when the display state of the display 303 is switched from display to non-display by the user's operation input using the keypad 304, the display state detection unit 701 displays the display state of the display 303. Detect that transition from to non-display.

  Further, for example, the display state detection unit 701 may detect that the display state of the display 303 has changed from display to non-display when the screen OFF timer reaches a specified value. The screen OFF timer is a timer that measures the time until the display state of the display 303 transitions from display to non-display. Further, for example, when the display state detection unit 701 suppresses power supply to the display 303 and shifts to the power saving mode, the display state detection unit 701 may detect that the display state of the display 303 has changed from display to non-display. Good.

  The movement detection unit 702 has a function of detecting movement of the mobile terminal apparatus 101. Specifically, for example, the movement detection unit 702 detects the walking of the user of the mobile terminal device 101 based on the detection result of the sensor 310 illustrated in FIG. More specifically, for example, the movement detection unit 702 may detect the movement of the mobile terminal device 101 when the sensor 310 detects a user's walk. Further, the movement detection unit 702 may detect movement of the mobile terminal device 101 from position information acquired by a GPS unit (not shown), for example.

  The communication unit 703 has a function of communicating with the access point APi. Specifically, for example, the communication unit 703 connects to the network 210 via an available access point.

  The communication control unit 704 has a function of controlling a scan operation for searching for an access point APi by the communication unit 703. Specifically, for example, when the display state detection unit 701 detects that the display state transitions from non-display to display, the communication control unit 704 controls the communication unit 703 to search for the access point APi. A periodic scanning operation may be started.

  The period T when performing the periodic scanning operation is, for example, arbitrarily set in advance, and may or may not be constant. In the following description, it is assumed that the cycle T becomes longer in the order of “cycle T 1 → cycle T 2 →... → cycle TP” (P is a natural number of 2 or more). In addition, an arbitrary period among the periods T1 to TP may be expressed as “period Tp” (p = 1, 2,..., P).

  Here, the scan operation includes, for example, an active scan and a passive scan. The active scan is a scan operation for searching for an access point APi by transmitting a probe request signal to each channel used in the wireless LAN and receiving a probe response signal. As a wireless LAN channel used for active scanning, for example, there are 13 channels in the 2.4 [GHz] frequency band of IEEE (The Institute of Electrical and Electronics Engineers, Inc.) 802.11.

  The passive scan is a scan operation for searching for the access point APi by receiving a signal (packet) called a beacon from the access point APi. Wireless LAN channels used for passive scanning include, for example, IEEE 802.11 W52 (type) 4 channels, W53 (type) 4 channels, and W56 (type) 11 channels.

  Further, the communication control unit 704 controls the communication unit 703 to search for an access point APi having a received signal strength (RSSI strength: Received Signal Strength Indication) of a signal received from the access point APi of a predetermined strength S or more. May be. The signal received from the access point APi is, for example, a probe response signal or a beacon. As the predetermined strength S, for example, a value of about −80 [dbm] is set.

  As a scanning operation for searching for the access point APi, the communication control unit 704 may control the communication unit 703 to perform both active scan and passive scan, and either active scan or passive scan. You may decide to do either. When performing both active scan and passive scan, for example, the communication control unit 704 controls the communication unit 703 to perform active scan, and then performs passive scan.

  In the following description, the access point APi searched as a result of the scanning operation may be referred to as “search AP”.

  Further, the communication control unit 704 stops the scanning operation of the access point APi when the ESSID of the search AP does not exist in the connection AP table 400 and the BSSID of the search AP exists in the connection non-target AP table 500. Have That is, the communication control unit 704 stops the scanning operation for searching for the access point APi if the search AP is not an available access point and is a connection non-target AP.

  Specifically, for example, the communication control unit 704 searches the connection AP table 400 for the ESSID of the search AP, and determines whether the ESSID of the search AP has been searched. Further, the communication control unit 704 searches the connection non-target AP table 500 for the BSSID of the search AP, and determines whether the BSSID of the search AP has been searched. Then, the communication control unit 704 stops the scanning operation of the access point APi based on the determined determination result. Note that the ESSID and BSSID of the search AP are included in the scan result notified from the communication unit 703 to the communication control unit 704 as a result of the scan operation, for example.

  Further, the communication control unit 704 has a function of holding search number information in which the BSSID of the search AP is associated with the search number of times the communication unit 703 has searched the search AP. Specifically, for example, the communication control unit 704 registers the BSSID of the search AP in the first management table 600 (see FIG. 6) in association with the number of searches for the search AP continuously searched. An example of management for managing the number of searches in which search APs are continuously searched using the first management table 600 will be described later with reference to FIGS. 14 and 15.

  Further, the communication control unit 704 has a function of registering the BSSID of the search count information in the connection non-target AP table 500 in accordance with the search count associated with the BSSID of the search count information. Specifically, for example, the communication control unit 704 refers to the first management table 600 and registers a BSSID whose number of searches is a predetermined number N or more in the connection non-target AP table 500. Accordingly, it is possible to stop the scanning operation in a situation where it is unlikely that the access point APi can be connected, and to suppress the power consumption required for the scanning operation for searching for the access point APi.

  More specifically, for example, the communication control unit 704 registers a BSSID in which the number of searches is a predetermined number N or more in the connection non-target AP table 500 in association with the ESSID corresponding to the BSSID and the registration time. May be. The registration time is time information representing the registration time of the BSSID in the connection non-target AP table 500.

  In this case, when the ESSID of the search AP does not exist in the connection AP table 400 and the BSSID of the search AP exists in the connection non-target AP table 500, the communication control unit 704 associates with the BSSID of the search AP. The difference between the registration time and the current time may be calculated. If the difference between the calculated registration time and the current time is within a predetermined range, the communication control unit 704 may stop the scanning operation of the access point APi.

  On the other hand, the communication control unit 704 may continue the scan operation of the access point APi if the difference between the calculated registration time and the current time is outside the predetermined range. As a result, assuming that a new access point is installed around the connection non-target AP, the scanning operation of the access point APi can be continued even around the connection non-target AP. The predetermined range is set to about several weeks or several months, for example.

  Note that the communication control unit 704 may delete the corresponding record from the connection non-target AP table 500 if the difference between the calculated registration time and the current time is outside the predetermined range. Thereby, the usage amount of the memory 302 that stores the connection non-target AP table 500 can be suppressed.

  Further, the communication control unit 704 continues the scanning operation of the access point APi when the ESSID of the search AP exists in the connection AP table 400 and the BSSID of the search AP exists in the connection non-target AP table 500. May be. That is, the communication control unit 704 continues the scanning operation of the access point APi if the search AP is an available access point even if the search AP is an access point searched continuously N times or more.

  Further, the communication control unit 704 may control a scanning operation for searching for an access point APi by the communication unit 703 in response to detection of movement of the mobile terminal device 101 by the movement detection unit 702. Specifically, for example, when the movement of the mobile terminal apparatus 101 is detected, the communication control unit 704 may start a scanning operation for searching for the access point APi. As a result, when the user of the mobile terminal apparatus 101 moves, the stopped scanning operation can be resumed, and connectivity to an available access point can be ensured.

  Further, the communication control unit 704 changes the period T when the communication unit 703 starts a periodic scanning operation for searching for the access point APi in response to the movement detection unit 702 detecting the movement of the mobile terminal device 101. May be. Specifically, for example, the communication control unit 704 causes the periodic scan operation to be performed at a longer time interval than the scan operation started in response to the detection of the transition from non-display to display by the display state detection unit 701. It may be.

  Further, the communication control unit 704 stops the search for the access point APi whose RSSI strength is equal to or greater than the predetermined strength S, and then detects that the display state has transitioned from non-display to display when the RSSI strength is less than the predetermined strength S. You may make it search for access point APi more than a certain predetermined intensity | strength S '. Thereby, the range for searching for the access point APi is widened, and the range for stopping the scanning operation for searching for the access point APi can be expanded.

  In addition, when the display state detection unit 701 detects that the display state transitions from display to non-display, the communication control unit 704 controls the communication unit 703 to search for an access point APi. May be stopped. Specifically, for example, the communication control unit 704 may stop the periodic scanning operation after a certain time has elapsed since the display state transitioned from display to non-display.

(Operation example of mobile terminal apparatus 101)
Next, an operation example of the mobile terminal apparatus 101 will be described with reference to FIG. 8, FIG. 10, and FIG. Here, a situation is assumed in which the user of the mobile terminal apparatus 101 moves between “station” and “company”. In FIG. 8, FIG. 10, and FIG. 12, the dotted line circle represents the communication area of each access point APi, and the code corresponding to the dotted line circle represents the BSSID of each access point APi. Further, the predetermined number of times N to be compared with the number of searches for the access point APi is “N = 5”.

<First operation example>
FIG. 8 is an explanatory diagram of a first operation example of the mobile terminal apparatus 101 according to the first embodiment. (8-1) When the display state of the display 303 transitions from non-display to display, the mobile terminal apparatus 101 starts a periodic scan operation for searching for the access point APi. In the example of FIG. 8, as a result of the scanning operation being repeated with a period T of 10 [s], 20 [s], 60 [s], and 150 [s], the access point of the BSSID “BSSID-F1” is continuous five times. Being explored with.

  (8-2) The mobile terminal apparatus 101 stops the scanning operation of the access point APi because the access point with the BSSID “BSSID-F1” has been searched for five times in succession. Note that the BSSID “BSSID-F1” of the access point searched five times in succession is registered in the connection non-target AP table 500 (see FIG. 9 described later).

  (8-3) When detecting the movement of the mobile terminal device 101, the mobile terminal device 101 starts a periodic scanning operation for searching for the access point APi. In the example of FIG. 8, as a result of the scanning operation being repeated at a period T of 150 [s], the access point of BSSID “BSSID-E1” has been searched for five times in succession.

  (8-4) The mobile terminal apparatus 101 stops the scanning operation of the access point APi because the access point with the BSSID “BSSID-E1” has been searched for five times in succession. Note that the BSSID “BSSID-E1” of the access point searched five times in succession is registered in the connection non-target AP table 500 (see FIG. 9 described later).

  In (8-1) above, the mobile terminal apparatus 101 stops the scanning operation when, for example, the BSSID of the search AP searched first is registered in the connection non-target AP table 500.

  That is, when the BSSID of the search AP first searched after the screen is ON matches the BSSID of the search AP searched immediately before the screen is ON, it can be determined that the mobile terminal device 101 is not moving. Stops the scanning operation. Note that the BSSID of the search AP searched immediately before the screen is turned on is stored in the memory 302, for example.

  Here, a transition example of the storage contents of the connection non-target AP table 500 that changes in accordance with the first operation example of the mobile terminal device 101 described above will be described.

  FIG. 9 is an explanatory diagram illustrating a first transition example of the stored contents of the connection non-target AP table 500. Here, it is assumed that the stored content of the connection non-target AP table 500 is empty.

  First, as shown in (8-2) of FIG. 8, when the access point of BSSID “BSSID-F1” is searched five times in succession, connection non-target information 900-1 is registered (in FIG. 9). (See (9-1)). The connection non-target information 900-1 is information in which the ESSID “ESSID-F”, the BSSID “BSSID-F1”, and the registration time “201209241100” of the search AP searched continuously five times are associated with each other.

  Further, as shown in (8-4) of FIG. 8, when the access point of BSSID “BSSID-E1” is searched five times in succession, connection non-target information 900-2 is registered (in FIG. 9). (See (9-2)). The connection non-target information 900-2 is information in which the ESSID “ESSID-E”, the BSSID “BSSID-E1”, and the registration time “201209241130” of the search AP searched continuously five times are associated with each other.

<Second operation example>
FIG. 10 is an explanatory diagram of a second operation example of the mobile terminal apparatus 101 according to the first embodiment. (10-1) When the display state of the display 303 transitions from non-display to display, the mobile terminal apparatus 101 starts a periodic scan operation for searching for the access point APi. In the example of FIG. 10, as a result of repeating the scanning operation, the access point of BSSID “BSSID-F1” is searched for five times in succession.

  (10-2) The mobile terminal apparatus 101 stops the scanning operation of the access point APi because the access point with the BSSID “BSSID-F1” has been searched for five times in succession. Note that the BSSID “BSSID-F1” of the access point searched five times in succession is registered in the connection non-target AP table 500 (see FIG. 11 described later).

  (10-3) When detecting the movement of the mobile terminal device 101, the mobile terminal device 101 starts a periodic scanning operation for searching for the access point APi. In the example of FIG. 10, as a result of repeated scanning operations, an access point with BSSID “BSSID-E1” is searched for twice in succession, and then an access point with BSSID “BSSID-D1” is searched for five times in succession. Yes.

  (10-4) The mobile terminal apparatus 101 stops the scanning operation of the access point APi because the access point with the BSSID “BSSID-D1” has been searched for five times in succession. Note that the BSSID “BSSID-D1” of the access point searched five times in succession is registered in the connection non-target AP table 500 (see FIG. 11 described later).

  Here, a transition example of the storage contents of the connection non-target AP table 500 that changes according to the second operation example of the mobile terminal device 101 described above will be described.

  FIG. 11 is an explanatory diagram illustrating a second transition example of the stored contents of the connection non-target AP table 500. Here, it is assumed that the stored content of the connection non-target AP table 500 is empty.

  First, as shown in (10-2) of FIG. 10, when the access point of BSSID “BSSID-F1” is searched five times in succession, connection non-target information 1100-1 is registered (in FIG. 11). (Refer to (11-1)). The connection non-target information 1100-1 is information indicating the ESSID “ESSID-F”, the BSSID “BSSID-F1”, and the registration time “201209241100” of the search AP searched five times in succession.

  Next, as shown in (10-4) of FIG. 10, when the access point of BSSID “BSSID-D1” is searched for five times in succession, connection non-target information 1100-2 is registered (FIG. 11). (Refer to (11-2)). The connection non-target information 1100-2 is information in which the ESSID “ESSID-D”, the BSSID “BSSID-D1”, and the registration time “201209241140” of the search AP searched continuously five times are associated with each other.

<Third operation example>
FIG. 12 is an explanatory diagram of a third operation example of the mobile terminal apparatus 101 according to the first embodiment. (12-1) When the display state of the display 303 transitions from non-display to display, the mobile terminal apparatus 101 starts a periodic scan operation for searching for the access point APi. In the example of FIG. 12, as a result of repeating the scanning operation, the access point of BSSID “BSSID-F1” is searched for five times in succession.

  (12-2) The mobile terminal apparatus 101 stops the scanning operation of the access point APi because the access point with the BSSID “BSSID-F1” has been searched for five times in succession. Note that the BSSID “BSSID-F1” of the access point searched five times in succession is registered in the connection non-target AP table 500 (see FIG. 13 described later).

  (12-3) When detecting the movement of the mobile terminal device 101, the mobile terminal device 101 starts a periodic scanning operation for searching for the access point APi. In the example of FIG. 12, as a result of repeating the scanning operation, the access point of BSSID “BSSID-F2” has been searched for five times in succession.

  (12-4) The mobile terminal apparatus 101 stops the scanning operation of the access point APi because the access point with the BSSID “BSSID-F2” has been searched for five times in succession. Note that the BSSID “BSSID-F2” of the access point searched five times in succession is registered in the connection non-target AP table 500 (see FIG. 13 described later).

  Here, it is assumed that the display state of the display 303 transitions from display to non-display after (12-4) (“screen OFF” in FIG. 12).

  (12-5) When the display state of the display 303 transitions from non-display to display, the mobile terminal apparatus 101 starts a periodic scan operation for searching for the access point APi. In the example of FIG. 12, as a result of starting the periodic scanning operation, the access point of BSSID “BSSID-F1” is searched first.

  (12-6) The mobile terminal apparatus 101 stops the scanning operation of the access point APi because the BSSID “BSSID-F1” of the search AP is registered in the connection non-target AP table 500.

  Here, it is assumed that after (12-6) above, the display state of the display 303 transitions from display to non-display, and then the display state of the display 303 transitions from non-display to display. Thereafter, as a result of starting a periodic scanning operation for searching for an access point APi, an access point of BSSID “BSSID-F1” registered in the connection non-target AP table 500 is searched, and scanning of the access point APi is performed. Assume that the operation is stopped.

  (12-7) When the mobile terminal apparatus 101 detects the movement of its own apparatus, the mobile terminal apparatus 101 starts a periodic scanning operation for searching for the access point APi. In the example of FIG. 12, as a result of repeating the scanning operation, the access point of BSSID “BSSID-F3” has been searched for five times in succession.

  (12-8) The mobile terminal apparatus 101 stops the scan operation of the access point APi because the access point of the BSSID “BSSID-F3” has been searched for five times in succession. Note that the BSSID “BSSID-F3” of the access point searched five times in succession is registered in the connection non-target AP table 500 (see FIG. 13 described later).

  Here, a transition example of the stored contents of the connection non-target AP table 500 that changes in accordance with the above-described third operation example of the mobile terminal device 101 will be described.

  FIG. 13 is an explanatory diagram illustrating a third transition example of the stored contents of the connection non-target AP table 500. Here, it is assumed that the stored content of the connection non-target AP table 500 is empty.

  First, as shown in (12-2) of FIG. 12, when the access point of BSSID “BSSID-F1” is searched five times in succession, connection non-target information 1300-1 is registered (in FIG. 13). (Refer to (13-1)). The connection non-target information 1300-1 is information in which the ESSID “ESSID-F”, the BSSID “BSSID-F1”, and the registration time “201209241100” of the search AP searched continuously five times are associated with each other.

  Also, as shown in (12-4) of FIG. 12, when the access point of BSSID “BSSID-F2” is searched for five times in succession, connection non-target information 1300-2 is registered (in FIG. 13). (Refer to (13-2)). The connection non-target information 1300-2 is information in which the ESSID “ESSID-F”, the BSSID “BSSID-F2”, and the registration time “201209241130” of the search AP searched continuously five times are associated with each other.

  Also, as shown in (12-8) of FIG. 12, when the access point of BSSID “BSSID-F3” is searched for five times in succession, connection non-target information 1300-3 is registered (in FIG. 13). (See (13-3)). The connection non-target information 1300-3 is information in which the ESSID “ESSID-F”, the BSSID “BSSID-F3”, and the registration time “201209241140” of the search AP searched continuously five times are associated with each other.

(Example of search frequency management)
Next, a management example for managing the number of searches in which search APs are continuously searched using the first management table 600 shown in FIG. 6 will be described. First, the scan result table 1400 that stores the scan results will be described. The scan result table 1400 is realized by, for example, the memory 302 illustrated in FIG.

  FIG. 14 is an explanatory diagram showing an example of the stored contents of the scan result table 1400. In FIG. 14, the scan result table 1400 has fields of the number of times and BSSID, and scan results (for example, scan results 1400-1 to 1400-5) obtained as a result of the scan operation of the access point APi are used as records. Remember.

  Here, in the number field, the number of times for specifying the scan result obtained by the number of scan operations is set. In the BSSID field, BSSIDs of search APs are set in descending order of RSSI strength. Taking scan result 1400-5 as an example, BSSIDs of search APs searched by the first scan operation are shown in descending order of RSSI intensity. Although not shown, the scan result table 1400 stores the ESSID of each search AP in association with the BSSID of each search AP.

  Hereinafter, an example of managing the number of searches based on the stored contents of the scan result table 1400 shown in FIG. 14 will be described with reference to FIG.

  FIG. 15 is an explanatory diagram showing a transition example of the stored contents of the first management table 600. In (15-1) of FIG. 15, when the mobile terminal apparatus 101 acquires the scan result 1400-5 (see FIG. 14), the BSSID specified from the scan result 1400-5 is set in the BSSID field, and the number of times of search is set. Set “1” in the field.

  In (15-2) of FIG. 15, when the mobile terminal apparatus 101 obtains the scan result 1400-4 (see FIG. 14), an unconfigured BSSID among the BSSIDs identified from the scan result 1400-4 is displayed in the BSSID field. And “1” is set in the search count field.

  In addition, the mobile terminal apparatus 101 increments the number of searches corresponding to the set BSSID among the BSSIDs identified from the scan result 1400-4. For example, the number of searches corresponding to the set BSSID “BSSID-F1” among the BSSIDs identified from the scan result 1400-4 is incremented.

  Also, the mobile terminal apparatus 101 deletes the record of the set BSSID that is not included in the BSSID specified from the scan result 1400-4. For example, the record of the set BSSID “BSSID-G1” not included in the BSSID specified from the scan result 1400-4 is deleted.

  Thereafter, similarly, in (15-3), (15-4), and (15-5) in FIG. 15, the mobile terminal apparatus 101 scans 1400-3, 1400-2, and 1400-1 (see FIG. 14). Are sequentially obtained, and the same processing as in (15-2) above is sequentially performed.

  As a result, the number of searches corresponding to the BSSID “BSSID-F1” in the first management table 600 is “5”. In this case, the scanning operation of the access point APi is stopped, and the BSSID “BSSID-F1” is registered in the connection non-target AP table 500 (where N = 5).

(Control processing example of mobile terminal apparatus 101)
Next, an example of control processing of the mobile terminal apparatus 101 according to the first embodiment will be described with reference to FIGS. In the following description, some of the control processes of the mobile terminal apparatus 101 may be omitted. Further, the predetermined number of times N to be compared with the number of searches for the access point APi is “N = 5”.

<First Control Processing Example>
FIGS. 16 and 17 are explanatory diagrams illustrating a first control processing example of the mobile terminal apparatus 101 according to the first embodiment. In FIG. 16, (16-1) the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display. Here, it is detected that the display state of the display 303 has changed from non-display to display as a result of the display state of the display 303 being switched from non-display to display by a user operation input.

  (16-2) When the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display, the display state detection unit 701 notifies the communication control unit 704 of a screen ON notification. The screen ON notification is a notification indicating that the display state of the display 303 has changed from non-display to display.

  (16-3) When receiving the screen ON notification, the communication control unit 704 controls the communication unit 703 to start a scanning operation for searching for the access point APi (first time). In the example of FIG. 16, as a result of the scanning operation, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F2” are searched.

  Further, the communication control unit 704 reads the connection AP table 400 and determines whether or not the ESSID included in the scan result from the communication unit 703 is registered in the connection AP table 400. Here, when the ESSID is registered, the communication control unit 704 controls the communication unit 703 to perform connection processing to the search AP. On the other hand, when the ESSID is not registered, the communication control unit 704 does not perform the connection process to the search AP.

  Further, the communication control unit 704 determines whether or not the searched search AP is an access point that automatically establishes a connection with the mobile terminal device 101. Here, in the case of an access point that automatically establishes a connection with the mobile terminal apparatus 101, the communication control unit 704 controls the communication unit 703 to perform a connection process to the search AP.

  On the other hand, if the access point is not an access point that automatically establishes connection with the mobile terminal apparatus 101, the communication control unit 704 does not perform connection processing to the search AP. Here, it is assumed that the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an access point that automatically establishes a connection with the mobile terminal apparatus 101. In this case, connection processing to the search AP is not performed.

  In the following description, an access point that automatically establishes a connection with the mobile terminal apparatus 101 may be referred to as “automatic connection AP”.

  (16-4) The communication control unit 704 updates the stored contents of the first management table 600. Here, BSSID “BSSID-F1” and search count “1” are registered in association with each other. Also, BSSID “BSSID-F2” and the number of searches “1” are registered in association with each other.

  (16-5) The communication control unit 704 reads the connection non-target AP table 500 and determines whether the BSSID of the search AP is registered in the connection non-target AP table 500. Here, when the BSSID of the search AP is registered, the communication control unit 704 stops the scanning operation of the access point APi.

  On the other hand, when the BSSID of the search AP is not registered, the communication control unit 704 continues the scan operation for the access point APi. Here, since the BSSIDs “BSSID-F1” and “BSSID-F2” of the search AP are not registered in the connection non-target AP table 500, the scanning operation of the access point APi is continued.

  (16-6) When the period T has elapsed since the start of the previous scan operation, the communication control unit 704 controls the communication unit 703 to start the scan operation for searching for the access point APi (second time). . Here, as a result of the scanning operation, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F2” are searched. Further, since the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an automatic connection AP, the connection process to the search AP is not performed.

  (16-7) When the period T has elapsed since the start of the previous scan operation, the communication control unit 704 controls the communication unit 703 to start the scan operation for searching for the access point APi (fourth time). . Here, as a result of the scanning operation, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F2” are searched. Further, since the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an automatic connection AP, the connection process to the search AP is not performed.

  (16-8) The communication control unit 704 updates the stored contents of the first management table 600. Here, the number of searches for BSSID “BSSID-F1” is incremented to “4”, and the number of searches for BSSID “BSSID-F2” is incremented to “4”.

  (16-9) The communication control unit 704 reads the connection non-target AP table 500 and determines whether or not the BSSID of the search AP is registered in the connection non-target AP table 500. Here, since the BSSIDs “BSSID-F1” and “BSSID-F2” of the search AP are not registered in the connection non-target AP table 500, the scanning operation of the access point APi is continued.

  In FIG. 17, (16-10) the communication control unit 704 controls the communication unit 703 to start a scan operation for searching for an access point APi when the period T has elapsed since the start of the previous scan operation. (5th time). Here, as a result of the scanning operation, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F2” are searched. Further, since the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an automatic connection AP, the connection process to the search AP is not performed.

  (16-11) The communication control unit 704 updates the stored contents of the first management table 600. Here, the number of searches for BSSID “BSSID-F1” is incremented to “5”, and the number of searches for BSSID “BSSID-F2” is incremented to “5”.

  (16-12) The communication control unit 704 determines whether the BSSID “BSSID-F1” and the BSSID “BSSID-F2” whose number of searches is equal to or greater than the predetermined number N are registered in the connection AP table 400. Here, BSSID “BSSID-F1” and BSSID “BSSID-F2” are not registered in the connection non-target AP table 500.

  (16-13) The communication control unit 704 registers the BSSID “BSSID-F1” and BSSID “BSSID-F2” of the search AP whose number of searches is equal to or greater than the predetermined number N in the connection non-target AP table 500. At this time, the communication control unit 704 registers the ESSID and registration time of the search AP together with the BSSID of the search AP in the connection non-target AP table 500 together.

  (16-14) The communication control unit 704 stops the scanning operation for searching for the access point APi. Then, the communication control unit 704 changes the state of the communication unit 703 from an active state in which the scanning operation of the access point APi is possible to a sleep state.

  (16-15) The communication control unit 704 transmits a walk detection start notification to the movement detection unit 702. The walking detection start notification is for requesting the user of the mobile terminal device 101 to start walking detection. As a result, movement detection of the mobile terminal apparatus 101 by the movement detection unit 702, that is, detection of user walking is started.

<Second Control Processing Example>
FIG. 18 is an explanatory diagram of a second control process example of the mobile terminal apparatus 101 according to the first embodiment. 18, (18-1) the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display. Here, it is detected that the display state of the display 303 has changed from non-display to display as a result of the display state of the display 303 being switched from non-display to display by a user operation input.

  (18-2) When the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display, the display state detection unit 701 notifies the communication control unit 704 of a screen ON notification.

  (18-3) When the communication control unit 704 receives a screen ON notification, the communication control unit 704 controls the communication unit 703 to start a scanning operation for searching for an access point APi (first time). Here, as a result of the scanning operation, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F3” are searched. Further, since the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an automatic connection AP, the connection process to the search AP is not performed.

  (18-4) The communication control unit 704 updates the stored contents of the first management table 600. Here, the number of searches for BSSID “BSSID-F1” is incremented to “6”, and BSSID “BSSID-F3” and the number of searches for “1” are registered in association with each other. In this scan operation, since the access point of BSSID “BSSID-F2” was not searched, the record of BSSID “BSSID-F2” is deleted from the first management table 600.

  (18-5) The communication control unit 704 determines whether or not the BSSID of the search AP is registered in the connection non-target AP table 500. Here, the BSSID “BSSID-F1” of the search AP is registered in the connection non-target AP table 500.

  (18-6) The communication control unit 704 stops the scanning operation for searching for the access point APi. Then, the communication control unit 704 changes the state of the communication unit 703 from an active state in which the scanning operation of the access point APi is possible to a sleep state.

  (18-7) The communication control unit 704 transmits a walk detection start notification to the movement detection unit 702. As a result, movement detection of the mobile terminal apparatus 101 by the movement detection unit 702, that is, detection of user walking is started.

<Third control processing example>
FIG. 19 is an explanatory diagram of a third control process example of the mobile terminal apparatus 101 according to the first embodiment. In FIG. 19, (19-1) the movement detection unit 702 notifies the communication control unit 704 of a walk detection notification when the movement of the mobile terminal device 101 is detected. The walking detection notification is a notification indicating that the movement of the mobile terminal device 101, that is, the walking of the user of the mobile terminal device 101 is detected.

  (19-2) When the communication control unit 704 receives a walk detection notification, the communication control unit 704 notifies the movement detection unit 702 of a walk detection stop notification. The walking detection stop notification is a request for stopping the walking detection of the user of the mobile terminal device 101. As a result, the movement detection of the mobile terminal device 101 by the movement detection unit 702, that is, the user's walking detection is stopped.

  Moreover, the communication control part 704 resets the memory content of the 1st management table 600, when a walk detection notification is received. Thereby, whenever a user's walk is detected, the search frequency can be counted again from the beginning. As a result, even if the user's walking is frequently detected, it is possible to prevent the number of searches for the search AP from exceeding the predetermined number N due to the scanning operation triggered by the user's walking detection.

  (19-3) When the communication control unit 704 receives the walking detection notification, the communication control unit 704 controls the communication unit 703 to start a scanning operation for searching for the access point APi (first time). Here, as a result of the scanning operation, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F2” are searched. Further, since the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an automatic connection AP, the connection process to the search AP is not performed.

  (19-4) The communication control unit 704 updates the stored contents of the first management table 600. Here, BSSID “BSSID-F1” and search count “1” are registered in association with each other. Also, BSSID “BSSID-F2” and the number of searches “1” are registered in association with each other.

  (19-5) When the period T has elapsed since the start of the previous scan operation, the communication control unit 704 controls the communication unit 703 to start the scan operation for searching for the access point APi (second time). . Here, as a result of the scanning operation, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F2” are searched. Further, since the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an automatic connection AP, the connection process to the search AP is not performed.

  (19-6) When the period T has elapsed since the start of the previous scan operation, the communication control unit 704 controls the communication unit 703 to start the scan operation for searching for the access point APi (fourth time). . Here, as a result of the scanning operation, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F2” are searched. Further, since the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an automatic connection AP, the connection process to the search AP is not performed.

  (19-7) The communication control unit 704 updates the stored contents of the first management table 600. Here, the number of searches for BSSID “BSSID-F1” is incremented to “4”, and the number of searches for BSSID “BSSID-F2” is incremented to “4”.

(Various processing procedures of the mobile terminal device 101)
Next, a control processing procedure of the mobile terminal apparatus 101 according to the first embodiment will be described. However, the predetermined number N compared with the number of searches for the access point APi is “N = 5”.

<First control processing procedure>
20 to 22 are flowcharts illustrating an example of a first control processing procedure of the mobile terminal apparatus 101 according to the first embodiment. In the flowchart of FIG. 20, first, the communication control unit 704 determines whether a screen ON notification has been received from the display state detection unit 701 (step S2001).

  Here, when the communication control unit 704 receives a screen ON notification (step S2001: Yes), the communication control unit 704 proceeds to step S2006. On the other hand, when the communication control unit 704 has not received a screen ON notification (step S2001: No), the communication control unit 704 determines whether a walk detection notification has been received from the movement detection unit 702 (step S2002).

  Here, the communication control part 704 returns to step S2001, when a walk detection notification is not received (step S2002: No). On the other hand, when the communication control unit 704 receives a walk detection notification (step S2002: Yes), the communication control unit 704 notifies the movement detection unit 702 of a walk detection stop notification (step S2003).

  Next, the communication control unit 704 resets the stored contents of the first management table 600 (step S2004), and sets the walking sensor flag to “1” (step S2005). The walking sensor flag is information indicating whether or not a user's walking has been detected. The walking sensor flag is “0” in the initial state and is stored in the memory 302.

  Then, the communication control unit 704 changes the communication unit 703 from the sleep state to the active state (step S2006), and proceeds to step S2101 shown in FIG.

  In the flowchart of FIG. 21, first, the communication control unit 704 sets “p” of the cycle Tp to “p = 0” (step S2101), and determines whether “p” is equal to or greater than “P” (step S2101). S2102). If “p” is equal to or greater than “P” (step S2102: YES), the communication control unit 704 proceeds to step S2104.

  On the other hand, when “p” is less than “P” (step S2102: No), the communication control unit 704 increments “p” of the cycle Tp (step S2103) and determines whether or not the cycle Tp has elapsed. (Step S2104). Here, the communication control unit 704 waits for the period Tp to elapse (step S2104: No).

  If the period Tp has elapsed (step S2104: YES), the communication control unit 704 controls the communication unit 703 to start a scanning operation for searching for an access point APi (step S2105). Next, the communication control unit 704 acquires a scan result from the communication unit 703 (step S2106).

  Then, the communication control unit 704 determines whether or not the search AP is an automatic connection AP (step S2107). If the search AP is not an automatic connection AP (step S2107: No), the communication control unit 704 determines whether the ESSID of the search AP is registered in the connection AP table 400 (step S2108).

  Here, when the ESSID of the search AP is registered (step S2108: Yes), the communication control unit 704 executes connection processing with the search AP (step S2109), and ends a series of processing according to this flowchart. . On the other hand, when the ESSID of the search AP is not registered (step S2108: No), the process proceeds to step S2201 shown in FIG.

  In step S2107, when the search AP is an automatic connection AP (step S2107: Yes), the communication control unit 704 executes connection processing for the automatic connection AP (step S2110), and performs a series of processes according to this flowchart. finish.

  The connection process for the automatic connection AP is a process for automatically connecting to the network 210 via the access point APi without manually performing a registration procedure or an authentication procedure. The authentication process at this time is automatically executed, for example, on the mobile terminal device 101 side or the access point APi side.

  In the flowchart of FIG. 22, first, the communication control unit 704 executes a first management table update process for updating the storage contents of the first management table 600 (step S2201). Next, the communication control unit 704 determines whether or not “1” is set in the walking sensor flag (step S2202).

  Here, when “0” is set in the walking sensor flag (step S2202: No), the communication control unit 704 determines whether or not the BSSID of the search AP is registered in the connection non-target AP table 500. (Step S2203). If the BSSID of the search AP is registered (step S2203: Yes), the communication control unit 704 refers to the connection non-target AP table 500 and determines whether the search AP registration time is within a predetermined range from the current time. It is determined whether or not (step S2204).

  Here, when the registration time of the search AP is out of the predetermined range (step S2204: No), the communication control unit 704 proceeds to step S2102 shown in FIG. On the other hand, when the search AP registration time is within the predetermined range (step S2204: YES), the communication control unit 704 updates the search AP registration time in the connection non-target AP table 500 to the current time (step S2205). .

  Next, the communication control unit 704 causes the communication unit 703 to transition from the active state to the sleep state (step S2206). Then, the communication control unit 704 notifies the movement detection unit 702 of a walk detection start notification (step S2207), and ends a series of processes according to this flowchart.

  If the BSSID of the search AP is not registered in step S2203 (step S2203: No), the communication control unit 704 refers to the first management table 600 and has BSSIDs acquired five times or more continuously. It is determined whether or not (step S2208). Here, when there is no BSSID acquired continuously five times or more (step S2208: No), the communication control unit 704 proceeds to step S2102 shown in FIG.

  In the following description, an access point from which BSSIDs are continuously acquired a predetermined number of times N or more (here, N = 5) may be referred to as a “connection non-target candidate AP”.

  On the other hand, when there is a BSSID acquired continuously five times or more (step S2208: Yes), the communication control unit 704 determines whether or not the ESSID of the connection non-target candidate AP is registered in the connection AP table 400 ( Step S2209).

  If the ESSID of the connection non-target candidate AP is not registered (step S2209: No), the communication control unit 704 registers the ESSID, BSSID, and registration time of the connection non-target candidate AP in the connection non-target AP table 500. (Step S2210), the process proceeds to step S2206.

  On the other hand, when the ESSID of the connection non-target candidate AP is registered (step S2209: Yes), the communication control unit 704 deletes the record corresponding to the ESSID of the connection non-target candidate AP from the connection non-target AP table 500. (Step S2211), the process proceeds to Step S2102 shown in FIG.

  In addition, when “1” is set in the walking sensor flag in step S2202 (step S2202: Yes), the communication control unit 704 refers to the first management table 600 and has been continuously acquired five times or more. It is determined whether there is a BSSID (step S2212). Here, when there is no BSSID acquired continuously five times or more (step S2212: No), the communication control unit 704 proceeds to step S2102 shown in FIG.

  On the other hand, when there is a BSSID acquired continuously five times or more (step S2212: Yes), the communication control unit 704 sets “0” in the walking sensor flag (step S2213), and proceeds to step S2209.

  Thereby, when the access point APi of the same BSSID is searched N times consecutively, the scanning operation for searching for the access point APi can be stopped.

  Next, a specific processing procedure of the first management table update process shown in step S2201 of FIG. 22 will be described.

  FIG. 23 is a flowchart illustrating an example of a specific processing procedure of the first management table update process. In the flowchart of FIG. 23, first, the communication control unit 704 creates a new first management table (step S2301). In the new first management table, the storage contents of the first management table 600 are empty.

  Next, the communication control unit 704 acquires the BSSIDs of the search AP_1 to AP_K from the scan result acquired in step S2106 illustrated in FIG. 21 (step S2302). However, K is a natural number of 1 or more.

  Then, the communication control unit 704 sets “k = 1” (step S2303), and selects a search AP_k from the search AP_1 to AP_K (step S2304). Next, the communication control unit 704 determines whether or not the BSSID of the search AP_k exists in the first management table 600 (step S2305).

  Here, when the BSSID of the search AP_k does not exist (step S2305: No), the communication control unit 704 registers the BSSID of the search AP_k and the search count “1” in association with each other in the new first management table (step S2305). S2306), the process proceeds to step S2309.

  On the other hand, when the BSSID of the search AP_k exists (step S2305: Yes), the communication control unit 704 increments the number of searches corresponding to the BSSID of the search AP_k (step S2307). Then, the communication control unit 704 registers the BSSID of the search AP_k and the number of searches in association with each other in the new first management table (step S2308).

  Next, the communication control unit 704 increments “k” (step S2309), and determines whether “k” is greater than “K” (step S2310). If “k” is equal to or less than “K” (step S2310: NO), the communication control unit 704 returns to step S2304.

  On the other hand, when “k” becomes larger than “K” (step S2310: YES), the communication control unit 704 stores the new first management table as the first management table 600 (step S2311), and the series according to this flowchart. This process is terminated, and the process returns to the step that called the first management table update process.

  Thereby, the search frequency of the search AP searched continuously can be managed. In step S2302, if the scan result does not include the BSSID of the search AP, the communication control unit 704 ends the series of processes according to this flowchart and returns to the step that called the first management table update process. Return.

<Connection non-target AP table update processing procedure>
Next, a connection non-target AP table update process procedure of the mobile terminal device 101 according to the first embodiment will be described.

  FIG. 24 is a flowchart of an example of a connection non-target AP table update process procedure of the mobile terminal device 101 according to the first embodiment. In the flowchart of FIG. 24, first, the mobile terminal apparatus 101 determines whether or not a manual connection to the access point APi has been performed by a user operation input (step S2401).

  Here, the mobile terminal apparatus 101 waits for manual connection to the access point APi (step S2401: No). When manual connection to the access point APi is performed (step S2401: Yes), the mobile terminal apparatus 101 acquires the ESSID of the newly connected AP that is connected (step S2402).

  Then, the mobile terminal device 101 determines whether or not the ESSID of the newly connected AP exists in the connection non-target AP table 500 (step S2403). Here, when the ESSID of the newly connected AP does not exist (step S2403: No), the mobile terminal apparatus 101 ends the series of processes according to this flowchart.

  On the other hand, when the ESSID of the newly connected AP exists (step S2403: Yes), the mobile terminal apparatus 101 deletes the record corresponding to the ESSID of the newly connected AP from the connection non-target AP table 500 (step S2404). A series of processes according to the flowchart ends.

  As a result, the BSSID of the access point APi that is newly available can be deleted from the connection non-target AP table 500.

(Other control examples of the mobile terminal device 101)
In the above description, the mobile terminal apparatus 101 decides to register the BSSID of the search AP searched continuously N times or more in the connection non-target AP table 500, but the present invention is not limited to this. For example, the mobile terminal apparatus 101 may register the BSSID of the search AP searched continuously for a predetermined period R in the connection non-target AP table 500.

  Hereinafter, specific processing contents of the communication control unit 704 that registers the BSSID of the search AP searched continuously for a predetermined period R in the connection non-target AP table 500 will be described.

  First, the communication control unit 704 holds search number information in which the BSSID of the search AP is associated with the search time for searching for the search AP by the communication unit 703. Specifically, for example, the communication control unit 704 registers search time information that associates the BSSID of the search AP with the search time at which the search AP was searched for in the second management table 2500 (see FIG. 25 described later). To do.

  FIG. 25 is an explanatory diagram of an example of the contents stored in the second management table 2500. In FIG. 25, the second management table 2500 has fields for the number of times, BSSID, and search time, and search time information (for example, search time information 2500-1 to 2500-4) is set by setting information in each field. Is stored as a record.

  Here, in the number field, the number of times for specifying the scan result obtained by the number of scan operations is set. In the BSSID field, BSSIDs of search APs are set in descending order of RSSI strength. In the search time field, a time when the search AP is searched, for example, a time when the communication control unit 704 acquires a scan result from the communication unit 703 is set.

  Taking search time information 2500-4 as an example, BSSIDs of search APs searched by the first scan operation are shown in descending order of RSSI strength. Further, the search time of the search AP searched by the first scanning operation is shown. Although not shown, the second management table 2500 stores the ESSID of the access point APi in association with the BSSID of the access point APi.

  Further, the communication control unit 704 registers the BSSID of the search time information in the connection non-target AP table 500 according to the search time associated with the BSSID of the search time information. Specifically, for example, the communication control unit 704 refers to the second management table 2500 and registers the BSSID of the search AP continuously searched by the communication unit 703 within the predetermined period R in the connection non-target AP table 500. To do.

  Here, the predetermined period R can be arbitrarily set. The predetermined period R is, for example, a value that can be determined that the user of the mobile terminal apparatus 101 is not moving when a search AP having the same BSSID is searched for a predetermined period R (for example, 3 [minutes], 5 [Minutes]).

  More specifically, for example, the communication control unit 704 registers the BSSID acquired continuously for a predetermined period R in the connection non-target AP table 500 in association with the ESSID corresponding to the BSSID and the registration time. May be. Accordingly, it is possible to stop the scanning operation in a situation where it is unlikely that the access point APi can be connected, and to suppress the power consumption required for the scanning operation for searching for the access point APi.

<Fourth operation example>
Hereinafter, an operation example of the mobile terminal apparatus 101 that registers the BSSID of the search AP searched continuously for a predetermined period R in the connection non-target AP table 500 will be described using FIG. However, the predetermined period R is “R = 3 [minutes]”.

  FIG. 26 is an explanatory diagram of a fourth operation example of the mobile terminal apparatus 101 according to the first embodiment. (26-1) When the display state of the display 303 transitions from non-display to display, the mobile terminal apparatus 101 starts a periodic scanning operation for searching for the access point APi. In the example of FIG. 26, as a result of the scanning operation being repeated at a period T of 10 [s], 20 [s], 60 [s], and 150 [s], the access point of the BSSID “BSSID-F1” is continuous for 3 minutes. (R = 3 [minutes]).

  (26-2) The mobile terminal apparatus 101 stops the scanning operation of the access point APi because the access point with the BSSID “BSSID-F1” is searched continuously for 3 minutes. Then, the mobile terminal apparatus 101 registers the BSSID “BSSID-F1” of the access point searched continuously for 3 minutes in the connection non-target AP table 500.

  Here, it is assumed that after the above (26-2), the display state of the display 303 transitions from display to non-display, and then the display state of the display 303 transitions from non-display to display. Thereafter, as a result of starting a periodic scanning operation for searching for an access point APi, an access point having a BSSID registered in the connection non-target AP table 500 is searched, and the scanning operation for the access point APi is stopped. Assume a case.

  (26-3) When the mobile terminal apparatus 101 detects the movement of the mobile terminal apparatus 101, the mobile terminal apparatus 101 starts a periodic scanning operation for searching for the access point APi. In the example of FIG. 26, as a result of repeating the scanning operation with a period T of 150 [s], the access point of BSSID “BSSID-E1” is continuously searched for 3 minutes (R = 3 [minutes]).

  (26-4) The mobile terminal apparatus 101 stops the scanning operation of the access point APi because the access point with the BSSID “BSSID-E1” has been searched continuously for 3 minutes. Then, the mobile terminal apparatus 101 registers the BSSID “BSSID-F3” of the access point searched continuously for 3 minutes in the connection non-target AP table 500.

  In the example of FIG. 26, the BSSID of the access point APi searched continuously for 3 minutes, starting from the time point 3 minutes after the time when the scan operation was first performed after 3 minutes from the screen ON (or walking detection). Is registered in the connection non-target AP table 500, but is not limited thereto. For example, the mobile terminal apparatus 101 may register the BSSID of the access point APi searched continuously for 3 minutes in the connection non-target AP table 500, starting from the screen ON (or walking detection).

<Fourth control processing example>
Hereinafter, a control processing example of the mobile terminal apparatus 101 that registers the BSSID of the search AP searched continuously for a predetermined period R in the connection non-target AP table 500 will be described using FIG. 27 and FIG. However, the predetermined period R is “R = 3 [minutes]”.

  27 and 28 are explanatory diagrams illustrating a fourth control process example of the mobile terminal apparatus 101 according to the first embodiment. In FIG. 27, (27-1) the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display. Here, it is detected that the display state of the display 303 has changed from non-display to display as a result of the display state of the display 303 being switched from non-display to display by a user operation input.

  (27-2) When the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display, the display state detection unit 701 notifies the communication control unit 704 of a screen ON notification. The screen ON notification is a notification indicating that the display state of the display 303 has changed from non-display to display.

  (27-3) When the communication control unit 704 receives a screen ON notification, the communication control unit 704 starts a scan elapsed timer. The scan elapsed timer is a timer that measures an elapsed time after receiving a screen ON notification or a walk detection notification. When the communication control unit 704 receives a screen ON notification, the communication control unit 704 controls the communication unit 703 to start a scanning operation for searching for an access point APi (first time).

  In the example of FIG. 27, as a result of the scan operation being performed, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F2” are searched. Further, since the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an automatic connection AP, the connection process to the search AP is not performed.

  (27-4) The communication control unit 704 updates the stored contents of the second management table 2500. Here, the BSSID “BSSID-F1” and BSSID “BSSID-F2” of the search AP and the search time “201209241100” are registered in association with each other. 27 and 28, the BSSID of the search AP in the second management table 2500 is partially omitted and displayed.

  (27-5) The communication control unit 704 reads the connection non-target AP table 500 and determines whether or not the BSSID of the search AP is registered in the connection non-target AP table 500. Here, since the BSSIDs “BSSID-F1” and “BSSID-F2” of the search AP are not registered in the connection non-target AP table 500, the scanning operation of the access point APi is continued. At this time, the scan elapsed timer has not passed 3 minutes.

  (27-6) When the period T has elapsed since the start of the previous scan operation, the communication control unit 704 controls the communication unit 703 to start the scan operation for searching for the access point APi (second time). . Here, as a result of the scanning operation, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F2” are searched. Further, since the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an automatic connection AP, the connection process to the search AP is not performed.

  (27-7) When the period T has elapsed since the start of the previous scanning operation, the communication control unit 704 controls the communication unit 703 to start the scanning operation for searching for the access point APi (fourth time). . Here, as a result of the scanning operation, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F2” are searched. Further, since the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an automatic connection AP, the connection process to the search AP is not performed.

  (27-8) The communication control unit 704 updates the stored contents of the second management table 2500. Here, the BSSID “BSSID-F1” and BSSID “BSSID-F2” of the search AP and the search time “201209241103” are registered in association with each other.

  (27-9) The communication control unit 704 reads the connection non-target AP table 500 and determines whether or not the BSSID of the search AP is registered in the connection non-target AP table 500. Here, since the BSSIDs “BSSID-F1” and “BSSID-F2” of the search AP are not registered in the connection non-target AP table 500, the scanning operation of the access point APi is continued. At this time, the scan elapsed timer has not passed 3 minutes.

  Here, it is assumed that the scan elapsed timer has elapsed for 3 minutes between the fourth scan operation and the fifth scan operation.

  In FIG. 28, (27-10) the communication control unit 704 controls the communication unit 703 to start the scan operation for searching for the access point APi when the period T has elapsed since the start of the previous scan operation. (5th time). Here, as a result of the scanning operation, an access point with a BSSID of “BSSID-F1” and an access point with a BSSID of “BSSID-F2” are searched. Further, since the ESSID of the search AP is not registered in the connection AP table 400 and the search AP is not an automatic connection AP, the connection process to the search AP is not performed.

  (27-11) The communication control unit 704 updates the stored contents of the second management table 2500. Here, BSSID “BSSID-F1” and BSSID “BSSID-F2” of the search AP and search time “201209241104” are registered in association with each other. In addition, the record before the time point that is a predetermined period R backward from the current time is deleted.

  As a result, there are BSSID “BSSID-F1” and BSSID “BSSID-F2” acquired continuously for 3 minutes.

  (27-12) The communication control unit 704 determines whether the BSSID “BSSID-F1” and BSSID “BSSID-F2” acquired continuously for 3 minutes are registered in the connection AP table 400. Here, BSSID “BSSID-F1” and BSSID “BSSID-F2” are not registered in the connection non-target AP table 500.

  (27-13) The communication control unit 704 registers the BSSID “BSSID-F1” and BSSID “BSSID-F2” of the search AP searched continuously for 3 minutes in the connection non-target AP table 500. At this time, the communication control unit 704 registers the ESSID and registration time of the search AP together with the BSSID of the search AP in the connection non-target AP table 500 together.

  (27-14) The communication control unit 704 stops the scanning operation for searching for the access point APi. Then, the communication control unit 704 changes the state of the communication unit 703 from an active state in which the scanning operation of the access point APi is possible to a sleep state.

  (27-15) The communication control unit 704 transmits a walk detection start notification to the movement detection unit 702. As a result, movement detection of the mobile terminal apparatus 101 by the movement detection unit 702, that is, detection of user walking is started.

<Second Control Processing Procedure>
Next, a second control processing procedure of the mobile terminal apparatus 101 according to the first embodiment will be described. However, the predetermined period R is “R = 3 [minutes]”.

  FIGS. 29 to 31 are flowcharts illustrating an example of a second control processing procedure of the mobile terminal apparatus 101 according to the first embodiment. In the flowchart of FIG. 29, first, the communication control unit 704 determines whether a screen ON notification has been received from the display state detection unit 701 (step S2901).

  Here, when the communication control unit 704 receives a screen ON notification (step S2901: YES), the communication control unit 704 proceeds to step S2906. On the other hand, when the communication control unit 704 has not received the screen ON notification (step S2901: No), the communication control unit 704 determines whether the walking detection notification has been received from the movement detection unit 702 (step S2902).

  Here, the communication control part 704 returns to step S2901 when a walk detection notification is not received (step S2902: No). On the other hand, when the communication control unit 704 receives a walk detection notification (step S2902: Yes), the communication control unit 704 notifies the movement detection unit 702 of a walk detection stop notification (step S2903).

  Next, the communication control unit 704 resets the stored contents of the second management table 2500 (step S2904), and sets the walking sensor flag to “1” (step S2905). Then, the communication control unit 704 causes the communication unit 703 to transition from the sleep state to the active state (step S2906), starts a scan elapsed timer (step S2907), and proceeds to step S3001 illustrated in FIG.

  In the flowchart of FIG. 30, first, the communication control unit 704 sets “p” of the cycle Tp to “p = 0” (step S3001), and determines whether “p” is equal to or greater than “P” (step S3001). S3002). Here, when “p” is equal to or greater than “P” (step S3002: Yes), the communication control unit 704 proceeds to step S3004.

  On the other hand, when “p” is less than “P” (step S3002: No), the communication control unit 704 increments “p” of the cycle Tp (step S3003) and determines whether or not the cycle Tp has elapsed. (Step S3004). Here, the communication control unit 704 waits for the period Tp to elapse (step S3004: No).

  When the period Tp has elapsed (step S3004: Yes), the communication control unit 704 controls the communication unit 703 to start a scanning operation for searching for an access point APi (step S3005). Next, the communication control unit 704 acquires a scan result from the communication unit 703 (step S3006).

  Then, the communication control unit 704 determines whether or not the search AP is an automatic connection AP (step S3007). If the search AP is not an automatic connection AP (step S3007: No), the communication control unit 704 determines whether the ESSID of the search AP is registered in the connection AP table 400 (step S3008).

  Here, when the ESSID of the search AP is registered (step S3008: Yes), the communication control unit 704 executes a connection process with the search AP (step S3009), and ends a series of processes according to this flowchart. . On the other hand, when the ESSID of the search AP is not registered (step S3008: No), the process proceeds to step S3101 shown in FIG.

  In step S3007, when the search AP is an automatic connection AP (step S3007: Yes), the communication control unit 704 executes connection processing for the automatic connection AP (step S3010), and performs a series of processes according to the flowchart. finish.

  In the flowchart of FIG. 31, the communication control unit 704 first executes a second management table update process for updating the storage contents of the second management table 2500 (step S3101). Next, the communication control unit 704 determines whether or not “1” is set in the walking sensor flag (step S3102).

  Here, when “0” is set in the walking sensor flag (step S <b> 3102: No), the communication control unit 704 determines whether or not the BSSID of the search AP is registered in the connection non-target AP table 500. (Step S3103). If the BSSID of the search AP is registered (step S3103: Yes), the communication control unit 704 refers to the connection non-target AP table 500 and determines whether the registration time of the registered AP is within a predetermined range from the current time. It is determined whether or not (step S3104).

  Here, when the registration time of the search AP is out of the predetermined range (step S3104: No), the communication control unit 704 proceeds to step S3002 shown in FIG. On the other hand, when the registration time of the search AP is within the predetermined range (step S3104: Yes), the communication control unit 704 updates the registration time of the search AP in the connection non-target AP table 500 to the current time (step S3105). .

  Next, the communication control unit 704 causes the communication unit 703 to transition from the active state to the sleep state (step S3106). Then, the communication control unit 704 notifies the movement detection unit 702 of a walk detection start notification (step S3107), and ends a series of processes according to this flowchart.

  If the BSSID of the search AP is not registered in step S3103 (step S3103: No), the communication control unit 704 determines whether or not the scan elapsed timer has elapsed for 3 minutes (step S3108). If the scan elapsed timer has not elapsed for 3 minutes (step S3108: NO), the communication control unit 704 proceeds to step S3002 shown in FIG.

  On the other hand, when the scan elapsed timer has elapsed for 3 minutes (step S3108: Yes), the communication control unit 704 refers to the second management table 2500 to determine whether there is a BSSID acquired continuously for 3 minutes. (Step S3109). Here, when there is no BSSID acquired continuously for 3 minutes (step S3109: No), the communication control unit 704 proceeds to step S3002 shown in FIG.

  In the following description, an access point from which BSSIDs have been acquired for a predetermined period R (here, R = 3 [minutes]) may be referred to as a “non-target candidate AP”.

  On the other hand, when there is a BSSID acquired continuously for 3 minutes (step S3109: Yes), the communication control unit 704 determines whether or not the ESSID of the connection non-target candidate AP is registered in the connection AP table 400 (step S3109: Yes). S3110).

  Here, when the ESSID of the connection non-target candidate AP is not registered (step S3110: No), the communication control unit 704 registers the ESSID, BSSID, and registration time of the connection non-target candidate AP in the connection non-target AP table 500. (Step S3111), the process proceeds to step S3106.

  On the other hand, when the ESSID of the connection non-target candidate AP is registered (step S3110: Yes), the communication control unit 704 deletes the record corresponding to the ESSID of the connection non-target candidate AP from the connection non-target AP table 500. (Step S3112), the process proceeds to step S3002 shown in FIG.

  In step S3102, when the walking sensor flag is set to “1” (step S3102: Yes), the communication control unit 704 determines whether the scan elapsed timer has elapsed for 3 minutes (step S3113). . If the scan elapsed timer has not elapsed for 3 minutes (step S3113: NO), the communication control unit 704 proceeds to step S3002 illustrated in FIG.

  On the other hand, when the scan elapsed timer has elapsed for 3 minutes (step S3113: Yes), the communication control unit 704 refers to the second management table 2500 to determine whether there is a BSSID acquired continuously for 3 minutes. (Step S3114). Here, when there is no BSSID acquired continuously for 3 minutes (step S3114: No), the communication control unit 704 proceeds to step S3002 shown in FIG.

  On the other hand, when there is a BSSID acquired continuously for 3 minutes (step S3114: Yes), the communication control unit 704 sets “0” in the walking sensor flag (step S3115), and proceeds to step S3110.

  Thereby, when an access point APi having the same BSSID is searched continuously for a predetermined period R, the scan operation for searching for the access point APi can be stopped.

  Next, a specific processing procedure of the second management table update process shown in step S3101 of FIG. 31 will be described.

  FIG. 32 is a flowchart illustrating an example of a specific processing procedure of the second management table update process. In the flowchart of FIG. 32, first, the communication control unit 704 acquires BSSIDs of search AP_1 to AP_K from the scan result acquired in step S3006 illustrated in FIG. 30 (step S3201).

  Next, the communication control unit 704 acquires current time information (search time t) (step S3202). Then, the communication control unit 704 registers the BSSIDs of the search AP_1 to AP_K and the search time t in association with each other in the second management table 2500 (step S3203). Next, the communication control unit 704 selects unselected search time information (search time t #) from the second management table 2500 (step S3204).

  Then, the communication control unit 704 determines whether or not a value obtained by subtracting the search time t # from the search time t is greater than the predetermined period R (step S3205). If the value obtained by subtracting the search time t # from the search time t is equal to or shorter than the predetermined period R (step S3205: No), the communication control unit 704 proceeds to step S3207.

  On the other hand, when the value obtained by subtracting the search time t # from the search time t is greater than the predetermined period R (step S3205: Yes), the communication control unit 704 selects the search time information (search time t #) selected from the second management table 2500. ) Is deleted (step S3206). The communication control unit 704 determines whether there is unselected search time information that is not selected from the second management table 2500 (step S3207).

  Here, when there is unselected search time information (step S3207: Yes), the communication control unit 704 returns to step S3204. On the other hand, when there is no unselected search time information (step S3207: No), the communication control unit 704 ends the series of processes according to this flowchart, and returns to the step that called the second management table update process.

  Thereby, it is possible to suppress an increase in the storage contents of the second management table 2500 while holding the latest search time information for the predetermined period R. In step S3201, when the BSSID of the search AP is not included in the scan result, the communication control unit 704 ends the series of processes according to this flowchart and returns to the step that called the second management table update process. Return.

  As described above, according to the mobile terminal apparatus 101 according to the first embodiment, when the display state of the display 303 transitions from non-display to display, the periodic scanning operation for searching for the access point APi is started. Can do. Further, according to the mobile terminal apparatus 101, when the ESSID of the search AP does not exist in the connection AP table 400 and the BSSID of the search AP exists in the connection non-target AP table 500, the scanning operation of the access point APi is stopped. Can be made.

  Also, according to the mobile terminal apparatus 101, the BSSID of the search AP searched continuously N times or more can be registered in the connection non-target AP table 500 with reference to the first management table 600. Accordingly, it is possible to stop the scanning operation in a situation where it is unlikely that the access point APi can be connected, and to suppress the power consumption required for the scanning operation for searching for the access point APi.

  Also, according to the mobile terminal device 101, the difference between the registration time associated with the BSSID of the search AP searched continuously N times or more in the connection non-target AP table 500 and the current time is outside the predetermined range. If so, the scanning operation of the access point APi can be continued. As a result, assuming that a new access point is installed around the connection non-target AP, the scanning operation of the access point APi can be continued even around the connection non-target AP.

  Also, according to the mobile terminal apparatus 101, the BSSID of the search AP searched continuously for a predetermined period R can be registered in the connection non-target AP table 500 with reference to the second management table 2500. Accordingly, it is possible to stop the scanning operation in a situation where it is unlikely that the access point APi can be connected, and to suppress the power consumption required for the scanning operation for searching for the access point APi.

  Further, according to the mobile terminal device 101, when the ESSID of the search AP exists in the connection AP table 400 and the BSSID of the search AP exists in the connection non-target AP table 500, the scanning operation of the access point APi is continued. be able to. Thereby, even if the search AP is an access point searched continuously N times or more, if it is an available access point, the scanning operation of the access point APi is continued.

  Further, according to the mobile terminal apparatus 101, when the movement of the own apparatus is detected, a scanning operation for searching for the access point APi can be started. As a result, when the user of the mobile terminal apparatus 101 moves, the stopped scanning operation can be resumed, and connectivity to an available access point can be ensured.

(Embodiment 2)
Next, the mobile terminal apparatus 101 according to the second embodiment will be described. Note that description of portions similar to those described in the first embodiment is omitted.

  FIG. 33 is an explanatory diagram of an example of the control method according to the second embodiment. In FIG. 33, the mobile terminal apparatus 101 has neighboring access point information 3301 and can wirelessly communicate with the access point APi (in the example of FIG. 33, access points AP1 to AP9). Of the access points AP1 to AP9, the access point AP1 is an access point connected to the network 210 (see FIG. 2) from the mobile terminal apparatus 101.

  In FIG. 33, “A to I” correspond to the ESSID of each access point APi. In FIG. 33, a solid circle represents a communication area of an access point connected from the mobile terminal device 101 to the network 210 (see FIG. 2). In FIG. 33, a dotted circle represents a communication area of an access point that is not connected to the network 210 (see FIG. 2) from the mobile terminal apparatus 101.

  Here, the neighboring access point information 3301 includes an entry that associates the BSSID of the access point connected to the network 210 (see FIG. 2) and the BSSID of the neighboring access point existing in the vicinity of the access point. Information.

  In the following description, an access point connected to the network 210 (see FIG. 2) from the mobile terminal apparatus 101 may be referred to as “connected AP”. In addition, a nearby access point that exists in the vicinity of the connected AP may be referred to as a “neighbor AP”.

  The mobile terminal apparatus 101 controls the cycle T of the scanning operation for searching for the access point APi based on the determination result of whether the entry corresponding to the BSSID of the search AP is searched from the nearby access point information 3301.

  Hereinafter, an operation example of the mobile terminal apparatus 101 according to the second embodiment will be described. However, it is assumed that the neighbor access point information 3301 is associated with the BSSID of the connection AP1 and the BSSIDs of the neighbors AP2, AP3, AP7, AP8, and AP9 that exist in the vicinity of the connection AP1.

  (33-1) The mobile terminal apparatus 101 detects that the display state of the display 303 (see FIG. 3) has changed from non-display to display.

  (33-2) When the mobile terminal apparatus 101 detects that the display state of the display 303 has transitioned from non-display to display, the mobile terminal apparatus 101 starts a scanning operation for searching for the access point APi. Here, it is assumed that the access point AP6 is searched as a result of the scanning operation. Further, it is assumed that the connection process to the access point AP6 is not performed because the ESSID of the access point AP6 is not registered in the connection AP table 400.

  (33-3) The mobile terminal apparatus 101 determines whether an entry corresponding to the BSSID of the search AP is searched from the neighboring access point information 3301. The entry corresponding to the BSSID of the search AP is, for example, an entry in which the BSSID of the search AP becomes the BSSID of the neighboring AP associated with the BSSID of a certain connected AP.

  Here, when an entry corresponding to the BSSID of the search AP is searched, the mobile terminal apparatus 101 sets the cycle T of the scan operation for searching for the access point APi to the cycle T1. On the other hand, when the entry corresponding to the BSSID of the search AP is not searched, the mobile terminal apparatus 101 sets the cycle T of the scanning operation for searching for the access point APi to a cycle T2 longer than the cycle T1. That is, when the mobile terminal device 101 is located in the vicinity of the connected AP, the mobile terminal device 101 shortens the scanning operation cycle T compared to the case where the mobile terminal device 101 is not located in the vicinity of the connected AP.

  Here, the entry corresponding to the BSSID of the search AP 6 is not searched from the neighboring access point information 3301. In this case, the mobile terminal apparatus 101 sets the period T of the scanning operation for searching for the access point APi to the period T2. In the example of FIG. 33, “T2 = 150 [seconds]” is set as the cycle T2. In this case, the scanning operation is performed at intervals of 150 seconds thereafter.

  Here, it is assumed that the user of the mobile terminal apparatus 101 switches the display state of the display 303 from non-display to display after moving from the communication area of the access point AP6 into the communication area of the access point AP3.

  (33-4) The mobile terminal apparatus 101 detects that the display state of the display 303 (see FIG. 3) has changed from non-display to display.

  (33-5) When the mobile terminal device 101 detects that the display state of the display 303 has changed from non-display to display, the mobile terminal device 101 starts a scanning operation for searching for the access point APi. Here, as a result of the scanning operation being performed, the access point AP3 is searched. Further, it is assumed that the connection processing to the access point AP3 is not performed because the ESSID of the access point AP3 is not registered in the connection AP table 400.

  (33-6) The mobile terminal apparatus 101 determines whether an entry corresponding to the BSSID of the search AP is searched from the neighboring access point information 3301. Here, an entry corresponding to the BSSID of search AP 3 is searched from neighboring access point information 3301. In this case, the mobile terminal apparatus 101 sets the period T of the scanning operation for searching for the access point APi to the period T1. In the example of FIG. 33, “T1 = 20 [seconds]” shorter than the cycle T2 is set as the cycle T1. In this case, the scanning operation is performed at intervals of 20 seconds thereafter.

  In the above description, when the entry corresponding to the BSSID of the search AP is not searched from the neighboring access point information 3301, the mobile terminal apparatus 101 sets the scan operation cycle T to the cycle T2. Not limited to this. For example, if the entry including the BSSID of the neighboring AP associated with the BSSID of the search AP is not searched from the neighboring access point information 3301, the mobile terminal apparatus 101 may stop the scanning operation of the access point APi. Good.

  Thus, according to the mobile terminal device 101, when the mobile terminal device 101 is located in the vicinity of the connected AP, the scanning operation cycle T is greater than when the mobile terminal device 101 is not located in the vicinity of the connected AP. Can be shortened. Thereby, the connectivity to the available access point APi can be improved.

  Also, according to the mobile terminal device 101, when the mobile terminal device 101 is not located in the vicinity of the connected AP, the scanning operation cycle T is made longer than when the mobile terminal device 101 is located in the vicinity of the connected AP. can do. Thereby, the power consumption concerning the scanning operation | movement of access point APi can be suppressed.

(Contents stored in neighborhood AP table 3400)
Next, the neighboring AP table 3400 used by the mobile terminal apparatus 101 will be described. The neighborhood AP table 3400 is realized by, for example, the memory 302 illustrated in FIG. Note that the neighboring access point information 3301 illustrated in FIG. 33 corresponds to the neighboring AP table 3400.

  FIG. 34 is an explanatory diagram showing an example of the contents stored in the neighborhood AP table 3400. In FIG. 34, the neighboring AP table 3400 has fields of ESSID, BSSID, and neighboring AP. By setting information in each field, neighboring access point information (for example, neighboring access point information 3400-1) is stored as a record.

  Here, ESSID is the ESSID of the connected AP. BSSID is the BSSID of the connected AP. The neighboring AP is the BSSID of the neighboring AP existing in the vicinity of the connected AP. According to the neighbor AP table 3400, the BSSID of the neighbor AP existing in the vicinity of the connected AP can be specified.

  For example, according to the neighboring access point information 3400-1, BSSIDs “BSSID-A1”, “BSSID-B1” of the neighboring APs existing in the vicinity of the connected AP of the ESSID “ESSID-A” and the BSSID “BSSID-A1”, “BSSID-C1”, “BSSID-G1”, “BSSID-H1”, and “BSSID-I1” can be specified.

(Functional configuration example of mobile terminal apparatus 101)
FIG. 35 is a block diagram of a functional configuration example of the mobile terminal apparatus 101 according to the second embodiment. In FIG. 35, the mobile terminal device 101 is configured to include a display state detection unit 701, a communication unit 703, and a communication control unit 3501. Specifically, each functional unit, for example, causes the CPU 301 to execute a program stored in the memory 302 illustrated in FIG. 3, or hardware such as the public network I / F 305, the WLAN I / F 306, and the sensor 310. The function is realized by hardware. The processing result of each functional unit is stored in the memory 302, for example. In addition, about the functional part same as the functional part of the mobile terminal device 101 concerning Embodiment 1, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The communication control unit 3501 has a function of controlling the cycle T of the scanning operation for searching for the access point APi. Specifically, for example, when the access point APi is searched, the communication control unit 3501 has a neighbor access point in which the BSSID of the searched AP is set in the BSSID field of the neighbor AP table 3400 shown in FIG. Search for information.

  Here, if the nearby access point information is searched, it can be said that there is a high possibility that the connected AP exists in the vicinity of the mobile terminal apparatus 101. Therefore, when searching for nearby access point information, the communication control unit 3501 sets the cycle T of the scanning operation for searching for the access point APi by the communication unit 703 to the cycle T1. The period T1 is set to a relatively short time interval of about 20 seconds, for example.

  As a result, when there is a connected AP in the vicinity of the mobile terminal apparatus 101, the scan operation can be performed at a relatively short time interval of about 20 seconds, and the connectivity to the available access point APi can be improved. it can.

  On the other hand, when the nearby access point information is not searched, it can be said that there is no high possibility that the connected AP exists in the vicinity of the mobile terminal apparatus 101. For this reason, when the communication control unit 3501 does not search for neighboring access point information, the communication control unit 3501 sets the cycle T of the scanning operation for searching for the access point APi by the communication unit 703 to the cycle T2. The period T2 is set to a relatively long time interval of about 150 seconds, for example.

  As a result, when there is no connected AP in the vicinity of the mobile terminal apparatus 101, the scan operation can be performed at a relatively long time interval of about 150 seconds, and the power consumption for the scan operation of the access point APi is suppressed. can do.

  Note that the communication control unit 3501 may stop the scanning operation for searching for the access point APi by the communication unit 703 when the proximity access point information is not searched. Thereby, when the connected AP does not exist in the vicinity of the mobile terminal apparatus 101, the scanning operation of the access point APi can be stopped and the power consumption required for the scanning operation of the access point APi can be suppressed.

  In addition, the communication control unit 3501 has a function of registering BSSIDs of neighboring APs that exist in the vicinity of the connected AP. Specifically, for example, the communication control unit 3501 may register the BSSID of the search AP included in the scan result including the BSSID of the connected AP in the neighboring AP table 3400 in association with the BSSID of the connected AP. .

  In addition, the communication control unit 3501 associates the BSSID of the search AP included in the scan result of the scan operation performed within a predetermined time W after the connection with the connection AP is disconnected, for example, in association with the BSSID of the connection AP. It may be registered in the nearby AP table 3400. At this time, the communication control unit 3501 may determine that the connection with the connection AP is disconnected, for example, when the RSSI strength of the signal received from the connection AP is equal to or lower than a predetermined strength.

  Further, the period T of the scanning operation performed within a predetermined time W after the connection with the connection AP is disconnected may be, for example, about 10 seconds, or “10 seconds → 20 seconds → 30 seconds →. It may be determined to become longer in order. An example of registration of BSSIDs of neighboring APs in the neighboring AP table 3400 will be described later with reference to FIGS. 37 and 38.

  Note that the mobile terminal apparatus 101 broadcasts a probe request signal to each channel of the wireless LAN until, for example, the vicinity AP information in which the BSSID of the AP to be searched is searched from the neighbor AP table 3400. . On the other hand, when the nearby access point information is searched, the mobile terminal apparatus 101 may unicast the probe request signal to the available access point APi, for example. The usable access point APi is the access point APi of the ESSID set in the ESSID field of the searched neighboring access point information.

(Control processing example of mobile terminal apparatus 101)
Next, a control processing example of the mobile terminal apparatus 101 according to the second embodiment will be described with reference to FIG. In the following description, some of the control processes of the mobile terminal apparatus 101 may be omitted.

  FIG. 36 is an explanatory diagram of an example of control processing of the mobile terminal device 101 according to the second embodiment. In FIG. 36, (36-1) the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display. Here, it is detected that the display state of the display 303 has changed from non-display to display as a result of the display state of the display 303 being switched from non-display to display by a user operation input.

  (36-2) When the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display, the display state detection unit 701 notifies the communication control unit 3501 of a screen ON notification.

  (36-3) When receiving the screen ON notification, the communication control unit 3501 controls the communication unit 703 to start a scanning operation for searching for the access point APi. In the example of FIG. 36, as a result of the scanning operation being performed, the access point AP6 (see FIG. 33) having the BSSID “BSSID-F1” is searched.

  Here, it is assumed that the ESSID “ESSID-F” of the search AP (access point AP6) is not registered in the connection AP table 400 (see FIG. 4). In this case, connection processing to the search AP is not performed.

  (36-4) The communication control unit 3501 searches for neighboring access point information in which the BSSID “BSSID-F1” of the search AP (access point AP6) is set in the BSSID field of the neighboring AP table 3400 (see FIG. 34). . Here, it is assumed that neighboring access point information is not searched. In this case, the communication control unit 3501 sets the cycle T of the scanning operation for searching for the access point APi by the communication unit 703 to the cycle T2. In the example of FIG. 36, 150 seconds is set as the cycle T2.

  Here, it is assumed that the user of the mobile terminal device 101 turns off the screen and moves from the communication area of the access point AP6 to the communication area of the access point AP3 (see FIG. 33).

  (36-5) The display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display. Here, it is detected that the display state of the display 303 has changed from non-display to display as a result of the display state of the display 303 being switched from non-display to display by a user operation input.

  (36-6) When the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display, the display state detection unit 701 notifies the communication control unit 3501 of a screen ON notification.

  (36-7) When receiving the screen ON notification, the communication control unit 3501 controls the communication unit 703 to start a scanning operation for searching for the access point APi. In the example of FIG. 36, as a result of the scanning operation being performed, the access point AP3 having the BSSID “BSSID-C1” is searched.

  Here, it is assumed that the ESSID “ESSID-C” of the search AP (access point AP3) is not registered in the connection AP table 400. In this case, connection processing to the search AP is not performed.

  (36-8) The communication control unit 3501 searches for neighboring access point information in which the BSSID “BSSID-C1” of the search AP (access point AP3) is set in the BSSID field of the neighboring AP table 3400. Here, the neighborhood access point information is searched. In this case, the communication control unit 3501 sets the cycle T of the scanning operation for searching for the access point APi by the communication unit 703 to the cycle T1. In the example of FIG. 36, 20 seconds is set as the cycle T1.

  Here, it is assumed that the access point AP1 (see FIG. 33) having the ESSID “ESSID-A” is searched as a result of the scanning operation of the access point APi at intervals of 20 seconds. Further, it is assumed that the ESSID “ESSID-A” of the search AP (access point AP1) is registered in the connection AP table 400.

  (36-9) The communication control unit 3501 stops the scanning operation of the access point APi by the communication unit 703 because the ESSID “ESSID-A” of the search AP (access point AP1) is registered in the connection AP table 400. . Further, the communication control unit 3501 controls the communication unit 703 to perform a connection process to the search AP (access point AP1).

(Registration example of BSSID of neighboring AP)
Next, a registration example of BSSIDs of neighboring APs in the neighboring AP table 3400 will be described with reference to FIGS. 37 and 38. FIG.

  FIG. 37 is an explanatory diagram of a first registration example of BSSIDs of neighboring APs. In FIG. 37, it is assumed that the mobile terminal apparatus 101 can wirelessly communicate with the access points AP1, AP2, AP7, AP8, and the mobile terminal apparatus 101 is connected to the access point AP1 for the first time. Further, it is assumed that a scan result 3700 is acquired by a scan operation performed prior to connection with the access point AP1.

  Here, the scan result 3700 includes the ESSID and BSSID of the access points AP2, AP7, AP8 together with the ESSID and BSSID of the access point AP1. In this case, first, the communication control unit 3501 sets the ESSID and BSSID of the access point AP1 included in the scan result 3700 in the ESSID field and BSSID field in the neighboring AP table 3400.

  Next, the communication control unit 3501 sets the BSSIDs of the access points AP1, AP2, AP7, AP8 included in the scan result 3700 in the neighboring AP field in the neighboring AP table 3400. As a result, the neighboring access point information 3400-1 is stored as a record. Note that the BSSID of the access point AP1 that is the connected AP may not be set in the neighboring AP field.

  FIG. 38 is an explanatory diagram of a second registration example of BSSIDs of neighboring APs. In FIG. 38, it is assumed that the connection between the mobile terminal device 101 and the access point AP1 is disconnected (out of service area) as a result of the user moving in the direction of the arrow L. Further, it is assumed that a scan result 3800 is acquired by a scan operation performed within a predetermined time W (here, within 1 minute) after the connection with the access point AP1 is disconnected.

  Here, the scan result 3800 includes the ESSID and BSSID of the access point AP3. In this case, the communication control unit 3501 sets the BSSID of the access point AP3 in the neighboring AP field in the neighboring AP table 3400 corresponding to the ESSID of the access point AP1 that has been disconnected. As a result, the BSSID of the access point AP3 is added as the BSSID of the neighboring AP of the access point AP1.

(Example of registration process of mobile terminal apparatus 101)
Next, an example of registration processing of the mobile terminal apparatus 101 according to the second embodiment will be described with reference to FIG. In the following description, a part of the registration process of the mobile terminal device 101 may be omitted.

  FIG. 39 is an explanatory diagram of an example of registration processing of the mobile terminal device 101 according to the second embodiment. 39, (39-1) the communication control unit 3501 accepts an out-of-service notification from the communication unit 703 when the connection with the connection AP is disconnected. The out-of-service notification is a notification indicating that the connection with the connection AP has been disconnected. In the example of FIG. 39, an out-of-service notification indicating that the connection with the access point AP1 has been disconnected is accepted.

  (39-2) The communication control unit 3501 starts an out-of-service timer when receiving an out-of-service notification. The out-of-service timer is a timer that measures an elapsed time since reception of the out-of-service notification. In addition, when the communication control unit 3501 receives an out-of-service notification, the communication control unit 3501 controls the communication unit 703 to start a scanning operation for searching for an access point APi.

  In the example of FIG. 39, as a result of the scanning operation being performed within a certain time W (in this case, within one minute) after receiving the out-of-service notification, the access point AP3 having the BSSID “BSSID-C1” is searched. Here, it is assumed that the ESSID “ESSID-C” of the search AP (access point AP3) is not registered in the connection AP table 400 (see FIG. 4). In this case, connection processing to the search AP is not performed.

  (39-3) The communication control unit 3501 sets the BSSID “BSSID-C1” of the access point AP3 included in the scan result to the neighboring AP field in the neighboring AP table 3400 corresponding to the ESSID of the disconnected access point AP1. Add to

  (39-4) Even if the communication control unit 3501 acquires the scan result including the BSSID “BSSID-C1” within a certain time W after receiving the out-of-service notification, the communication control unit 3501 receives the BSSID “ Registration of “BSSID-C1” is not performed.

  (39-5) Even if the communication control unit 3501 acquires the scan result including the BSSID “BSSID-D1” after the elapse of a predetermined time W after the reception of the out-of-service notification, the BSSID “BSSID-D1” to the neighboring AP table 3400 is acquired. Do not register.

(Various processing procedures of the mobile terminal device 101)
Next, a control processing procedure of the mobile terminal apparatus 101 according to the second embodiment will be described. However, the period T1 of the scanning operation for searching for the access point APi is “T1 = 20 [s]”, and the period T2 is “T2 = 150 [s]”.

<Control processing procedure>
FIG. 40 is a flowchart of an example of a control processing procedure of the mobile terminal apparatus 101 according to the second embodiment. In the flowchart of FIG. 40, first, the communication control unit 3501 determines whether a screen ON notification has been received from the display state detection unit 701 (step S4001).

  Here, the communication control unit 3501 waits to receive a screen ON notification (step S4001: No). When the communication control unit 3501 receives a screen ON notification (step S4001: Yes), the communication control unit 3501 controls the communication unit 703 to start a periodic scan operation for searching for an access point APi (step S4002). As a result, the scanning operation is repeated at the period T.

  Next, the communication control unit 3501 acquires a scan result from the communication unit 703 (step S4003). Then, the communication control unit 3501 determines whether or not the ESSID of the search AP is registered in the connection AP table 400 (step S4004).

  If the ESSID of the search AP is registered (step S4004: Yes), the communication control unit 3501 executes a connection process with the search AP (step S4005), and ends a series of processes according to this flowchart. .

  On the other hand, when the ESSID of the search AP is not registered (step S4004: No), the communication control unit 3501 determines whether or not the BSSID of the search AP is registered in the neighbor AP field of the neighbor AP table 3400 ( Step S4006).

  If the BSSID of the search AP is not registered (step S4006: No), the communication control unit 3501 sets the scan operation period T for searching for the access point APi to 150 [s] (step S4007). Then, a series of processes according to this flowchart is finished.

  On the other hand, when the BSSID of the search AP is registered (step S4006: Yes), the communication control unit 3501 sets the scan operation cycle T for searching for the access point APi to 20 [s] (step S4008). A series of processing by this flowchart is complete | finished.

  Thereby, when it can be determined that the connected AP exists in the vicinity of the mobile terminal apparatus 101, the scanning operation can be performed at intervals of 20 seconds. When it can be determined that there is no connected AP in the vicinity of the mobile terminal device 101, the scanning operation can be performed at intervals of 150 seconds.

<First Registration Processing Procedure>
Next, a first registration processing procedure of the mobile terminal apparatus 101 according to the second embodiment will be described. The first registration process is a process of registering the BSSID of the neighboring AP in the neighboring AP table 3400 when connected to the access point APi.

  FIG. 41 is a flowchart of an example of a first registration process procedure of the mobile terminal apparatus 101 according to the second embodiment. In the flowchart of FIG. 41, first, the communication control unit 3501 determines whether or not the connection to the access point APi has been completed (step S4101).

  Here, the communication control unit 3501 waits for the connection to the access point APi to be completed (step S4101: No). Then, when the connection to the access point APi is completed (step S4101: Yes), the communication control unit 3501 acquires the scan result acquired immediately before connection to the access point APi (step S4102).

  Next, the communication control unit 3501 determines whether or not the BSSID of the connected AP is registered in the BSSID field of the neighboring AP table 3400 (step S4103). If the BSSID of the connected AP is not registered (step S4103: No), the communication control unit 3501 registers the ESSID and BSSID of the connected AP in the ESSID field and BSSID field of the neighboring AP table 3400 (step S4104). ).

  Then, the communication control unit 3501 registers the BSSID included in the scan result in the BSSID field corresponding to the ESSID and BSSID of the connected AP in the neighboring AP table 3400 (step S4105), and ends the series of processes according to this flowchart. To do.

  In step S4103, when the BSSID of the connected AP is registered (step S4103: Yes), the communication control unit 3501 selects an unselected BSSID included in the scan result (step S4106). Then, the communication control unit 3501 determines whether or not the selected BSSID is registered as a neighboring AP of the connected AP with reference to the neighboring AP table 3400 (step S4107).

  If it is registered as a nearby AP of the connected AP (step S4107: Yes), the communication control unit 3501 proceeds to step S4109. On the other hand, if not registered as a neighboring AP of the connected AP (step S4107: No), the communication control unit 3501 registers the selected BSSID in the BSSID field corresponding to the ESSID and BSSID of the connected AP in the neighboring AP table 3400. (Step S4108).

  Then, the communication control unit 3501 determines whether there is an unselected BSSID that is not selected from the scan result (step S4109). If there is an unselected BSSID (step S4109: YES), the communication control unit 3501 returns to step S4106. On the other hand, when there is no unselected BSSID (step S4109: No), the communication control unit 3501 ends the series of processes according to this flowchart.

  Thereby, the BSSID of the neighboring AP existing in the vicinity of the connected AP can be registered in the neighboring AP table 3400 when connected to the access point APi.

<Second registration processing procedure>
Next, a second registration processing procedure of the mobile terminal device 101 according to the second embodiment will be described. The second registration process is a process of registering the BSSID of the neighboring AP in the neighboring AP table 3400 when the connection with the connected AP is disconnected. However, the fixed time W is “1 [minute]”.

  FIG. 42 is a flowchart of an example of a second registration process procedure of the mobile terminal apparatus 101 according to the second embodiment. In the flowchart of FIG. 42, first, the communication control unit 3501 determines whether or not an out-of-service notification has been received from the communication unit 703 (step S4201). The out-of-service notification includes, for example, the ESSID and BSSID of the connection AP that has been disconnected.

  Here, the communication control unit 3501 waits to receive an out-of-service notification (step S4201: No). If the communication control unit 3501 receives an out-of-service notification (step S4201: Yes), the communication control unit 3501 starts a periodic scan operation for searching for an access point APi (step S4202) and starts an out-of-service timer (step S4203). .

  Next, the communication control unit 3501 determines whether or not the out-of-service timer has elapsed for 1 minute (step S4204). If the out-of-service timer has not elapsed for one minute (step S4204: NO), the communication control unit 3501 determines whether a scan result has been acquired from the communication unit 703 (step S4205).

  If the scan result has not been acquired (step S4205: NO), the communication control unit 3501 returns to step S4204. On the other hand, when the scan result is acquired (step S4205: Yes), the communication control unit 3501 selects an unselected BSSID included in the scan result (step S4206).

  Then, the communication control unit 3501 determines whether or not the selected BSSID is registered as a neighboring AP of the connected AP that has been disconnected with reference to the neighboring AP table 3400 (step S4207). If the connection AP is registered as a neighboring AP of the disconnected AP (step S4207: YES), the communication control unit 3501 proceeds to step S4209.

  On the other hand, when the connection AP is not registered as a neighboring AP of the disconnected AP (step S4207: No), the communication control unit 3501 corresponds to the ESSID and BSSID of the connected AP in the neighboring AP table 3400 that has been disconnected. The selected BSSID is registered in the BSSID field to be executed (step S4208).

  Then, the communication control unit 3501 determines whether there is an unselected BSSID not selected from the scan result (step S4209). If there is an unselected BSSID (step S4209: YES), the communication control unit 3501 returns to step S4206. On the other hand, when there is no unselected BSSID (step S4209: No), the communication control unit 3501 returns to step S4204.

  In step S4204, when the out-of-service timer has elapsed for 1 minute (step S4204: Yes), the communication control unit 3501 ends the series of processes according to this flowchart. Thereby, the range in which the access point APi is searched in the period T1 is widened, and the connectivity to the connected AP can be improved.

  As described above, according to the mobile terminal apparatus 101 according to the second embodiment, when a connected AP exists in the vicinity of the mobile terminal apparatus 101, the scanning operation is performed at a relatively short time interval of about 20 seconds. Connectivity to the available access point APi can be improved.

  Further, according to the mobile terminal apparatus 101, when there is no connected AP in the vicinity of the mobile terminal apparatus 101, the scanning operation can be performed at a relatively long time interval of about 150 seconds, and the access point APi is scanned. Power consumption for operation can be suppressed.

  Further, according to the mobile terminal apparatus 101, the BSSID included in the scan result acquired when connecting to the connected AP can be registered in the neighboring AP table 3400 as the BSSID of the neighboring AP existing in the vicinity of the connected AP.

  Further, according to the mobile terminal apparatus 101, the BSSID included in the scan result acquired within a predetermined time W after the connection with the connected AP is disconnected is used as the BSSID of the neighboring AP existing in the vicinity of the connected AP. It can be registered in the table 3400. Thereby, the range in which the access point APi is searched in the period T1 is widened, and the connectivity to the connected AP can be improved.

(Embodiment 3)
Next, the mobile terminal apparatus 101 according to the third embodiment will be described. Note that description of parts similar to those described in the first and second embodiments is omitted.

  FIG. 43 is an explanatory diagram of an example of the control method according to the third embodiment. 43, mobile terminal apparatus 101 has neighboring access point information 3301 and can wirelessly communicate with access point APi (in the example of FIG. 43, access points AP1 to AP9). Of the access points AP1 to AP9, the access point AP1 is an access point connected to the network 210 (see FIG. 2) from the mobile terminal apparatus 101. Further, the access points AP2, AP3, AP7 to AP9 are neighboring APs existing in the vicinity of the access point A1.

  The mobile terminal apparatus 101 performs a scan operation for searching for an access point APi based on a detection result indicating whether the mobile terminal apparatus has moved and a determination result indicating whether an entry corresponding to the BSSID of the search AP has been searched from the nearby access point information 3301 The period T is controlled.

  Hereinafter, an operation example of the mobile terminal apparatus 101 according to the third embodiment will be described. However, the neighbor access point information 3301 is associated with the BSSID of the access point AP1, which is the connected AP, and the BSSIDs of the access points AP2, AP3, AP7 to AP9, which are neighboring APs in the vicinity of the access point AP1. Assuming that

  (43-1) If the mobile terminal apparatus 101 detects the movement of its own apparatus and no entry corresponding to the BSSID of the search AP is found, the mobile terminal apparatus 101 sets the cycle T of the scan operation for searching for the access point APi to the period T2. Set to. That is, when the user is moving, the mobile terminal apparatus 101 sets the scanning operation cycle T to a relatively long time interval of about 150 seconds when the user is not moving and is not located near the connected AP.

  (43-2) The mobile terminal apparatus 101 stops the scanning operation for searching for the access point APi when detecting the stop of the mobile terminal apparatus 101 and no entry corresponding to the BSSID of the search AP is found. That is, the mobile terminal apparatus 101 stops the scanning operation when the user is stopped and not located near the connected AP.

  (43-3) The mobile terminal apparatus 101 detects the stop of its own apparatus, and when an entry corresponding to the BSSID of the search AP is searched, the period T of the scan operation for searching for the access point APi is set to the period T2. Set. That is, even when the mobile terminal apparatus 101 is located in the vicinity of the connected AP, when the user is stopped, the scanning operation cycle T is set to a relatively long time interval of about 150 seconds.

  (43-4) The mobile terminal apparatus 101 detects the movement of its own apparatus, and when an entry corresponding to the BSSID of the search AP is searched, the period T of the scan operation for searching for the access point APi is set to the period T1. Set. That is, when the user is moving and located in the vicinity of the connected AP, the mobile terminal apparatus 101 sets the scan operation cycle T to a relatively short time interval of about 20 seconds.

  As described above, according to the mobile terminal device 101, even when the user is moving, if the user is not located near the connected AP, the period T of the scanning operation is set to a relatively long time interval of about 150 seconds. be able to. Thereby, it is possible to suppress power consumption required for the scanning operation of the access point APi while ensuring connectivity to the available access point APi.

  Further, according to the mobile terminal device 101, when the user is stopped and not located near the connected AP, the scanning operation can be stopped. As a result, even when the scanning operation of the access point APi is continued, the scanning operation in a situation where the possibility of connecting to the access point APi is low is stopped, and the power consumption required for the scanning operation of the access point APi can be suppressed. .

  Also, according to the mobile terminal apparatus 101, even when the user is in the vicinity of the connected AP, the scan operation cycle T can be set to a relatively long time interval of about 150 seconds. it can. Thereby, it is possible to suppress power consumption required for the scanning operation of the access point APi while ensuring connectivity to the available access point APi.

  Also, according to the mobile terminal device 101, when the user is moving and located in the vicinity of the connected AP, the scanning operation cycle T can be set to a relatively short time interval of about 20 seconds. Connectivity to possible access points APi can be increased.

(Functional configuration example of mobile terminal apparatus 101)
FIG. 44 is a block diagram of a functional configuration example of the mobile terminal apparatus 101 according to the third embodiment. In FIG. 44, the mobile terminal apparatus 101 includes a display state detection unit 701, a movement detection unit 702, a communication unit 703, and a communication control unit 4401. Specifically, each functional unit, for example, causes the CPU 301 to execute a program stored in the memory 302 illustrated in FIG. 3, or hardware such as the public network I / F 305, the WLAN I / F 306, and the sensor 310. The function is realized by hardware. The processing result of each functional unit is stored in the memory 302, for example. In addition, about the functional part same as the functional part of the mobile terminal device 101 concerning Embodiment 1, 2, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The communication control unit 4401 has a function of controlling the cycle T of the scanning operation for searching for the access point APi. Specifically, for example, when the access point APi is searched, the communication control unit 4401 has a neighbor access point in which the BSSID of the searched AP is set in the BSSID field of the neighbor AP table 3400 shown in FIG. Search for information.

  For example, when the access point APi is searched, the communication control unit 4401 determines whether or not the mobile terminal device 101 is moving. More specifically, for example, when the access point APi is searched, the communication control unit 4401 notifies the movement detection unit 702 of a movement / stop detection request. The movement / stop detection request is for requesting detection of movement of the mobile terminal apparatus 101. The communication control unit 4401 determines that the mobile terminal apparatus 101 is moving when the movement detection notification is received from the movement detection unit 702. On the other hand, when receiving a stop detection notification from the movement detection unit 702, the communication control unit 4401 determines that the mobile terminal device 101 is not moving, that is, the mobile terminal device 101 is stopped.

  Then, when the communication control unit 4401 searches for nearby access point information and determines that the mobile terminal device 101 is not moving, the communication control unit 4401 sets the cycle T of the scanning operation for searching for the access point APi by the communication unit 703 as the cycle T2. Set to. The period T2 is set to a relatively long time interval of about 150 seconds, for example.

  As a result, even when a connected AP exists in the vicinity of the mobile terminal apparatus 101, when the user is not moving, the scanning operation can be performed at a relatively long time interval of about 150 seconds, and the scanning operation of the access point APi Power consumption can be suppressed.

  In addition, when the communication control unit 4401 searches for the nearby access point information and determines that the mobile terminal device 101 is moving, the communication control unit 4401 sets the cycle T of the scanning operation for searching for the access point APi by the communication unit 703 as the cycle T1. Set to. The period T1 is set to a relatively short time interval of about 20 seconds, for example.

  As a result, when there is a connected AP in the vicinity of the mobile terminal device 101 and the user is moving, a scanning operation can be performed at a relatively short time interval of about 20 seconds, and an available access point Connectivity to APi can be improved.

  In addition, when the communication control unit 4401 determines that the nearby access point information is not searched and the mobile terminal apparatus 101 is moving, the communication control unit 4401 sets a cycle T of the scanning operation for searching for the access point APi by the communication unit 703. Set to T2. As a result, even when the user is moving, if there is no connected AP in the vicinity, the scanning operation can be performed at a relatively long time interval of about 150 seconds, and the connectivity to the available access point APi is ensured. However, power consumption for the scan operation can be suppressed.

  If the communication control unit 4401 determines that the nearby access point information is not searched and the mobile terminal apparatus 101 is not moving, the communication control unit 4401 stops the scanning operation for searching for the access point APi by the communication unit 703. As a result, even when the scanning operation of the access point APi is continued, the scanning operation in a situation where the possibility of connecting to the access point APi is low is stopped, and the power consumption required for the scanning operation of the access point APi can be suppressed. .

  Further, the communication control unit 4401 may perform the scanning operation at a time interval longer than the cycle T2 when it is determined that the nearby access point information is not searched and the mobile terminal apparatus 101 is not moving. Thereby, even in a situation where the possibility of connecting to the access point APi is low, the power consumption for the scanning operation can be suppressed while ensuring the connectivity to the available access point APi.

(Control processing example of mobile terminal apparatus 101)
Next, an example of control processing of the mobile terminal apparatus 101 according to the third embodiment will be described with reference to FIG. In the following description, some of the control processes of the mobile terminal apparatus 101 may be omitted.

  FIG. 45 is an explanatory diagram of a control process example of the mobile terminal device 101 according to the third embodiment. 45, (45-1) the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display. Here, it is detected that the display state of the display 303 has changed from non-display to display as a result of the display state of the display 303 being switched from non-display to display by a user operation input.

  (45-2) When the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display, the display state detection unit 701 notifies the communication control unit 4401 of a screen ON notification.

  (45-3) When receiving the screen ON notification, the communication control unit 4401 controls the communication unit 703 to start a scanning operation for searching for the access point APi. In the example of FIG. 45, as a result of the scan operation being performed, the access point AP6 (see FIG. 43) with the BSSID “BSSID-F1” is searched.

  Here, it is assumed that the ESSID “ESSID-F” of the search AP (access point AP6) is not registered in the connection AP table 400 (see FIG. 4). In this case, connection processing to the search AP is not performed. Further, it is assumed that the BSSID “BSSID-F1” of the search AP (access point AP6) is not set in the BSSID field of the neighboring AP table 3400 (see FIG. 34). In this case, the neighboring access point information in which the BSSID “BSSID-F1” of the search AP (access point AP6) is set is not searched.

  (45-4) The communication control unit 4401 notifies the movement detection unit 702 of a movement / stop detection request.

  (45-5) The movement detection unit 702 detects the movement of the mobile terminal apparatus 101 when receiving the movement / stop detection request. Here, it is assumed that the movement of the mobile terminal device 101 is not detected. In this case, the movement detection unit 702 notifies the communication control unit 4401 of a stop detection notification.

  (45-6) If the communication control unit 4401 does not search for neighboring access point information in which the BSSID “BSSID-F1” of the search AP (access point AP6) is set and receives a stop detection notification, the communication control unit 4401 The APi scanning operation is stopped.

  Here, it is assumed that the user of the mobile terminal device 101 turns off the screen and moves from the communication area of the access point AP6 to the communication area of the access point AP3 (see FIG. 43).

  (45-7) The display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display. Here, it is detected that the display state of the display 303 has changed from non-display to display as a result of the display state of the display 303 being switched from non-display to display by a user operation input.

  (45-8) When the display state detection unit 701 detects that the display state of the display 303 has transitioned from non-display to display, the display state detection unit 701 notifies the communication control unit 4401 of a screen ON notification.

  (45-9) When the communication control unit 4401 receives a screen ON notification, the communication control unit 4401 controls the communication unit 703 to start a scanning operation for searching for an access point APi. In the example of FIG. 45, as a result of the scanning operation being performed, the access point AP3 (see FIG. 43) of the BSSID “BSSID-C1” is searched.

  Here, it is assumed that the ESSID “ESSID-C” of the search AP (access point AP3) is not registered in the connection AP table 400. In this case, connection processing to the search AP is not performed. Further, it is assumed that the BSSID “BSSID-C1” of the search AP (access point AP3) is set in the BSSID field of the neighboring AP table 3400. In this case, the neighboring access point information in which the BSSID “BSSID-C1” of the search AP (access point AP3) is set is searched.

  (45-10) The communication control unit 4401 notifies the movement detection unit 702 of a movement / stop detection request.

  (45-11) The movement detection unit 702 detects the movement of the mobile terminal apparatus 101 when a movement / stop detection request is received. Here, it is assumed that movement of the mobile terminal apparatus 101 is detected. In this case, the movement detection unit 702 notifies the communication control unit 4401 of a movement detection notification.

  (45-12) The communication control unit 4401 searches for the nearby access point information in which the BSSID “BSSID-F1” of the search AP (access point AP3) is set and receives a movement detection notification. The period T is set to the period T1. In the example of FIG. 45, 20 seconds is set as the period T.

  Here, it is assumed that the access point AP1 (see FIG. 43) having the ESSID “ESSID-A” is searched as a result of the scanning operation of the access point APi at intervals of 20 seconds. Further, it is assumed that the ESSID “ESSID-A” of the search AP (access point AP1) is registered in the connection AP table 400.

  (45-13) Since the ESSID “ESSID-A” of the search AP (access point AP1) is registered in the connection AP table 400, the communication control unit 4401 stops the scanning operation of the access point APi by the communication unit 703. . In addition, the communication control unit 4401 controls the communication unit 703 to perform connection processing to the search AP (access point AP1).

(Control processing procedure of mobile terminal apparatus 101)
Next, a control processing procedure of the mobile terminal apparatus 101 according to the third embodiment will be described. However, the period T1 of the scanning operation for searching for the access point APi is “T1 = 20 [s]”, and the period T2 is “T2 = 150 [s]”.

  FIG. 46 is a flowchart of an example of a control processing procedure of the mobile terminal apparatus 101 according to the third embodiment. In the flowchart of FIG. 46, first, the communication control unit 4401 determines whether a screen ON notification has been received from the display state detection unit 701 (step S4601).

  Here, the communication control unit 4401 waits to receive a screen ON notification (step S4601: No). If the communication control unit 4401 receives a screen ON notification (step S4601: YES), the communication control unit 4401 controls the communication unit 703 to start a scanning operation for searching for the access point APi (step S4602).

  Next, the communication control unit 4401 acquires a scan result from the communication unit 703 (step S4603). Then, the communication control unit 4401 determines whether or not the ESSID of the search AP is registered in the connection AP table 400 (step S4604). If the ESSID of the search AP is registered (step S4604: YES), the communication control unit 4401 executes connection processing with the search AP (step S4605), and ends a series of processing according to this flowchart. .

  On the other hand, when the ESSID of the search AP is not registered (step S4604: NO), the communication control unit 4401 notifies the movement detection unit 702 of a movement / stop detection request (step S4606). Then, the communication control unit 4401 determines whether or not the BSSID of the search AP is registered in the neighbor AP field of the neighbor AP table 3400 (step S4607).

  If the BSSID of the search AP is not registered (step S4607: NO), the communication control unit 4401 determines whether a movement detection notification has been received from the movement detection unit 702 (step S4608). If the movement detection notification has not been received (step S4608: No), the communication control unit 4401 determines whether a stop detection notification has been received from the movement detection unit 702 (step S4609).

  Here, when the stop detection notification is not received (step S4609: No), the communication control unit 4401 returns to step S4608. On the other hand, when the stop detection notification is received (step S4609: Yes), the communication control unit 4401 stops the scanning operation for searching for the access point APi by the communication unit 703 (step S4610), and performs a series of processes according to this flowchart. finish.

  If the movement detection notification is received in step S4608 (step S4608: Yes), the communication control unit 4401 sets the scan operation cycle T for searching for the access point APi to 150 [s] (step S4611). Then, a series of processes according to this flowchart is finished.

  In step S4607, when the BSSID of the search AP is registered (step S4607: Yes), the communication control unit 4401 determines whether a movement detection notification has been received from the movement detection unit 702 (step S4612). If the movement detection notification has not been received (step S4612: No), the communication control unit 4401 determines whether a stop detection notification has been received from the movement detection unit 702 (step S4613).

  If the stop detection notification has not been received (step S4613: NO), the communication control unit 4401 returns to step S4612. On the other hand, when a stop detection notification is received (step S4613: YES), the communication control unit 4401 proceeds to step S4611.

  If the movement detection notification is received in step S4612 (step S4612: Yes), the communication control unit 4401 sets the scan operation cycle T for searching for the access point APi to 20 [s] (step S4614). Then, a series of processes according to this flowchart is finished.

  Thereby, based on the detection result of whether the own apparatus has moved and the determination result of whether the entry corresponding to the BSSID of the search AP has been searched from the nearby access point information 3301, the cycle T of the scan operation for searching for the access point APi Can be controlled.

  As described above, according to the mobile terminal apparatus 101 according to the third embodiment, when the search AP is a neighboring AP and the mobile terminal apparatus 101 is not moving, the scan operation for searching for the access point APi. The period T can be set to the period T2. As a result, even when a connected AP exists in the vicinity of the mobile terminal apparatus 101, when the user is not moving, the scanning operation can be performed at a relatively long time interval of about 150 seconds, and the scanning operation of the access point APi Power consumption can be suppressed.

  Also, according to the mobile terminal device 101, when the search AP is a nearby AP and the mobile terminal device 101 is moving, the scan operation cycle T for searching for the access point APi is set to the cycle T1. Can do. As a result, when there is a connected AP in the vicinity of the mobile terminal device 101 and the user is moving, a scanning operation can be performed at a relatively short time interval of about 20 seconds, and an available access point Connectivity to APi can be improved.

  Also, according to the mobile terminal device 101, when the search AP is not a nearby AP and the mobile terminal device 101 is moving, the scan operation cycle T for searching for the access point APi is set to the cycle T2. Can do. As a result, even when the user is moving, if there is no connected AP in the vicinity, the scanning operation can be performed at a relatively long time interval of about 150 seconds, and the connectivity to the available access point APi is ensured. However, power consumption for the scan operation can be suppressed.

  Also, according to the mobile terminal device 101, when the search AP is not a nearby AP and the mobile terminal device 101 is not moving, the scanning operation for searching for the access point APi can be stopped. As a result, even when the scanning operation of the access point APi is continued, the scanning operation in a situation where the possibility of connecting to the access point APi is low is stopped, and the power consumption required for the scanning operation of the access point APi can be suppressed. .

(Embodiment 4)
Next, the mobile terminal apparatus 101 according to the fourth embodiment will be described. In the fourth embodiment, the BSSID of the neighboring AP is managed in association with the Cell-ID. In addition, description is abbreviate | omitted about the location similar to the location demonstrated in Embodiment 1-3.

(Storage contents of connection result table 4700)
First, the connection performance table 4700 used by the mobile terminal device 101 will be described. The connection performance table 4700 is realized by, for example, the memory 302 illustrated in FIG.

  FIG. 47 is an explanatory diagram of an example of the contents stored in the connection performance table 4700. In FIG. 47, the connection performance table 4700 has fields of Cell-ID, ESSID, and last connection time. By setting information in each field, connection record information (for example, connection record information 4700-1) is stored as a record.

  Cell-ID is area identification information for identifying the cell Cj of the base station BSj of the mobile communication network. The ESSID is identification information of an access point APi that has a track record of connection of the mobile terminal device 101 in the cell Cj. The last connection time indicates the date and time when the mobile terminal apparatus 101 last connected to the access point APi in the cell Cj.

  For example, according to the connection record information 4700-1, in the cell C1 of the base station BS1, the date and time “March 2, 2011, 9:00:00” when the mobile terminal device 101 last connected to the access point AP1 is specified. Can do.

  Note that the final connection time is updated each time the connection to the access point APi is completed, for example. Specifically, for example, when the connection to the access point APi is completed, the mobile terminal apparatus 101 determines from the connection record table 4700 that the Cell-ID of the cell Cj to which the own apparatus belongs and the ESSID of the access point APi that has been connected. Search connection information corresponding to the combination. Then, the mobile terminal apparatus 101 overwrites the connection time to the access point APi in the final connection time field of the retrieved connection record information.

  If connection result information is not retrieved from the connection result table 4700, the mobile terminal apparatus 101 newly registers connection result information in the connection result table 4700. Specifically, for example, the mobile terminal apparatus 101 sets the Cell-ID of the cell Cj to which the own apparatus belongs, the ESSID of the access point APi that has completed the connection, and the connection time in each field in the connection record table 4700.

  In the above description, the case where the ESSID of the access point APi is used as the identification information of the access point APi has been described. However, the present invention is not limited to this. For example, the BSSID of the access point APi may be used as the identification information.

(Functional configuration example of mobile terminal apparatus 101)
FIG. 48 is a block diagram of a functional configuration example of the mobile terminal apparatus 101 according to the fourth embodiment. 48, the mobile terminal apparatus 101 includes a display state detection unit 701, a movement detection unit 702, a first communication unit 4801, a second communication unit 4802, an acquisition unit 4803, a determination unit 4804, a communication And a control unit 4805. Specifically, each functional unit, for example, causes the CPU 301 to execute a program stored in the memory 302 illustrated in FIG. 3, or hardware such as the public network I / F 305, the WLAN I / F 306, and the sensor 310. The function is realized by hardware. The processing result of each functional unit is stored in the memory 302, for example. In addition, about the functional part same as the functional part of the mobile terminal device 101 concerning Embodiment 1-3, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The first communication unit 4801 has a function of communicating with the access point APi. Specifically, for example, the first communication unit 4801 connects to the network 210 via the access point APi. The first communication unit 4801 corresponds to the communication unit 703 described above.

  The second communication unit 4802 has a function of communicating with the base station BSj. Specifically, for example, the second communication unit 4802 periodically transmits base station information including the Cell-ID of the cell Cj from the communicable base station BSj among the base stations BS1 to BSm (for example, 2.56 [ Every second]. For example, when the Cell-ID included in the received base station information is different from the Cell-ID included in the previously received base station information, the mobile terminal device 101 communicates with the base station BSj to Perform location registration.

  Acquisition unit 4803 has a function of acquiring Cell-ID for identifying cell Cj to which the own apparatus belongs among cells C1 to Cm of base stations BS1 to BSm. Specifically, for example, the acquisition unit 4803 acquires the Cell-ID included in the base station information received by the second communication unit 4802 as the Cell-ID of the cell Cj to which the own device belongs.

  Further, there may be a plurality of base stations with which the mobile terminal apparatus 101 can communicate among the base stations BS1 to BSm. In this case, for example, the acquisition unit 4803 uses the Cell-ID included in the base station information of the base station having the maximum radio wave intensity among a plurality of communicable base stations to identify the cell Cj to which the own device belongs. You may decide to acquire as ID.

  The determination unit 4804 has a function of determining whether or not there is a connection record to the access point APi in the cell Cj to which the own device belongs. Here, the connection result to the access point APi is a history indicating that the connection operation to the access point APi is completed.

  Specifically, for example, when the display state detection unit 701 detects that the display state of the display 303 has transitioned from non-display to display, the determination unit 4804 determines that the access point APi belongs to the cell Cj to which the own device belongs. It is determined whether there is a connection record. More specifically, for example, the determination unit 4804 refers to the connection performance table 4700 illustrated in FIG. 47 and determines that the ESSID of the access point APi stored in association with the Cell-ID acquired by the acquisition unit 4803 is stored. It is determined whether or not there is.

  If there is an ESSID of the access point APi, the determination unit 4804 determines that there is a connection record to the access point APi in the cell Cj to which the own device belongs. On the other hand, when there is no ESSID of the access point APi, the determination unit 4804 determines that there is no connection record to the access point APi in the cell Cj to which the own device belongs.

  The communication control unit 4805 has a function of controlling the cycle T of the scanning operation for searching for the access point APi based on the determination result determined by the determination unit 4804. Specifically, for example, when it is determined that there is no connection record to the access point APi, the communication control unit 4805 stops the scanning operation for searching for the access point APi by the first communication unit 4801.

  Further, for example, when it is determined that there is a connection record to the access point APi, the communication control unit 4805 sets the BSSID of the searched AP to be searched in the BSSID field of the neighboring AP table 3400 illustrated in FIG. Search for neighboring access point information. For example, when it is determined that there is a connection record to the access point APi, the communication control unit 4805 determines whether or not the mobile terminal device 101 is moving.

  If the communication control unit 4805 searches for nearby access point information and determines that the mobile terminal device 101 is not moving, the communication control unit 4805 sets the cycle T of the scanning operation for searching for the access point APi by the communication unit to the cycle T2. Set. If the communication control unit 4805 searches for nearby access point information and determines that the mobile terminal device 101 is moving, the communication control unit 4805 sets the cycle T of the scanning operation for searching for the access point APi by the communication unit to the cycle T1. Set.

  Further, when the communication control unit 4805 determines that the nearby access point information is not searched and the mobile terminal device 101 is moving, the communication control unit 4805 sets the cycle T of the scanning operation for searching for the access point APi by the communication unit to the cycle T2. Set to. If the communication control unit 4805 determines that the nearby access point information is not searched and the mobile terminal device 101 is not moving, the communication control unit 4805 stops the scanning operation for searching for the access point APi by the communication unit.

  Thereby, when there is a connection record to the access point APi in the cell Cj to which the own apparatus belongs, the cycle T of the scanning operation for searching for the access point APi can be controlled.

(Control processing example of mobile terminal apparatus 101)
Next, an example of control processing of the mobile terminal apparatus 101 according to the third embodiment will be described using FIG. 49 and FIG. In the following description, some of the control processes of the mobile terminal apparatus 101 may be omitted.

<First Control Processing Example>
FIG. 49 is an explanatory diagram of a first control processing example of the mobile terminal apparatus 101 according to the fourth embodiment. In FIG. 49, (49-1) the display state detection unit 701 detects that the display state of the display 303 has transitioned from non-display to display. Here, it is detected that the display state of the display 303 has changed from non-display to display as a result of the display state of the display 303 being switched from non-display to display by a user operation input.

  (49-2) When the determination unit 4804 detects that the display state of the display 303 has transitioned from non-display to display, the determination unit 4804 requests the acquisition unit 4803 to acquire the Cell-ID of the cell Cj to which the own device belongs. By doing this, the Cell-ID of the cell Cj to which the device belongs is obtained. In the example of FIG. 49, the Cell-ID “C1” of the cell C1 to which the own device belongs is acquired.

  (49-3) The determination unit 4804 reads the connection result table 4700 and determines whether or not there is a connection result to the access point APi in the cell Cj to which the own device belongs. In the example of FIG. 49, since the connection record information corresponding to the acquired Cell-ID “C1” has already been registered, it is determined that there is a connection record to the access point APi.

  (49-4) When the determination unit 4804 determines that there is a connection record to the access point APi in the cell Cj to which the own device belongs, the determination unit 4804 notifies the communication control unit 4805 of the ON setting request. The ON setting request is a request for starting a scanning operation for searching for the access point APi.

  (49-5) When the communication control unit 4805 receives an ON setting request from the determination unit 4804, the communication control unit 4805 controls the communication unit to start a scanning operation for searching for the access point APi. In the example of FIG. 49, as a result of the scanning operation being performed, the access point AP6 (see FIG. 43) with the BSSID “BSSID-F1” is searched.

  Here, it is assumed that the ESSID “ESSID-F” of the search AP (access point AP6) is not registered in the connection AP table 400 (see FIG. 4). In this case, connection processing to the search AP is not performed. Further, it is assumed that the BSSID “BSSID-F1” of the search AP (access point AP6) is not set in the BSSID field of the neighboring AP table 3400 (see FIG. 34). In this case, the neighboring access point information in which the BSSID “BSSID-F1” of the search AP (access point AP6) is set is not searched.

  (49-6) The communication control unit 4805 notifies the movement detection unit 702 of a movement / stop detection request.

  (49-7) The movement detection unit 702 detects the movement of the mobile terminal apparatus 101 when receiving the movement / stop detection request. Here, it is assumed that the movement of the mobile terminal device 101 is not detected. In this case, the movement detection unit 702 notifies the communication control unit 4805 of a stop detection notification.

  (49-8) When the communication control unit 4805 does not search for neighboring access point information in which the BSSID “BSSID-F1” of the search AP (access point AP6) is set and receives a stop detection notification, The APi scanning operation is stopped.

<Second Control Processing Example>
FIG. 50 is an explanatory diagram of a second control process example of the mobile terminal apparatus 101 according to the fourth embodiment. 50, (50-1) the display state detection unit 701 detects that the display state of the display 303 has changed from non-display to display. Here, it is detected that the display state of the display 303 has changed from non-display to display as a result of the display state of the display 303 being switched from non-display to display by a user operation input.

  (50-2) When the determination unit 4804 detects that the display state of the display 303 has transitioned from non-display to display, the determination unit 4804 sends a request to acquire the Cell-ID of the cell Cj to which the own device belongs to the acquisition unit 4803. By doing this, the Cell-ID of the cell Cj to which the device belongs is obtained. In the example of FIG. 50, the Cell-ID “C3” of the cell C1 to which the own device belongs is acquired.

  (50-3) The determination unit 4804 reads the connection result table 4700 and determines whether or not there is a connection result to the access point APi in the cell Cj to which the own device belongs. In the example of FIG. 50, since the connection record information corresponding to the acquired Cell-ID “C3” is unregistered, it is determined that there is no connection record to the access point APi.

  (50-4) If the determination unit 4804 determines that there is no record of connection to the access point APi in the cell Cj to which the own device belongs, the determination unit 4804 notifies the communication control unit 4805 of an OFF setting request. The OFF setting request is a request for stopping the scanning operation for searching for the access point APi.

  (50-5) When the communication control unit 4805 receives an OFF setting request from the determination unit 4804, the communication control unit 4805 controls the communication unit to stop the scanning operation for searching for the access point APi.

(Various processing procedures of the mobile terminal device 101)
Next, various processing procedures of the mobile terminal apparatus 101 according to the fourth embodiment will be described. First, a determination processing procedure for determining whether or not there is a connection record to the access point APi in the cell Cj to which the mobile terminal apparatus 101 belongs will be described.

  FIG. 51 is a flowchart of an example of a determination process procedure of the mobile terminal apparatus 101 according to the fourth embodiment. In the flowchart of FIG. 51, first, the determination unit 4804 determines whether a screen ON notification has been received from the display state detection unit 701 (step S5101).

  Here, the determination unit 4804 waits to receive a screen ON notification (step S5101: No). Then, when the determination unit 4804 receives a screen ON notification (step S5101: Yes), the determination unit 4804 makes a cell-ID acquisition request of the cell Cj to which the own device belongs to the acquisition unit 4803, whereby the cell to which the own device belongs. The Cell-ID of Cj is acquired (step S5102).

  Next, the determination unit 4804 refers to the connection result table 4700 based on the acquired Cell-ID, and determines whether or not there is a connection result to the access point APi in the cell Cj to which the own device belongs (step). S5103). Here, when there is a record of connection to the access point APi (step S5103: Yes), the determination unit 4804 notifies the communication control unit 4805 of an ON setting request (step S5104), and ends a series of processing according to this flowchart. To do.

  On the other hand, when there is no connection record to the access point APi (step S5103: No), the determination unit 4804 notifies the communication control unit 4805 of an OFF setting request (step S5105), and ends a series of processing according to this flowchart. . Thereby, it can be determined whether or not there is a connection record to the access point APi in the cell Cj to which the mobile terminal apparatus 101 belongs.

  Next, a control processing procedure of the mobile terminal apparatus 101 according to the fourth embodiment will be described. However, the period T1 of the scanning operation for searching for the access point APi is “T1 = 20 [s]”, and the period T2 is “T2 = 150 [s]”.

  FIG. 52 is a flowchart of an example of a control processing procedure of the mobile terminal apparatus 101 according to the fourth embodiment. In the flowchart of FIG. 52, first, the communication control unit 4805 determines whether an ON setting request has been received from the determination unit 4804 (step S5201). If an ON setting request is received (step S5201: YES), the communication control unit 4805 controls the communication unit to start a scanning operation for searching for an access point APi (step S5202).

  Next, the communication control unit 4805 acquires a scan result from the communication unit (step S5203). Then, the communication control unit 4805 determines whether or not the ESSID of the search AP is registered in the connection AP table 400 (step S5204). If the ESSID of the search AP is registered (step S5204: YES), the communication control unit 4805 executes connection processing with the search AP (step S5205), and ends a series of processing according to this flowchart. .

  On the other hand, if the ESSID of the search AP is not registered (step S5204: NO), the communication control unit 4805 notifies the movement detection unit 702 of a movement / stop detection request (step S5206). Then, the communication control unit 4805 determines whether or not the BSSID of the search AP is registered in the neighbor AP field of the neighbor AP table 3400 (step S5207).

  If the BSSID of the search AP is not registered (step S5207: NO), the communication control unit 4805 determines whether a movement detection notification has been received from the movement detection unit 702 (step S5208). If the movement detection notification has not been received (step S5208: NO), the communication control unit 4805 determines whether a stop detection notification has been received from the movement detection unit 702 (step S5209).

  If the stop detection notification has not been received (step S5209: NO), the communication control unit 4805 returns to step S5208. On the other hand, when the stop detection notification is received (step S5209: Yes), the communication control unit 4805 stops the scanning operation for searching for the access point APi by the communication unit (step S5210), and ends the series of processing according to this flowchart. To do.

  If the movement detection notification is received in step S5208 (step S5208: Yes), the communication control unit 4805 sets the scan operation period T for searching for the access point APi to 150 [s] (step S5211). Then, a series of processes according to this flowchart is finished.

  In step S5207, when the BSSID of the search AP is registered (step S5207: Yes), the communication control unit 4805 determines whether a movement detection notification is received from the movement detection unit 702 (step S5212). If the movement detection notification has not been received (step S5212: No), the communication control unit 4805 determines whether a stop detection notification has been received from the movement detection unit 702 (step S5213).

  Here, when the stop detection notification is not received (step S5213: No), the communication control unit 4805 returns to step S5212. On the other hand, when the stop detection notification is received (step S5213: YES), the communication control unit 4805 proceeds to step S5211.

  If the movement detection notification is received in step S5212 (step S5212: Yes), the communication control unit 4805 sets the scan operation cycle T for searching for the access point APi to 20 [s] (step S5214). Then, a series of processes according to this flowchart is finished.

  In step S5201, if the ON setting request is not received (step S5201: NO), the communication control unit 4805 determines whether an OFF setting request is received from the determination unit 4804 (step S5215). If the OFF setting request has not been received (step S5215: NO), the communication control unit 4805 returns to step S5201. On the other hand, when an OFF setting request is received (step S5215: YES), the communication control unit 4805 proceeds to step S5210.

  Thereby, when there is a connection record to the access point APi in the cell Cj to which the own apparatus belongs, the cycle T of the scanning operation for searching for the access point APi can be controlled. Further, when there is no connection result to the access point APi in the cell Cj to which the own device belongs, the scanning operation for searching for the access point APi can be stopped.

(Storage contents of neighborhood AP table 5300)
In the above description, the case where the BSSIDs of neighboring APs are managed using the ESSID and BSSID of the connected AP as shown in FIG. 34 is not limited to this. For example, the BSSID of the neighboring AP may be managed using the Cell-ID of the cell Cj instead of the ESSID and BSSID of the connected AP.

  FIG. 53 is an explanatory diagram of an example of the contents stored in the neighborhood AP table 5300. In FIG. 53, the neighboring AP table 5300 has fields of Cell-ID and neighboring AP. By setting information in each field, neighboring access point information (for example, neighboring access point information 5300-1) is stored as a record.

  Here, Cell-ID is area identification information for identifying the cell Cj of the base station BSj of the mobile communication network. The neighboring AP is the BSSID of the neighboring AP existing in the vicinity of the connected AP in the cell Cj. For example, according to the neighboring access point information 5300-1, BSSIDs “BSSID-A1”, “BSSID-B1”, “BSSID-C1”, “BSSID-G1” of neighboring APs existing in the vicinity of the connected AP in the cell C1. ”,“ BSSID-H1 ”and“ BSSID-I1 ”can be specified.

  Further, the determination unit 4804 may determine whether or not there is a connection record to the access point APi in the cell Cj to which the own device belongs by referring to the neighboring AP table 5300. Specifically, for example, the determination unit 4804 refers to the neighboring AP table 5300 and determines whether there is an ESSID of the access point APi stored in association with the Cell-ID acquired by the acquisition unit 4803. To do.

  When there is an ESSID of the access point APi, the determination unit 4804 determines that there is a connection record to the access point APi in the cell Cj to which the own device belongs. On the other hand, when there is no ESSID of the access point APi, the determination unit 4804 determines that there is no connection record to the access point APi in the cell Cj to which the own device belongs. In this case, the connection record table 4700 shown in FIG. 47 may not be used, and the usage amount of the memory 302 can be reduced.

(Registration procedure)
Next, a registration processing procedure for registering neighboring access point information in the neighboring AP table 5300 will be described.

  FIG. 54 is a flowchart of an example of a registration process procedure of the mobile terminal apparatus 101 according to the fourth embodiment. In the flowchart of FIG. 54, first, the communication control unit 4805 determines whether or not the connection to the access point APi has been completed (step S5401).

  Here, the communication control unit 4805 waits for the connection to the access point APi to be completed (step S5401: No). Then, when the connection to the access point APi is completed (step S5401: Yes), the communication control unit 4805 requests the acquisition unit 4803 to acquire the Cell-ID of the cell Cj to which the own device belongs. The Cell-ID of the cell Cj to which the device belongs is acquired (step S5402).

  Next, the communication control unit 4805 acquires the scan result acquired immediately before connection to the access point APi (step S5403). Then, the communication control unit 4805 determines whether or not the acquired Cell-ID is registered in the Cell-ID field of the neighboring AP table 5300 (Step S5404).

  Here, when the acquired Cell-ID is not registered (step S5404: No), the communication control unit 4805 registers the acquired Cell-ID in the Cell-ID field of the neighboring AP table 5300 (step S5405). . Then, the communication control unit 4805 registers the BSSID included in the scan result in the BSSID field corresponding to the acquired Cell-ID in the neighboring AP table 5300 (step S5406), and ends the series of processing according to this flowchart. .

  In Step S5404, when the acquired Cell-ID is registered (Step S5404: Yes), the communication control unit 4805 selects an unselected BSSID included in the scan result (Step S5407). Then, the communication control unit 4805 refers to the neighboring AP table 5300 and determines whether there is a combination of the acquired Cell-ID and the selected BSSID (step S5408).

  Here, when the combination of Cell-ID and BSSID exists (step S5408: Yes), the communication control part 4805 transfers to step S5410. On the other hand, when there is no combination of Cell-ID and BSSID (step S5408: No), the communication control unit 4805 registers the selected BSSID in the BSSID field corresponding to the acquired Cell-ID in the neighboring AP table 3400. (Step S5409).

  Then, the communication control unit 4805 determines whether there is an unselected BSSID that is not selected from the scan result (step S5410). If there is an unselected BSSID (step S5410: YES), the communication control unit 4805 returns to step S5407. On the other hand, when there is no unselected BSSID (step S5410: No), the communication control unit 4805 ends the series of processes according to this flowchart.

  Thereby, the BSSID of the neighboring AP existing in the cell Cj to which the mobile terminal apparatus 101 belongs can be registered in the neighboring AP table 5300 when connected to the access point APi.

  As described above, according to the mobile terminal apparatus 101 according to the fourth embodiment, when there is a connection record to the access point APi in the cell Cj to which the mobile terminal apparatus 101 belongs, the scan operation for searching for the access point APi is performed. The period T can be controlled. As a result, the control processing in the cell Cj with no connection record to the access point APi, that is, the cell Cj in which there is a low possibility that there is an available access point APi is suppressed, and the processing load on the mobile terminal apparatus 101 is reduced. be able to.

  The control method described in this embodiment can be realized by executing a program prepared in advance on a computer such as a personal computer or a workstation. This control program is recorded on a computer-readable recording medium such as a hard disk, a flexible disk, a CD-ROM, an MO, and a DVD, and is executed by being read from the recording medium by the computer. The control program may be distributed via a network such as the Internet.

101 mobile terminal device 701 display state detection unit 702 movement detection unit 703 communication unit 704, 3501, 4401, 4805 communication control unit 4801 first communication unit 4802 second communication unit 4803 acquisition unit 4804 determination unit

Claims (10)

A first communication unit for connecting to a network via an access point;
An entry in which access point identification information for identifying an access point connected to the network is associated with neighboring access point identification information for identifying a neighboring access point existing in the vicinity of the access point connected to the network A holding unit that holds neighboring access point information including a plurality of
When the first communication unit searches for an access point connected to the first network, an entry including neighboring access point identification information associated with the first access point identification information is searched from the neighboring access point information. A determination unit for determining whether or not
A mobile terminal apparatus comprising: a control unit that controls an access point search cycle by the first communication unit based on a result determined by the determination unit. The controller is
When the determination unit determines that an entry including neighboring access point identification information associated with the first access point identification information is retrieved from the neighboring access point information, the access point is searched for by the first communication unit. The mobile terminal apparatus according to claim 1, wherein the cycle is further shortened. The controller is
When the determination unit determines that an entry including the neighboring access point identification information associated with the first access point identification information is not searched from the neighboring access point information, the access point is searched for by the first communication unit. The mobile terminal apparatus according to claim 2, wherein the mobile terminal apparatus has a longer period or stops searching for an access point by the first communication unit. The mobile terminal device further includes
A movement detection unit for detecting movement of the mobile terminal device;
The determination unit determines that an entry including neighboring access point identification information associated with the first access point identification information is not searched from the neighboring access point information, and the movement detection unit When no movement is detected, the control unit makes the access point search cycle by the first communication unit longer or stops the access point search by the first communication unit. The mobile terminal device according to claim 1. The mobile terminal device further includes
A movement detection unit for detecting movement of the mobile terminal device;
The determination unit determines that an entry including neighboring access point identification information associated with the first access point identification information is not searched from the neighboring access point information, and the movement detection unit The mobile terminal apparatus according to claim 1, wherein, when movement is detected, the control unit sets an access point search cycle by the first communication unit to a predetermined cycle. The mobile terminal device further includes
A second communication unit for connecting to the base station;
A display state detection unit that detects a transition from a non-display state in which the screen is not displayed to a display state in which the screen is displayed;
A storage unit for storing connection history information including a plurality of entries in which area identification information for identifying a communication area of a base station is associated with access point identification information for identifying an access point connected to the network in the communication area Have
The determination unit
In the communication area of the first base station, when the display state detection unit detects that the screen has transitioned from the non-display state to the display state, the neighborhood associated with the first access point identification information An entry including access point identification information associated with first communication area identification information for identifying a first communication area before determining whether an entry including access point identification information has been searched from the neighboring access point information. Is retrieved from the connection history information,
The controller is
The mobile terminal apparatus according to claim 1, wherein an access point search cycle by the first communication unit is controlled based on a result determined by the determination unit. The controller is
When the determination unit determines that an entry including access point identification information associated with first communication area identification information for identifying the first communication area has been retrieved from the connection history information, the first The mobile terminal apparatus according to claim 6, wherein the communication unit is connected to an access point identified by access point identification information associated with the first communication area identification information. The controller is
When the determination unit determines that an entry including access point identification information associated with first communication area identification information for identifying the first communication area is not searched from the connection history information, the first unit The mobile terminal apparatus according to claim 6, wherein the communication unit is stopped. In a control method of a mobile terminal device,
A first communication unit of the mobile terminal device connects to a network via an access point;
A neighborhood in which the holding unit of the mobile terminal device identifies access point identification information for identifying an access point connected to the network and a neighboring access point existing in the vicinity of the access point connected to the network Hold neighboring access point information including a plurality of entries associated with access point identification information,
When the first communication unit searches for an access point connected to the first network, the determination unit included in the mobile terminal device includes neighboring access point identification information associated with the first access point identification information Determining whether an entry is retrieved from the neighboring access point information;
The control method of a mobile terminal apparatus, wherein the control unit controls an access point search cycle by the first communication unit based on a result determined by the determination unit. In a control program for a mobile terminal device,
The first communication unit of the mobile terminal device is connected to a network via an access point,
Access point identification information for identifying an access point connected to the network, and a neighborhood for identifying a nearby access point existing in the vicinity of the access point connected to the network, in a holding unit of the mobile terminal device Holding neighboring access point information including a plurality of entries associated with access point identification information;
When the first communication unit searches for an access point connected to the first network, the determination unit included in the mobile terminal device includes neighboring access point identification information associated with the first access point identification information Determining whether an entry is retrieved from the neighboring access point information;
A control program for a mobile terminal apparatus, which causes a control unit to control an access point search cycle by the first communication unit based on a result determined by the determination unit.

Images