JP5881651B2 - Information processing apparatus, communication management method, and program - Google Patents

Description

  The present invention relates to an information processing apparatus that supports a plurality of wireless communication systems.

  In recent years, some information processing apparatuses such as smartphones are compatible with a plurality of wireless communication systems. In such an information processing apparatus, since the communication speed in each wireless communication method changes depending on the situation, a wireless communication method to be used for data communication is selected from a plurality of wireless communication methods depending on the situation. Therefore, comfortable communication can be performed.

  Patent Document 1 describes a mobile phone capable of automatically selecting a wireless communication method used for data communication. This mobile phone is compatible with both a wireless local area network (LAN) system and a mobile phone system, and measures the intensity of radio waves from an access point compatible with the wireless LAN system. When data communication is performed using a mobile phone system, if the intensity of the radio wave exceeds a predetermined value, the wireless communication system used for data communication is switched from the mobile phone system to the wireless LAN system, and data communication is performed using the wireless LAN system. If the intensity of the radio wave becomes less than a predetermined value when the radio communication method is performed, the wireless communication method used for data communication is switched from the wireless LAN method to the mobile phone method.

JP 2005-192163 A

  In general, wireless communication methods such as a wireless LAN method and a cellular phone method are used to maintain a session with an access point or to check whether an access point exists even when data communication is not performed. Radio waves are being sent and received. For this reason, the information processing apparatus corresponding to a plurality of wireless communication systems such as the mobile phone described in Patent Document 1 performs not only transmission / reception of radio waves by the wireless communication system performing data communication but also data communication. Even in the transmission and reception of radio waves using no wireless communication method, power is consumed, resulting in a problem that the power consumption of the information processing apparatus increases.

  The objective of this invention is providing the information processing apparatus, the communication management method, and program which can suppress power consumption.

A plurality of information processing apparatuses according to the present invention are provided corresponding to each of a plurality of wireless communication methods, and a communication unit that performs wireless communication using the corresponding wireless communication method, and at least one of the plurality of communication units A control unit that determines whether or not communication is possible, and controls operation and stop of each communication unit using the determination result, and the control unit is one of the communication units. The communication unit performs processing for establishing an association between the first communication unit and an access point corresponding to the wireless communication method of the first communication unit, and when the association is established, the first communication unit via the access point performs the processing for confirming the communication between the preset predetermined server on the network system and, by using the confirmation result, determine whether the first communication unit communicable To.
In addition, a plurality of information processing apparatuses according to the present invention are provided corresponding to each of a plurality of wireless communication schemes, and a communication unit that performs wireless communication using the corresponding wireless communication scheme, and at least one of the plurality of communication units. Whether the information processing apparatus is in sleep mode or not, and using both determination results to control the operation and stop of each communication unit. possess a control unit, wherein the control unit, for the first communication unit is one of the communication unit, determines whether communication is possible or not, further, whether the sleep mode of the information processing apparatus is performed If the first communication unit is not communicable and the sleep mode is executed, not only the first communication unit but also the second communication unit different from the first communication unit is stopped. The second communication unit Only to run the second monitoring time in the start-up interval.

A communication management method according to the present invention is a communication management method by an information processing apparatus having a communication unit that is provided in correspondence with each of a plurality of wireless communication methods and performs wireless communication using the corresponding wireless communication method, An establishing step for performing processing for establishing an association between the first communication unit and an access point corresponding to a wireless communication method of the first communication unit with respect to a first communication unit which is one of the communication units; Is established, a confirmation step for performing processing for confirming communication between the first communication unit and a predetermined server set in advance on the network via the access point, and the confirmation result And a determination step of determining whether or not the first communication unit can communicate.
Further, the communication management method according to the present invention is a communication management method by an information processing apparatus provided with a plurality corresponding to each of a plurality of wireless communication systems and having a communication unit that performs wireless communication using the corresponding wireless communication system. A communication capability determination step for determining whether or not communication is possible for a first communication unit that is one of the communication units, and a sleep mode for determining whether or not the sleep mode of the information processing apparatus is being executed. When it is determined that the first communication unit is not communicable in the determination step and the communication enable determination step, the first communication unit is determined if the sleep mode is determined in the sleep mode determination step. In addition, the second communication unit different from the first communication unit is stopped, and the second communication unit is operated at a second activation interval for a second monitoring time. And, including the.

Programs in the present invention, each step in the communication management method according to claim 13 or 14, is executed by a computer that acts as the information processing apparatus.

  According to the present invention, power consumption can be suppressed.

It is a block diagram which shows the structure of the information processing apparatus which is one Embodiment of this invention. It is a figure which shows an example of the setting screen for setting operation | movement of a control part. It is a figure which shows an example of the correspondence of operation | movement of a control part, and energy saving mode. It is a figure which shows an example of the setting screen for setting a management parameter. It is a figure which shows the other example of the setting screen for setting a management parameter. It is a figure for demonstrating operation | movement of the information processing apparatus which is one Embodiment of this invention.

  Embodiments of the present invention will be described below with reference to the drawings. In the following description, components having the same function may be denoted by the same reference numerals and description thereof may be omitted.

  FIG. 1 is a block diagram showing a configuration of an information processing apparatus according to an embodiment of the present invention. An information processing apparatus 100 illustrated in FIG. 1 includes a power supply unit 1, a mobile phone unit 2, a wireless LAN unit 3, a display unit 4, an operation unit 5, a storage unit 6, and a control unit 7. Note that the information processing apparatus 100 is, for example, a smartphone, a tablet terminal, or a personal computer (PC).

  The power supply unit 1 supplies power to each unit of the information processing apparatus 100. Each unit of the information processing apparatus 100 operates with electric power supplied from the power supply unit 1. The power supply unit 1 is, for example, a secondary battery.

  Each of the mobile phone unit 2 and the wireless LAN unit 3 is a communication unit that supports different wireless communication systems and performs wireless communication using the corresponding wireless communication system. In the present embodiment, the mobile phone unit 2 corresponds to a mobile phone system that is a type of wireless communication system, and the wireless LAN unit 3 corresponds to a wireless LAN system that is a type of wireless communication system. In addition, although the standard of a mobile telephone system is not specifically limited, For example, it is 3G (3rd. Generation), LTE (Long Term Evolution), etc. Further, the standard of the wireless LAN system is not particularly limited, but is, for example, WiFi (Wireless Fidelity). In the following description, it is assumed that the wireless LAN standard is WiFi.

  The communication unit corresponding to the cellular phone system includes a communication unit that performs a call processing of a packet switching (PS) call and a circuit switching (CS) call. The mobile phone unit 2 will be described as a communication unit that performs packet exchange processing. The communication unit that performs the circuit switching process may be in the mobile phone unit 2 or may be separated into a mobile phone unit different from the mobile phone unit 2.

  When the information processing apparatus 100 exists in a range where radio waves from the base station 200 compatible with the mobile phone system reach, the mobile phone unit 2 and the service provider (SP) 400 and GTP (GPRS (General Packet Radio Service) Tunneling Protocol) session is established and wireless communication is performed. The mobile phone unit 2 performs data communication with a network network (not shown) such as the Internet via the base station 200 and the service provider 400.

  The wireless LAN unit 3 performs wireless communication with the access point 300 when the association (connection) with the access point 300 corresponding to the wireless LAN method is established. The wireless LAN unit 3 performs data communication with a network network (not shown) such as the Internet via the access point (AP) 300 and the service provider 400. The service provider 400 is a server that manages connection with a network.

  In addition, the wireless LAN unit 3 measures the intensity of radio waves from the access point 300.

  The display unit 4 displays various information. For example, the display unit 4 displays a setting screen for setting management parameters for managing the mobile phone unit 2 and the wireless LAN unit 3.

  The operation unit 5 is a touch panel, for example, and receives various information from the user. For example, the operation unit 5 receives management parameters. The display unit 4 and the operation unit 5 may be integrated.

  The storage unit 6 stores a program that defines the operation of the control unit 7 and various information used in the program. Examples of the program include an OS (Operating System) and a program that provides a communication management service for managing the mobile phone unit 2 and the wireless LAN unit 3. Moreover, management parameters etc. are mentioned as information memorize | stored.

  The control unit 7 reads a program stored in the storage unit 6 and executes the read program to realize various functions. Below, the function of the control part 7 by the program which provides a communication management service is demonstrated.

  The control unit 7 determines whether or not communication is possible for either the mobile phone unit 2 or the wireless LAN unit 3, and based on the determination result, the mobile phone unit 2 and the wireless LAN unit 3 are turned on (operated). Control off (stop).

  In the present embodiment, the control unit 7 determines whether or not the wireless LAN unit 3 can communicate. Further, the control unit 7 turns off the cellular phone unit 2 and turns on the wireless LAN unit 3 when the wireless LAN unit 3 can communicate, and turns on the cellular phone unit 2 when the wireless LAN unit 3 cannot communicate. The wireless LAN unit 3 is turned off. The control unit 7 performs communication using the wireless LAN unit 3 when the wireless LAN unit 3 is communicable, and performs communication using the mobile phone unit 2 when the wireless LAN unit 3 is not communicable.

  Hereinafter, the process performed by the control unit 7 will be described in more detail.

  First, the process of the wireless LAN unit 3 necessary for describing the process performed by the control unit 7 will be described.

  In order to perform data communication using the wireless LAN system, the wireless LAN unit 3 needs connection processing for making itself communicable. The connection process includes an association process for establishing an association with the access point 300 compatible with the wireless LAN system, and a communication confirmation process for confirming communication with a network network such as the Internet.

  In the association process, the wireless LAN unit 3 receives a beacon that the access point 300 periodically transmits. The beacon includes information for establishing an association such as BSSID (Basic Service Set Identifier) which is identification information for identifying the access point 300. The BSSID is usually the same as a MAC (Media Access Control) address. In the present embodiment, the BSSID is used as the identification information. However, when the BSSID cannot be used, an ESSID (Extended Service Set Identifier) may be used instead of the BSSID as the identification information.

  When receiving the beacon, the wireless LAN unit 3 sets the BSSID of the access point 300 to itself based on the beacon, and transmits an authentication request corresponding to a predetermined authentication method to the access point 300. . Note that the authentication request may include an encryption key such as a WPA (Wi-Fi Protected Access) key or WEP (Wired Equivalent Privacy).

  After that, when the wireless LAN unit 3 receives approval information indicating successful authentication as response information to the authentication request from the access point 300, the wireless LAN unit 3 transmits an association request, which is a connection request for permission of connection, to the access point 300.

  When the wireless LAN unit 3 receives permission information indicating permission of connection as response information to the association request from the access point 300, the wireless LAN unit 3 establishes an association with the access point 300. Thereby, the wireless LAN unit 3 can perform wireless communication with the access point 300.

  In the above operation, when the stealth mode that does not transmit a beacon is set in the access point 300 or the access point 300 does not exist near the information processing apparatus 100, the wireless LAN unit 3 cannot receive the beacon. For this reason, when the wireless LAN unit 3 cannot receive a beacon for a predetermined time or more, it transmits a probe request including a preset BSSID by broadcast, and then receives probe response information that is response information to the probe request. The authentication request is transmitted to the access point 300. The subsequent processing of the wireless LAN unit 3 is the same as when a beacon is received. Note that the access point 300 normally transmits probe response information to the information processing apparatus 100 when the BSSID included in the probe request is the same as its own BSSID.

  When the wireless LAN unit 3 receives a beacon from a plurality of access points, for example, for each BSSID included in the beacon, the wireless LAN unit 3 measures the strength of the radio wave from the access point identified by the BSSID, and the access having the highest strength is performed. Performs association processing for points.

  In the communication confirmation process, the wireless LAN unit 3 pings a predetermined server (here, using the service provider 400) on a network network such as the Internet via the access point 300 with which the association has been established. When a communication confirmation signal for confirming communication to the network called “ping” is transmitted at a first transmission interval (for example, 10 seconds), and the number of Ping transmissions is within the first reference number (for example, 3 times) In addition, if Echo (echo) which is response information to Ping is received within the first waiting time after transmitting Ping, communication with the network is confirmed. As a result, the wireless LAN unit 3 has no problem in the communication path to the access point 300 and the service provider 400 and the authentication with the service provider 400, and the network such as the Internet and the data via the access point 300 and the service provider 400 It can be confirmed that communication is possible.

  Note that if the communication with the network is not confirmed, the wireless LAN unit 3 may cancel the association with the access point 300. In addition, information (for example, URL (Uniform Resource Locator)) that identifies the service provider 400 that is the transmission destination of the Ping is set or set in advance by the user.

  When the communication management service is started by executing a program that provides the communication management service or instructing the start of the communication management service during the execution of the program, the control unit 7 accesses the wireless LAN unit 3. It is determined whether or not the association with the point 300 is established and whether or not communication between the wireless LAN unit 3 and the network is confirmed, and whether the wireless LAN unit 3 can communicate based on the determination result. Judge whether or not.

  Specifically, the control unit 7 determines that the wireless LAN unit 3 can communicate when the association is established and the communication is confirmed, and the communication is confirmed when the association is not established. If not, it is determined that the wireless LAN unit 3 cannot communicate. If the wireless LAN unit 3 is turned off at the time when the communication management service is started, the control unit 7 may determine that the wireless LAN unit 3 is not communicable, or turn on the wireless LAN unit 3. After a predetermined time, it may be determined whether or not the wireless LAN unit 3 can communicate.

  When the wireless LAN unit 3 determines that communication is possible and the mobile phone unit 2 is turned off, the control unit 7 periodically determines whether an association is established in the wireless LAN unit 3 and Based on the determination result, it is determined whether or not the wireless LAN unit 3 can communicate. If communication is not possible, the control unit 7 turns on the mobile phone unit 2 and turns off the wireless LAN unit 3.

    When the wireless LAN unit 3 determines that communication is not possible and the wireless LAN unit 3 is turned off, the control unit 7 turns on the wireless LAN unit 3 for the first monitoring time at the first activation interval, and the first monitoring time. It is determined whether or not the wireless LAN unit 3 has become communicable. When communication is possible, the control unit 7 turns off the mobile phone unit 2 and maintains the wireless LAN unit 3 on. The wireless LAN unit 3 performs a connection process during the first monitoring time, and becomes communicable when the association is established and the communication is confirmed.

  Further, the control unit 7 may further control the on / off of the mobile phone unit 2 and the wireless LAN unit 3 by further using the stability of communication by the wireless LAN unit 3.

  Specifically, when the wireless LAN unit 3 is not communicable, the control unit 7 determines that the radio LAN intensity measured by the wireless LAN unit 3 is equal to or higher than the first threshold continuously for the first stable time or longer. The connection processing may be executed for the unit 3. At this time, the control unit 7 repeatedly determines whether or not the radio field intensity is equal to or higher than the first threshold at a predetermined number of times at an interval of (first stable time / predetermined number (for example, three times)), May be determined to be equal to or higher than the first threshold and the radio wave intensity is continuously equal to or higher than the first threshold for the first stable time or longer.

  When the wireless LAN unit 3 is not communicable, the control unit 7 connects the wireless LAN unit 3 to the wireless LAN unit 3 when the wireless LAN unit 3 repeatedly receives a beacon including the same BSSID from the access point 300 for the movement determination time. May be executed.

  On the other hand, when the wireless LAN unit 3 is communicable, the control unit 7 communicates when the radio field intensity measured by the wireless LAN unit 3 continuously falls below the second threshold for the second stable time or longer. The mobile phone unit 2 may be turned on and the wireless LAN unit 3 may be turned off after determining that it is no longer possible.

  Also, when the wireless LAN unit 3 can communicate, the control unit 7 cannot communicate with the wireless LAN unit 3 unless the wireless LAN unit 3 can confirm the communication with the network continuously for the second stable time or longer. You may decide that At this time, the control unit 7 causes the wireless LAN unit 3 to transmit Ping to the service provider 400 at intervals of (second stable time / second reference number (for example, three times)), and continuously for the second reference number of times. If Echo cannot be received within the second waiting time after transmitting Ping, it may be determined that the communication with the network cannot be confirmed continuously for the second stable time or longer. The second waiting time is desirably the same as (second stable time / second reference number).

  Further, the control unit 7 may determine whether or not the sleep mode of the information processing apparatus 100 is being executed, and may further control the on / off of the mobile phone unit 2 and the wireless LAN unit 3 using the determination result. . Note that the sleep mode is a mode in which some functions of the information processing apparatus 100 (for example, functions of the display unit 4 and the operation unit 5) are turned off in order to suppress power consumption and erroneous operations.

  For example, when the sleep mode is executed when the wireless LAN unit 3 is not communicable, the control unit 7 may not only turn off the wireless LAN unit 3 but also turn off the mobile phone unit 2. When the mobile phone unit 2 is turned off, the control unit 7 may turn on the mobile phone unit 2 for the second monitoring time at the second activation interval. When the sleep mode is executed when the wireless LAN unit 3 can communicate, the control unit 7 may not only turn off the mobile phone unit 2 but also turn off the wireless LAN unit 3.

  The control unit 7 may determine that the sleep mode is being executed when the execution of the sleep mode is started, or the sleep mode is not canceled within the grace period after the execution of the sleep mode is started. It may be determined that the sleep mode is being executed.

  In the above description, the predetermined number of times, the first transmission interval, the second transmission interval, the first activation interval, the second activation interval, the first monitoring time, the second monitoring time, the first threshold, the second threshold, and the first stable time. , Second stable time, first reference number, second reference number, first standby time, second standby time, movement determination time, grace time, and the like are management for managing mobile phone unit 2 and wireless LAN unit 3 It is a parameter. The management parameter may be stored in the storage unit 6 as described above, or may be set in the mobile phone unit 2, the mobile phone unit 2, the wireless LAN unit 3, the control unit 7, and the like.

  Moreover, the operation | movement and management parameter of the control part 7 may be preset, and may be set by the user.

  FIG. 2 is a diagram illustrating an example of a setting screen for setting the operation of the control unit 7. The setting screen is displayed on the display unit 4 by the control unit 7 when the operation unit 5 receives an instruction from the user to display the setting screen or when a program for providing a communication management service is executed. Is displayed.

  A setting screen 201 illustrated in FIG. 2 includes a button 202 for setting execution or suspension of the communication management service, a state area 203 indicating the state of the wireless LAN unit 3, and a slide for setting an operation when executing the sleep mode. A bar 204, a button 205 for setting whether or not the stability of communication by the wireless LAN unit 3 is used for on / off control of the mobile phone unit 2 and the wireless LAN unit 3, and a comment field describing notes regarding various settings 206 and 207.

  When the communication management service is executed by the button 202, the control unit 7 starts on / off control of the mobile phone unit 2 and the wireless LAN unit 3. When the communication management service is stopped by the button 202, the control unit 7 stops on / off control of the mobile phone unit 2 and the wireless LAN unit 3. When the communication management service is stopped, the control unit 7 turns on the cellular phone unit 2 and turns off the wireless LAN unit 3 before the cellular phone regardless of whether or not the wireless LAN unit 3 can communicate. The on / off control of the unit 2 and the wireless LAN unit 3 may be stopped. Further, in addition to the on / off control of the mobile phone unit 2 and the wireless LAN unit 3 by the communication management service, even if the on / off control of the mobile phone unit 2 and the wireless LAN unit 3 by the OS exists, the control unit 7 It is desirable to stop on / off control different from the communication management service at the time of execution of the service or give priority to on / off control by the communication management service.

  Examples of the state of the wireless LAN unit 3 shown in the state area 203 include a communicable state in which the wireless LAN unit 3 can communicate, an established state in which an association by the wireless LAN unit 3 has been established but communication has not been confirmed, Examples include a non-established state in which the wireless LAN unit is on but the association by the wireless LAN unit 3 is not established, and an off state in which the wireless LAN unit 3 is off. The status area 203 indicates the status of the wireless LAN unit 3 using colors and characters. For example, the status area 203 indicates a communicable status in blue, an established status in green, a non-established status in yellow, and an off status in gray.

  In the slide bar 204, the operation of the control unit 7 can be set as the energy saving mode. There are three modes of energy saving mode: “MIN”, “MID” and “MAX”. Energy saving mode “MIN” is a connection-oriented mode, energy saving mode “MID” is a balance mode, and energy saving mode “MAX” is a battery saver. Sometimes called the emphasis mode.

  When the button 205 is set to use the stability of communication by the wireless LAN unit 3 for on / off control of the mobile phone unit 2 and the wireless LAN unit 3, as described above, the control unit 7 causes the wireless LAN unit 3 to The mobile phone unit 2 and the wireless LAN unit 3 are controlled to be turned on and off using the radio field intensity measured in step S1, the BSSID from the access point 300, and the communication confirmation.

  FIG. 3 is a diagram illustrating an example of a correspondence relationship between the operation of the control unit 7 and the energy saving mode. FIG. 3 shows the operation of the control unit 7 when the sleep mode is executed and when the sleep mode is stopped for each energy saving mode. In FIG. 3, [D] indicates the mobile phone unit 2, and “W” indicates the wireless LAN unit 3.

  In the example of FIG. 3, when the sleep mode is stopped, the operation of the control unit 7 in each energy saving mode is the same. That is, the control unit 7 turns on the mobile phone unit 2 and turns off the wireless LAN unit 3 when the wireless LAN unit 3 cannot communicate, and turns off the mobile phone unit 2 when the wireless LAN unit 3 can communicate. Then, the wireless LAN unit 3 is turned on. However, when the wireless LAN unit 3 is not communicable, the control unit 7 turns on the wireless LAN unit 3 for the first monitoring time (1 minute in FIG. 3) every first activation interval (15 minutes in FIG. 3). To. If the wireless LAN unit 3 does not become communicable within the first monitoring time, the control unit 7 turns the wireless LAN unit 3 off, and if the wireless LAN unit 3 becomes communicable, the control unit 7 turns off the wireless LAN unit 3. Turn on and turn off the mobile phone 2.

  When the sleep mode is executed, the operation of the control unit 7 in each energy saving mode is different.

  When the energy saving mode is the connection-oriented mode, the operation of the control unit 7 when executing the sleep mode is the same as when the sleep mode is stopped. However, at the start of the sleep mode, the control unit 7 turns off the wireless LAN unit 3 even if the wireless LAN unit 3 is turned on in order to determine whether or not the wireless LAN unit 3 can communicate.

  In this case, even when the sleep mode is being executed, the mobile phone unit 2 or the wireless LAN unit 3 is on, so that incoming calls and tethering are possible. The incoming call includes an incoming call of VoIP (Voice over Internet Protocol), an incoming call of electronic mail, and an incoming call by other applications. Here, incoming calls and SMS (short message service) incoming calls are excluded here because they are processed by the communication unit that performs circuit switching processing. The same applies to subsequent incoming calls.

  Further, when the energy saving mode is the balance mode, when the wireless LAN unit 3 cannot communicate when executing the sleep mode, the control unit 7 turns off the mobile phone unit 2 in addition to the wireless LAN unit 3. However, the control unit 7 turns on the mobile phone unit 2 for the second monitoring time (3 minutes in FIG. 3) every second activation interval (30 minutes in FIG. 3). Further, as in the connection-oriented mode, the control unit 7 can start the sleep mode even if the wireless LAN unit 3 is turned on to determine whether or not the wireless LAN unit 3 can communicate. Turn 3 off. The operation of the control unit 7 when the wireless LAN unit 3 can communicate is the same when the sleep mode is executed and when the sleep mode is stopped.

  In this case, even during sleep execution, incoming calls are possible if the wireless LAN unit 3 can communicate. If the wireless LAN unit 3 is not communicable, incoming calls are intermittently performed at the mobile phone unit 2 at every second activation interval. Also, tethering during sleep mode execution is not possible.

  When the energy saving mode is the battery saving priority mode, the control unit 7 turns off both the mobile phone unit 2 and the wireless LAN unit 3 regardless of whether the wireless LAN unit 3 can communicate when the sleep mode is executed. . Thereafter, when the sleep mode is stopped, the control unit 7 may turn on the mobile phone unit 2 and the wireless LAN unit 3. Note that if the wireless LAN unit 3 is turned off when the wireless LAN unit 3 is in a communicable state, the association and communication confirmation are canceled, so the wireless LAN unit 3 is turned on when the sleep mode is stopped. However, the wireless LAN unit 3 is not communicable.

  In this case, incoming calls and tethering cannot be performed during execution of the sleep mode.

  FIG. 4 is an example of a setting screen for setting the first activation interval, the first monitoring time, the second activation interval, and the second monitoring time, which are management parameters.

  The setting screen 401 shown in FIG. 4 includes a slide bar 402 for setting a Wi-FiON interval that is a first activation interval, a slide bar 403 for setting a Wi-FiOFF time that is a first monitoring time, 2 includes a slide bar 404 for setting the data communication ON interval that is the two activation intervals, and a slide bar 405 for setting the data communication OFF time that is the second monitoring time.

  In the slide bar 402, the Wi-FiON interval can be set in three stages of 5 minutes, 15 minutes, and 60 minutes. In the slide bar 403, the Wi-FiOFF time can be set in three stages of setting invalidity, 3 minutes and 10 minutes. In the slide bar 404, the data communication ON interval can be set to three stages of setting invalidity, 15 minutes and 30 minutes. In the slide bar 405, the data communication OFF time can be set in three stages of invalid setting, 3 minutes, and 10 minutes. In FIG. 4, setting invalidity is expressed as ∞. Further, setting invalidity indicates that the function relating to the management parameter is invalidated. For example, when the Wi-Fi OFF time is ∞, it indicates that the wireless LAN unit 3 is not turned off even if the wireless LAN unit 3 becomes unable to communicate, that is, the wireless LAN unit 3 remains on.

  FIG. 5 is an example of a setting screen for setting the first threshold, the second threshold, the first stable time, and the second stable time that are management parameters. A setting screen 501 shown in FIG. 5 includes a slide bar 502 for setting a Wi-Fi connection timing that is a first threshold, a slide bar 503 for setting a Wi-Fi disconnection timing that is a second threshold, A slide bar 504 for setting the stability (at the time of connection) of the Wi-Fi connection destination that is one stabilization time, and the stability (at the time of disconnection) of the Wi-Fi connection destination that is the second stabilization time. And a slide bar 505.

  In the slide bars 502 and 503, the Wi-Fi connection timing and the Wi-Fi disconnection timing can be set in three stages. Also, in the slide bars 504 and 505, the stability of the Wi-Fi connection destination (when connected) and the stability of the Wi-Fi connection destination (when disconnected) are set in three stages of 30 seconds, 90 seconds and 150 seconds. be able to.

  Note that the values of the management parameters shown in FIGS. 4 and 5 are merely examples.

  Next, an example of the operation of the information processing apparatus 100 will be described.

FIG. 6 is a diagram for explaining an example of the operation of the information processing apparatus 100. In the following description, it is assumed that the control unit 7 operates according to the correspondence shown in FIG. Further, it is assumed that both the mobile phone unit 2 and the wireless LAN unit 3 are on before the communication management service is started. In FIG. 6 , the mobile phone unit 2 is shown as a mobile phone, and the wireless LAN unit 3 is shown as Wi-Fi.

  First, when the communication management service is started, the control unit 7 determines whether or not the wireless LAN unit 3 can communicate.

  When the wireless LAN unit 3 is communicable, the control unit 7 turns off the mobile phone unit 2 and puts the wireless LAN unit 3 into a communicable state (step S601). On the other hand, when the wireless LAN unit 3 cannot communicate, the control unit 7 turns off the wireless LAN unit 3 and turns off the wireless LAN unit 3 (step S602).

  In the communicable state, the control unit 7 repeatedly determines whether the communication management service is stopped and whether the wireless LAN unit 3 is communicable while monitoring the sleep mode and the energy saving mode (step S603). In the off state, the control unit 7 repeatedly performs time measurement using a timer (not shown) and determination of whether or not the communication management service is stopped while monitoring the sleep mode and the energy saving mode. (Step S604). The timer may be provided in the control unit 7 or may be provided outside the control unit 7.

  When the sleep mode is executed in step S603 and the energy saving mode is the battery saving priority mode, the control unit 7 turns off the wireless LAN unit 3 (step S605), and proceeds to the process of step S604.

  When the wireless LAN unit 3 becomes unable to communicate in step S603, the control unit 7 turns on the cellular phone unit 2 and turns off the wireless LAN unit 3 (step S606), and performs the processing in step S604. Move.

  If the communication management service is stopped in step S603, the control unit 7 turns on the cellular phone unit 2 and turns off the wireless LAN unit 3 (step S607), and ends the process.

  On the other hand, when the sleep mode is started in step S604 and the energy saving mode is the battery saving priority mode, and when the sleep mode is being executed, the mobile phone unit 2 is turned on when the energy saving mode is the balance mode. When the monitoring time (3 minutes in FIG. 6) has elapsed, the control unit 7 turns off the mobile phone unit 2 (step S608), and proceeds to the process of step S604. At this time, if the wireless LAN unit 3 is on at the time when the sleep mode is started, the control unit 7 also turns off the wireless LAN unit 3.

  Further, when the sleep mode is stopped in step S604, and when the sleep mode is being executed and the energy saving mode is the connectivity importance mode or the balance mode, the control unit 7 performs the first activation interval (FIG. 6). Then, every 15 minutes), the wireless LAN unit 3 is turned on (step S609), and the process returns to step S604.

  If the wireless LAN unit 3 is not connectable even after the first monitoring time (1 minute in FIG. 6) has elapsed since the wireless LAN unit 3 was turned on in step S604, the control unit 7 The LAN unit 3 is turned off (step S605), and the process proceeds to step S604.

  If the wireless LAN unit 3 becomes connectable before the first monitoring time (1 minute in FIG. 6) has elapsed since the wireless LAN unit 3 was turned on in step S604, the control unit 7 The unit 2 is turned off (step S610), and the process proceeds to step S603.

  When the sleep mode is being executed in step S604 and the energy saving mode is the balance mode, the control unit 7 turns on the mobile phone unit 2 every two activation intervals (30 minutes in FIG. 6) ( The process proceeds to step S611) and step S603.

  When the sleep mode is canceled in step S604, the control unit 7 turns on the mobile phone unit 2 and the wireless LAN unit 3 (step S612), and the process proceeds to step S603.

  In step S604, when the communication management service is stopped in step S603, the control unit 7 turns on the cellular phone unit 2 and turns off the wireless LAN unit 3 (step S613), and ends the process.

  According to the present embodiment, since the operation and stop of the communication unit are controlled based on whether communication is possible or not, it is possible to suppress transmission / reception of radio waves by a wireless communication method in which data communication is not performed. Therefore, it becomes possible to suppress power consumption.

  In the present embodiment, when the wireless LAN unit 3 can communicate, the wireless LAN unit 3 is turned on, the mobile phone unit 2 is turned off, and when the wireless LAN unit 3 is not communicable, the wireless LAN unit 3 Since the mobile phone unit 2 is turned off and the mobile phone unit 2 is turned on, it is possible to more reliably suppress the transmission and reception of radio waves by a wireless communication method that is not performing communication, so it is possible to more reliably suppress power consumption. become.

  In the present embodiment, whether or not the wireless LAN unit 3 is communicable is determined depending on whether or not the wireless LAN unit 3 has established an association with the access point 300. It is possible to increase the certainty of determining whether communication is possible.

  In the present embodiment, whether or not the wireless LAN unit 3 is communicable is determined depending on whether or not communication with the network is confirmed. Certainty can be increased.

  In the present embodiment, after the wireless LAN unit 3 is turned off, the wireless LAN unit 3 is operated for the first monitoring time at the first activation interval, and the wireless LAN unit 3 can communicate during the first monitoring time. Therefore, it is possible to determine whether or not the wireless LAN unit 3 has become communicable.

  Further, in the present embodiment, when the intensity of the radio wave from the access point 300 is continuously equal to or higher than the first threshold for the first stable time or longer, the wireless LAN unit 3 executes the connection process. When it is performed stably, it is possible to perform communication using the wireless LAN unit 3.

  In this embodiment, when the BSSID of the access point 300 (ESSID when the BSSID cannot be used) is repeatedly received for the movement determination time or longer, the wireless LAN unit 3 executes the connection process, so the information processing apparatus 100 is retained. Since it is possible to perform communication using the wireless LAN unit 3 when the user is not moving, communication is performed using the wireless LAN unit 3 when communication by the wireless LAN method is stably performed. It becomes possible.

  In the present embodiment, in a state where the wireless LAN unit 3 is communicable, it is determined that the wireless LAN unit 3 is not communicable unless the intensity of the radio wave from the access point 300 is equal to or higher than the second threshold value. When communication by the method is stably performed, it is possible to perform communication using the wireless LAN unit 3.

  Further, in this embodiment, since the operation and stop of the communication unit are controlled depending on whether or not the sleep mode is executed, transmission and reception of radio waves by a wireless communication method that is not performing communication is further suppressed. Therefore, power consumption can be further suppressed.

  In the present embodiment, when the sleep mode is executed when the wireless LAN unit 3 is not communicable, not only the wireless LAN unit 3 but also the mobile phone unit 2 is turned off, thereby further reducing power consumption. It becomes possible.

  Further, in this embodiment, when the wireless LAN unit 3 is not communicable and the sleep mode is executed, the mobile phone unit 2 is turned on for the second monitoring time at the second activation interval, thereby suppressing power consumption. However, since it is possible to receive an e-mail, the convenience can be improved.

  In this embodiment, when the wireless LAN unit 3 is communicable and the sleep mode is executed, not only the mobile phone unit 2 but also the wireless LAN unit 3 is turned off, thereby further reducing power consumption. It becomes possible.

  In addition, if the sleep mode is not canceled within a grace period after the execution of the sleep mode is started, it is determined that the sleep mode is being executed. Therefore, when the sleep mode is erroneously executed, the mobile phone unit 2 In addition, it is possible to suppress the on / off switching of the wireless LAN unit 3.

  In the embodiment described above, the illustrated configuration is merely an example, and the present invention is not limited to the configuration.

  For example, the control unit 7 may determine that the wireless LAN unit 3 can communicate when the wireless LAN unit 3 has established an association.

  Further, in the above-described embodiment, there are only two communication units, the mobile phone unit 2 and the wireless LAN unit 3, but actually there may be a plurality of communication units. Moreover, the control part 7 should just determine whether communication is possible about at least one of several communication parts. For example, even when there are three or more communication units, the control unit 7 determines whether or not communication is possible for at least one of the communication units, and turns on only the communication unit that is determined to be capable of communication. You can do it. At this time, if there is no communication unit that is determined to be communicable, only the communication unit that has not determined whether communication is possible need be turned on.

  Moreover, as a wireless communication system, WiMAX (Worldwide Interoperability for Microwave Access) etc. other than a mobile telephone system and a wireless LAN system are mentioned.

  In addition, execution conditions such as the date and day of the week for executing the communication management service may be set. In this case, the control unit 7 provides a communication management service when the date and day of the week and the day of the week meet the execution conditions.

DESCRIPTION OF SYMBOLS 1 Power supply part 2 Mobile phone part 3 Wireless LAN part 4 Display part 5 Operation part 6 Storage part 7 Control part 100 Information processing apparatus 200, 300 Access point 400 Service provider

Claims (15)

A plurality of communication units provided corresponding to each of a plurality of wireless communication systems, and performing wireless communication using the corresponding wireless communication system,
For at least one of the plurality of communication units, it is determined whether or not communication is possible, and using the determination result, a control unit that controls operation and stop of each communication unit;
Have
The control unit performs processing for establishing an association between the first communication unit and an access point corresponding to a wireless communication method of the first communication unit for the first communication unit which is one of the communication units. In the case where the association is established, a process for confirming communication between the first communication unit and a predetermined server on the network via the access point is performed, and the confirmation result is used. An information processing apparatus that determines whether the first communication unit can communicate.   When the communication with the predetermined server on the network is confirmed, the control unit determines that the first communication unit can communicate, operates the first communication unit, and operates the first communication unit. When the second communication unit different from the above is stopped and communication with the predetermined server on the network is not confirmed, it is determined that the first communication unit cannot communicate, and the first communication unit is stopped. The information processing apparatus according to claim 1, wherein the information processing apparatus operates the second communication unit.   The first communication unit transmits a communication confirmation signal for confirming communication to the predetermined server on the network network at a first transmission interval after the association with the access point is established. When the number of transmissions of the confirmation signal is within the first reference number, if the response information for the communication confirmation signal is received within the first waiting time after the communication confirmation signal is transmitted, the communication with the predetermined server is confirmed. The information processing apparatus according to claim 1 or 2.   The information processing apparatus according to any one of claims 1 to 3, wherein when the communication with the predetermined server cannot be confirmed, the association between the first communication unit and the access point is canceled.   When the first communication unit is communicable, the first communication unit transmits a communication confirmation signal for confirming communication to the predetermined server on the network at a second transmission interval, and the communication If the response information for the communication confirmation signal is not received within a second waiting time after the communication confirmation signal is transmitted continuously for the second reference number of times, it is determined that the first communication unit can no longer communicate. The information processing apparatus according to any one of claims 1 to 4. The first communication unit measures the intensity of radio waves from an access point corresponding to the wireless communication method of the first communication unit,
After determining that the first communication unit is not communicable, the control unit repeatedly determines that the strength is a third reference number or more at a third transmission interval, and continuously performs the first threshold value for the third reference number or more. 6. The information processing apparatus according to claim 1, wherein the information processing apparatus causes the first communication unit to execute processing for enabling communication of the first communication unit as described above. The first communication unit receives identification information for identifying the access point from an access point corresponding to the wireless communication method of the first communication unit;
After the control unit determines that the first communication unit is not communicable, when the communication unit repeatedly receives the same identification information for a movement determination time or more, the first communication unit with respect to the first communication unit The information processing apparatus according to claim 1, wherein a process for enabling communication is executed. The first communication unit measures the intensity of radio waves from an access point corresponding to the wireless communication method of the first communication unit,
The control unit determines that the first communication unit is not communicable after the first communication unit determines that communication is possible, and the strength is not equal to or greater than a second threshold continuously for a second stable time, The information processing apparatus according to any one of claims 1 to 7. A plurality of communication units provided corresponding to each of a plurality of wireless communication systems, and performing wireless communication using the corresponding wireless communication system,
It is determined whether or not communication is possible for at least one of the plurality of communication units, further determines whether or not the sleep mode of the information processing apparatus is being executed, and uses each determination result to determine each communication A control unit for controlling the operation and stop of the unit,
I have a,
The control unit determines whether or not communication is possible for a first communication unit that is one of the communication units, further determines whether or not a sleep mode of the information processing apparatus is being executed, and When one communication unit is not communicable, when the sleep mode is executed, not only the first communication unit but also a second communication unit different from the first communication unit is stopped, and the second communication unit is An information processing apparatus that operates for a second monitoring time at two activation intervals . Wherein, for the first communication unit, determines whether communication is possible or not, further, it is determined whether the sleep mode of the information processing apparatus is executed, the first communication unit can communicate The first communication unit is activated regardless of whether the sleep mode is executed or stopped, the second communication unit different from the first communication unit is stopped, and when the first communication unit is not communicable, the sleep When the mode is not executed, and stopping said first communication unit, operating the second communication unit, run by the first monitoring time said first communication unit in the first initiation interval, according to claim 9 Information processing device.   The information processing apparatus according to claim 9 or 10, wherein the control unit determines that the sleep mode is being executed if the sleep mode is not canceled within a grace period after the execution of the sleep mode is started. .   The information processing apparatus according to claim 1, wherein a wireless communication system corresponding to the communication unit is a wireless LAN system. A communication management method by an information processing apparatus having a communication unit that is provided in correspondence with each of a plurality of wireless communication methods and performs wireless communication using the corresponding wireless communication method,
An establishing step for performing processing for establishing an association between the first communication unit and an access point corresponding to a wireless communication scheme of the first communication unit for the first communication unit which is one of the communication units;
If the association is established, a confirmation step for performing processing for confirming communication between the first communication unit and a predetermined server set in advance on the network via the access point ;
A determination step of determining whether or not the first communication unit can communicate using the confirmation result. More is provided corresponding to each of the plurality of wireless communication systems, a the corresponding communication management method by the information processing apparatus having a communication unit that performs wireless communication using a wireless communication system,
A communication enablement determining step for determining whether communication is possible for the first communication unit that is one of the communication units;
A sleep mode determination step for determining whether the sleep mode of the information processing apparatus is being executed; and
When it is determined that the first communication unit is not communicable in the communication enable determination step , when the sleep mode determination step determines that the sleep mode is being executed, not only the first communication unit, A control step of stopping a second communication unit different from the first communication unit and operating the second communication unit for a second monitoring time at a second activation interval ;
Including a communication management method. 15. A program for causing a computer operating as the information processing apparatus to execute each step of the communication management method according to claim 13 or 14.

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