JP6349820B2 - Communication device, operation control method, and program - Google Patents

Description

  The present invention relates to a communication device, an operation control method, and a program.

  For example, communication devices such as mobile phones and smartphones are known that have a function of optimizing battery use (see, for example, Patent Document 1). Specifically, it is equipped with multiple position sensors with different power consumption, and when saving battery power, use position sensors with low accuracy and low power consumption to save power. Yes.

JP 2012-127722 A

Here, in the communication device described above, further power saving is required. For example, it is conceivable to save power by manually shutting down the installed function according to the situation. This is not preferable because it will cause inconvenience.
For this reason, the subject of this invention is aiming at efficient power-saving, suppressing interruption | blocking of a function as much as possible.

The first aspect of the present invention is:
A communication device that includes a short-range wireless communication unit and communicates with other communication devices,
The communication device and the other communication device each include the same mobile communication function unit,
Functional unit control means for performing power control on the portable communication functional unit of the communication device;
Information acquisition means for acquiring information related to the mobile communication reception status of the mobile communication function unit of the other communication device by communication by the short-range wireless communication unit,
The function unit control unit does not supply power to the mobile communication function unit of the communication device when the information related to the mobile communication reception status of the mobile communication function unit of the other communication device acquired by the information acquisition unit is out of range. A communication device is provided.
The second aspect of the present invention is:
A communication device that includes a short-range wireless communication unit and communicates with other communication devices,
The communication device and the other communication device each have the same GPS reception function unit,
Functional unit control means for performing operation control on the GPS reception function unit of the communication device;
Information acquisition means for acquiring information on the radio wave reception time of the GPS reception function unit of the other communication device by communication by the short-range wireless communication unit,
The function unit control unit performs operation control on the GPS reception function unit of the communication device based on information on the radio wave reception time of the GPS reception function unit of the other communication device acquired by the information acquisition unit. Is provided.
The third aspect of the present invention is:
A communication device that includes a short-range wireless communication unit and communicates with other communication devices,
The communication device and the other communication device each include the same wireless LAN communication function unit,
Functional unit control means for performing power control on the wireless LAN communication functional unit of the communication device;
Information acquisition means for acquiring information on the wireless LAN communication status of the wireless LAN communication function unit of the other communication device by communication by the short-range wireless communication unit;
When the information regarding the wireless LAN communication status of the wireless LAN communication function unit of the other communication device acquired by the information acquisition unit is not communicable, the function unit control unit supplies power to the wireless LAN communication function unit of the communication device. There is provided a communication device characterized by not performing the above.

  According to the present invention, it is possible to efficiently save power while suppressing the interruption of functions as much as possible.

It is explanatory drawing which shows the communication apparatus which concerns on this embodiment, and the some communication apparatus which can communicate freely by this communication apparatus and short-distance wireless communication. It is a functional block diagram showing the structure of the communication apparatus which concerns on this embodiment for every function. The time chart in case the communication apparatus which concerns on this embodiment exchanges communication data, without establishing a connection with three communication apparatuses is shown. The format of the communication data in BLE (Bluetooth (trademark) Low Energy) which concerns on this embodiment is shown. It is a flowchart which shows the flow of the power supply control process which concerns on this embodiment.

  Hereinafter, an example of an embodiment when a communication device according to the present invention is applied to a smartphone will be described in detail with reference to the accompanying drawings. However, the scope of the invention is not limited to the illustrated examples.

FIG. 1 shows a communication device 1 according to the present embodiment and communication devices A, B, and C that can communicate with the communication device 1 by short-range wireless communication.
The communication device 1 and the communication devices A, B, and C are smartphones having a short-range wireless communication function, and communication data can be exchanged between the communication device 1 and the communication devices A, B, and C. The communication device 1 and the communication devices A, B, and C may be tablet terminals, feature phones, game machines, or the like as long as they are portable terminals having the same wireless communication function.
Since each communication device 1 and communication devices A, B, and C exchange communication data with each other by wireless communication are the same, the configuration of the communication device 1 will be described below as an example.

FIG. 2 is a functional block diagram illustrating the configuration of the communication device 1 for each function.
As illustrated in FIG. 2, the communication device 1 includes a control unit 11, a storage unit 12, an operation unit 13, a display unit 14, a clock unit 15, a microphone 161, a speaker 162, a call processing unit 16, a communication unit 17, and a short-range wireless. A communication unit 18, a position detection unit 19, a wireless LAN unit 20 and the like are provided. Each unit of the communication device 1 is connected by a bus 30.

The control unit 11 includes a CPU (Central Processing Unit), a RAM (Random Access Memory), and the like. The control unit 11 reads out the program stored in the storage unit 12 and executes the program to control the operation of each unit of the communication device 1.
For example, when a call is instructed via the operation unit 13, the control unit 11 executes a call processing program, and causes the call processing unit 16 and the communication unit 17 to exchange call audio with the communication device at the call destination. .
The control unit 11 also includes a function unit power control unit 111 (function unit control means) that performs power control on each function unit (communication unit 17, position detection unit 19, and wireless LAN unit 20) that controls a predetermined function of the communication device 1. ). When the main power of the communication device 1 is turned on, the control unit 11 executes a power control processing program and controls the function unit power control unit 111 to control the power of each function unit. .

The storage unit 12 stores a program that can be read by the control unit 11, data necessary for execution of the program, and the like.
As the storage unit 12, for example, a storage medium such as a hard disk, a ROM (Read Only Memory), an EEPROM (Electrically Erasable Programmable ROM), or a flash memory can be used.

  The operation unit 13 includes operation keys, a touch panel, and the like, generates an operation signal corresponding to these operations by the user, and outputs the operation signal to the control unit 11.

  The display unit 14 includes an LCD (Liquid Crystal Display), an organic EL (Electro luminescence) display, and the like, and displays a display screen such as an operation screen or a notification screen according to display control by the control unit 11.

  The timer unit 15 measures time based on the clock signal output from the oscillator, and outputs the current date and time.

The microphone 161 inputs a call voice.
The call processing unit 16 performs A / D conversion on the transmission voice input from the microphone 161, encodes it to generate a baseband signal of the call voice, and outputs it to the communication unit 17. In addition, the call processing unit 16 decodes the baseband signal of the call voice input from the communication unit 17, performs D / A conversion, and outputs the result to the speaker 162.
The speaker 162 outputs a call voice.

The communication unit 17 (portable communication function unit) includes an antenna 171 for RF (Radio Frequency) communication, and performs transmission and reception of call voice, mail, and the like with the base station using the antenna 171.
Specifically, the communication unit 17 demodulates radio waves received via the antenna 171, and outputs the obtained call voice baseband signal, mail packet, and the like to the call processing unit 16 and the control unit 11, respectively. . Further, the communication unit 17 transmits the radio wave obtained by modulating the mail packet input from the control unit 11 or the baseband signal input from the call processing unit 16 to the base station via the antenna 171. .
The communication unit 17 includes a communication unit power circuit 172 for controlling power supply to the communication unit 17, and the communication unit power circuit 172 is controlled by the functional unit power control unit 111. Yes.

The position detection unit 19 (GPS reception function unit) includes a GPS (Global Positioning System) antenna 191, receives radio waves from a plurality of GPS satellites by the antenna 191, and based on the radio waves and the reception time of the radio waves. The current position of the communication device 1 is detected by calculating the distance to a plurality of GPS satellites.
The position detection unit 19 includes a position detection unit power supply circuit 192 for controlling power supply to the position detection unit 19, and the position detection unit power supply circuit 192 is controlled by the functional unit power supply control unit 111. It is like that.

The wireless LAN unit 20 (wireless LAN communication function unit) includes a wireless LAN (Local Area Network) antenna 201 and performs communication with a wireless LAN access point via the antenna 201.
The wireless LAN unit 20 includes a wireless LAN unit power circuit 202 for controlling power supply to the wireless LAN unit 20, and the wireless LAN unit power circuit 202 is controlled by the functional unit power control unit 111. It is like that.

The near field communication unit 18 (near field communication means) includes a Bluetooth antenna 181 and a Bluetooth module. The short-range wireless communication unit 18 transmits and receives communication data to and from other communication apparatuses A, B, and C via the antenna 181 using a Bluetooth module.
As long as short-range wireless communication can be performed, the communication standard of the short-range wireless communication unit 18 is not limited to Bluetooth, but may be other communication standards such as Zigbee (registered trademark). .

The Bluetooth module uses a BLE (Bluetooth Low Energy) communication protocol for transmission and reception of communication data. For this reason, the power consumption of the short-range wireless communication unit 18 is lower than the power consumption of each functional unit (communication unit 17, position detection unit 19, wireless LAN unit 20).
The BLE communication protocol includes a transmission mode in which only communication data is transmitted to other communication devices A, B, and C, and a reception in which only communication data transmitted from other communication devices A, B, and C is received. The mode is repeated at regular intervals. The transmission mode is called Advertise, and the reception mode is called Scan.
The short-range wireless communication unit 18 transmits communication data to the other communication devices A, B, and C in the transmission mode according to the BLE communication protocol that repeats the transmission mode and the reception mode, and the other communication device A in the reception mode. , B and C are received.

According to BLE, communication data can be exchanged without establishing a connection.
FIG. 3 shows a time chart when the communication device 1 exchanges communication data without establishing connection with the three communication devices A, B, and C.
As shown in FIG. 3, the communication device 1 and each of the communication devices A, B, and C repeat the transmission mode represented by Advertise and the reception mode represented by Scan, and the role and role as Central. The role is switched alternately.

As shown in FIG. 3, the short-range wireless communication unit 18 switches between the transmission mode and the reception mode at a preset time. Specifically, the short-range wireless communication unit 18 includes a counter. The counter counts time, and when the switching time is reached, the transmission mode is switched to the reception mode or vice versa.
The time in the transmission mode and the reception mode can be set for each of the communication device 1 and the communication devices A, B, and C. Therefore, communication data can be exchanged when one communication device or communication device is in the transmission mode and the other communication device or communication device is in the reception mode. For example, the communication device 1 can receive the communication data transmitted from the communication device A while the transmission mode of the communication device A and the reception mode of the communication device 1 overlap.

FIG. 4 shows a format of communication data in BLE.
As shown in FIG. 4, the communication data is packet data including a header 31 and a payload 32. The Payload 32 that is actual data is composed of N AD Structures N34 with address33 at the head. address33 indicates the address of each AD Structure N34.
Each AD Structure N34 includes a Length 35, an AD Type 36, and an AD Data 37. Length 35 defines the data length of AD Structure N34. In AD Type 36, a flag indicating the type of data stored in AD Data 37 is stored. When a flag of 0xFF is stored in AD Type 36, specific data can be stored as AD Data 37.

  The specific data refers to arbitrary data that can be distributed to other communication apparatuses A, B, and C without being limited to BLE. Examples of data that can be stored in the AD Data 37 as specific data include information related to mobile communication reception status at the communication unit 17, information related to radio wave reception time at the position detection unit 19, and wireless LAN communication status of the wireless LAN communication unit 17. Information.

For example, when the communication device A is out of the mobile communication area such as 3G or LTE as in the communication device A shown in FIG. 1, the communication device A performs communication by writing “out of service area”, which is information related to the mobile communication reception status, as specific data. Is done.
In addition, when the radio wave from the GPS satellite is not received as in the communication device B shown in FIG. 1, the communication device B writes “the latest radio wave reception time” that is information related to the radio wave reception time as the specific data. Communicated.
In addition, when the wireless LAN base station is not connected like the communication device C shown in FIG. 1, the communication device C communicates by writing “uncommunication”, which is information related to the wireless LAN communication status, as specific data. The
In the communication device 1, these specific data are acquired by the control unit 11 via the short-range wireless communication unit 18, and the control unit 11 responds to the specific data with each function unit (communication unit 17, position detection unit 19). , Control the operation of the wireless LAN unit 20). That is, the control unit 11 is an information acquisition unit according to the present invention.

Hereinafter, the power supply control process in the communication apparatus 1 will be described with reference to FIG.
When the main power supply of the communication apparatus 1 is turned on, the control unit 11 executes a program for power supply control processing from the storage unit 12. Thus, the operation control method according to the present invention is executed.
In step S1, the control unit 11 controls the short-range wireless communication unit 18 and starts a short-range wireless communication operation.
In step S2, the short-range wireless communication unit 18 starts the reception mode under the control of the control unit 11 and waits for communication data transmitted from the communication devices A, B, and C. When the predetermined time has elapsed, the short-range wireless communication unit 18 ends the reception mode.
In step S <b> 3, the short-range wireless communication unit 18 starts a transmission mode under the control of the control unit 11 and transmits communication data to the communication devices A, B, and C. When the predetermined time has elapsed, the short-range wireless communication unit 18 ends the transmission mode.

  In step S4, the functional unit power control unit 111 determines whether or not the communication data received in the reception mode includes information related to the mobile communication reception status (step S4; YES). Shifts to step S5, and if not included (step S4; NO), shifts to step S8.

In step S5, the functional unit power control unit 111 determines whether or not the received information regarding the mobile communication status is “out of range”. If it is “out of range” (step S5; YES), the process proceeds to step S6. If it is not “out of service area” (step S5; NO), the process proceeds to step S7.
In step S6, the functional unit power supply control unit 111 controls the communication unit power supply circuit 172 to turn off the power supply to the communication unit 17, and the process proceeds to step S2.
In step S7, the functional unit power supply control unit 111 controls the communication unit power supply circuit 172 to turn on the power supply to the communication unit 17, and proceeds to step S2.
Thereby, the power control for the communication unit 17 is performed based on the information related to the mobile communication reception status of the communication device A around the communication device 1.
In step S6, the power supply to the communication unit 17 is turned off, and the power supply to the communication unit 17 is turned on in step S7. If the power supply state to the communication unit 17 is already in this state, Steps S6 and S7 can be skipped.

  In step S8, the functional unit power supply control unit 111 determines whether or not the information regarding the radio wave reception time is included in the communication data received in the reception mode, and if it is included (step S8; YES). Shifts to step S9, and if not included (step S8; NO), shifts to step S12.

In step S9, the functional unit power supply control unit 111 determines whether or not the “most recent radio wave reception time”, which is information relating to the received radio wave reception time, is within a predetermined time from the current time. If it is within the predetermined time (step S9; YES), the process proceeds to step S11. Here, the predetermined time is a time for determining that the communication device B in the vicinity of the communication device 1 has not received the radio wave of the GPS satellite.
In step S10, the functional unit power control unit 111 controls the position detection unit power supply circuit 192 to turn off the power supply to the position detection unit 19, and proceeds to step S2.
In step S11, the functional unit power supply control unit 111 controls the position detection unit power supply circuit 192 to turn on the power supply to the position detection unit 19, and proceeds to step S2.
As a result, the power control for the position detection unit 19 is performed based on the information regarding the radio wave reception time of the communication device B around the communication device 1.
In step S10, the power supply to the position detection unit 19 is turned off and the power supply to the position detection unit 19 is turned on in step S11. However, the power supply state to the position detection unit 19 is already in this state. In this case, step S10 and step S11 can be skipped.

  In step S12, the functional unit power supply control unit 111 determines whether or not information related to the wireless LAN communication status is included in the communication data received in the reception mode (step S12; YES). Shifts to step S13, and if not included (step S12; NO), shifts to step S2.

In step S13, the functional unit power control unit 111 determines whether or not the received information regarding the wireless LAN communication status is “communication impossible”. If it is “communication impossible” (step S13; NO), The process proceeds to step S14, and if it is not “communication impossible”, it is determined that communication is being performed with the base station (step S13; YES), and the process proceeds to step S15.
In step S14, the functional unit power control unit 111 controls the wireless LAN unit power supply circuit 202 to turn off the power supply to the wireless LAN unit 20, and proceeds to step S2.
In step S15, the functional unit power supply control unit 111 controls the wireless LAN unit power supply circuit 202 to turn on the power supply to the wireless LAN unit 20, and proceeds to step S2.
As a result, power control for the wireless LAN unit 20 is performed based on the information related to the wireless LAN communication status of the communication device C around the communication device 1.
In step S14, the power supply to the wireless LAN unit 20 is turned off and the power supply to the wireless LAN unit 20 is turned on in step S15. However, the power supply state to the wireless LAN unit 20 is already in this state. In this case, step S14 and step S15 can be skipped.

As described above, according to the present embodiment, each function unit (communication unit 17, position detection unit 19, wireless communication) is based on information about a predetermined function acquired from other communication devices A, B, and C in the vicinity. Since the operation control for the LAN unit 20) is performed, it is possible to adjust to the surrounding environment based on information acquired from the other communication devices A, B, and C without the user manually turning on / off each function unit one by one. Each functional unit can be controlled to be suitable. Therefore, the interruption of the function can be suppressed as much as possible, and efficient power saving can be achieved.
In this embodiment, the case where the power supply of each functional unit is turned off is illustrated as a kind of operation control. However, the output of the functional unit is weakened even if the power supply is not completely turned off. But power savings are possible.

  In addition, since the functional unit power control unit 111 performs power control for each functional unit, power saving can be achieved by direct control, and power control can be performed efficiently.

  Since the power consumption of the short-range wireless communication unit 18 is lower than the power consumption of each functional unit, the power consumption when acquiring each information from the surrounding communication devices A, B, C can also be suppressed.

  Moreover, since the control part 11 acquires the information regarding the portable communication reception status of the communication apparatus A, the operation of the communication part 17 of the communication apparatus 1 can be controlled by the information acquired from the surrounding communication apparatuses A. Therefore, it is not necessary to determine whether or not the communication device 1 is “out of service area” by itself, and the power consumption of the communication unit 17 can be suppressed accordingly.

  If the information related to the mobile communication reception status acquired from the surrounding communication device A is out of the service area, power is not supplied to the communication unit 17, so that the communication unit 17 can be operated wastefully while communication is not possible outside the service area. As a result, further power saving can be achieved.

  Moreover, since the control part 11 acquires the information regarding the radio wave reception time of the communication apparatus B, the operation | movement control of the position detection part 19 of the communication apparatus 1 can be performed with the said information acquired from the surrounding communication apparatus B. Therefore, it is not necessary to determine whether or not the communication device 1 can receive radio waves from GPS satellites, and the power consumption of the position detection unit 19 can be suppressed accordingly.

  And, when it is determined that the communication device is not able to receive the radio wave of the GPS satellite based on the information regarding the radio wave reception time acquired from the surrounding communication device B, power supply to the position detection unit 19 is not performed. While the radio waves cannot be received, the position detecting unit 19 is not operated wastefully, and further power saving can be achieved.

  Further, since the control unit 11 acquires information related to the wireless LAN communication status of the communication device C, the operation of the wireless LAN unit 20 of the communication device 1 can be controlled by the information acquired from the surrounding communication device C. Therefore, it is not necessary to determine whether or not the communication device 1 is “communication impossible”, and the power consumption of the wireless LAN unit 20 can be suppressed accordingly.

  If the information related to the wireless LAN communication status acquired from the surrounding communication device C is “communication impossible”, power is not supplied to the wireless LAN unit 20, so the wireless LAN unit 20 is wasted while communication is impossible. This eliminates the need for operation and further power saving can be achieved.

  The embodiments to which the present invention can be applied are not limited to the above-described embodiments, and can be appropriately changed without departing from the spirit of the present invention.

  For example, in the present embodiment, when power consumption is suppressed by controlling the power supply circuits 172, 192, and 202 of each functional unit (communication unit 17, position detection unit 19, wireless LAN unit 20) and turning off the power supply. However, the power consumption may be reduced by blocking the operation clock for each function unit from the control unit 11 and prohibiting the operation of each function unit.

As mentioned above, although several embodiment of this invention was described, the scope of the present invention is not limited to the above-mentioned embodiment, The range of the invention described in the claim is equal to the equivalent range. Including.
The invention described in the scope of claims attached to the application of this application will be added below. The item numbers of the claims described in the appendix are as set forth in the claims attached to the application of this application.

[Appendix]
<Claim 1>
A communication device that includes short-range wireless communication means and communicates with other communication devices,
Functional unit control means for performing operation control on a functional unit that controls a predetermined function of the communication device;
Information acquisition means for acquiring information on the predetermined function held by the communication device by communication by the short-range wireless communication means;
The communication device according to claim 1, wherein the functional unit control unit performs operation control on the functional unit based on the information acquired by the information acquisition unit.
<Claim 2>
The communication device according to claim 1.
The communication device according to claim 1, wherein the functional unit control means performs power control for the functional unit.
<Claim 3>
The communication device according to claim 2.
The communication apparatus characterized in that power consumption of the short-range wireless communication means is lower than power consumption of the functional unit.
<Claim 4>
The communication device according to claim 2 or 3,
The function unit is a mobile communication function unit,
The communication device characterized in that the information acquisition means acquires information relating to a mobile communication reception status of the communication device.
<Claim 5>
The communication device according to claim 4, wherein
The communication device according to claim 1, wherein the function unit control unit does not supply power to the function unit when the information related to the mobile communication reception status acquired by the information acquisition unit is out of range.
<Claim 6>
The communication device according to claim 2 or 3,
The function unit is a GPS reception function unit,
The communication apparatus characterized in that the information acquisition means acquires information related to a radio wave reception time of the communication apparatus.
<Claim 7>
The communication device according to claim 6.
The communication device according to claim 1, wherein the function unit control unit does not supply power to the function unit when the information related to the radio wave reception time acquired by the information acquisition unit is not within a predetermined time.
<Claim 8>
The communication device according to claim 2 or 3,
The functional unit is a wireless LAN communication functional unit,
The communication apparatus characterized in that the information acquisition means acquires information relating to a wireless LAN communication status of the communication apparatus.
<Claim 9>
The communication device according to claim 8.
The communication device according to claim 1, wherein the function unit control unit does not supply power to the function unit when the information related to the wireless LAN communication status acquired by the information acquisition unit is not communicable.
<Claim 10>
An operation control method for a functional unit that includes a short-range wireless communication unit and performs a predetermined function of a communication device that communicates with another communication device,
A functional unit control step for performing operation control on the functional unit;
An information acquisition step of acquiring information on the predetermined function held by the communication device by communication by the short-range wireless communication means,
In the functional unit control step, the operational control is performed on the functional unit based on the information acquired in the information acquisition step.
<Claim 11>
A computer of a communication device that includes short-range wireless communication means and communicates with other communication devices.
Functional unit control means for performing operation control on a functional unit that controls a predetermined function of the communication device;
Causing the information related to the predetermined function held by the communication device to function as information acquisition means for acquiring by communication by the short-range wireless communication means;
The function unit control unit performs operation control on the function unit based on the information acquired by the information acquisition unit.

1 Communication Device 11 Control Unit (Information Acquisition Unit)
12 Storage Unit 13 Operation Unit 14 Display Unit 15 Timekeeping Unit 16 Call Processing Unit 17 Communication Unit (Portable Communication Function Unit)
18 Short-range wireless communication unit (short-range wireless communication means)
19 Position detection unit (GPS reception function unit)
20 Wireless LAN unit (Wireless LAN communication function unit)
30 bus 111 function part power supply control part (function part control means)
161 Microphone 162 Speaker 171 Antenna 172 Communication unit power supply circuit 181 Antenna 191 Antenna 192 Position detection unit power supply circuit 201 Antenna 202 Wireless LAN unit power supply circuit A, B, C Communication device

Claims (10)

A communication device that includes a short-range wireless communication unit and communicates with other communication devices,
The communication device and the other communication device each include the same mobile communication function unit,
Functional unit control means for performing power control on the portable communication functional unit of the communication device;
Information acquisition means for acquiring information related to the mobile communication reception status of the mobile communication function unit of the other communication device by communication by the short-range wireless communication unit,
The function unit control unit does not supply power to the mobile communication function unit of the communication device when the information related to the mobile communication reception status of the mobile communication function unit of the other communication device acquired by the information acquisition unit is out of range. A communication device. A communication device that includes a short-range wireless communication unit and communicates with other communication devices,
The communication device and the other communication device each have the same GPS reception function unit,
Functional unit control means for performing operation control on the GPS reception function unit of the communication device;
Information acquisition means for acquiring information on the radio wave reception time of the GPS reception function unit of the other communication device by communication by the short-range wireless communication unit,
The function unit control unit performs operation control on the GPS reception function unit of the communication device based on information on the radio wave reception time of the GPS reception function unit of the other communication device acquired by the information acquisition unit. A communication device. A communication device that includes a short-range wireless communication unit and communicates with other communication devices,
The communication device and the other communication device each include the same wireless LAN communication function unit,
Functional unit control means for performing power control on the wireless LAN communication functional unit of the communication device;
Information acquisition means for acquiring information on the wireless LAN communication status of the wireless LAN communication function unit of the other communication device by communication by the short-range wireless communication unit;
When the information regarding the wireless LAN communication status of the wireless LAN communication function unit of the other communication device acquired by the information acquisition unit is not communicable, the function unit control unit supplies power to the wireless LAN communication function unit of the communication device. A communication device characterized by not performing. The communication device according to claim 2 .
When the information regarding the radio wave reception time of the GPS reception function unit of the other communication device acquired by the information acquisition unit is not within a predetermined time, the function unit control unit supplies power to the GPS reception function unit of the communication device. A communication device characterized by not performing. The communication device includes a short-range wireless communication unit and communicates with another communication device, and the communication device and the other communication device are each an operation control method for a communication device including the same mobile communication function unit. And
A function unit control step for performing power control on the portable communication function unit of the communication device;
An information acquisition step of acquiring information related to the mobile communication reception status of the mobile communication function unit of the other communication device by communication by the short-range wireless communication unit,
In the function unit control step, when the information related to the mobile communication reception status of the mobile communication function unit of the other communication device acquired in the information acquisition step is out of range, power is not supplied to the mobile communication function unit of the communication device. An operation control method characterized by the above. The communication device includes a short-range wireless communication unit and communicates with another communication device, and the communication device and the other communication device are each an operation control method for a communication device provided with the same GPS reception function unit. And
A function unit control step for performing operation control on the GPS reception function unit of the communication device;
An information acquisition step of acquiring information related to the radio wave reception time of the GPS reception function unit of the other communication device by communication by the short-range wireless communication unit,
In the functional unit control step, operation control on the GPS reception function unit of the communication device is performed based on information on the radio wave reception time of the GPS reception function unit of the other communication device acquired in the information acquisition step. The operation control method. A communication device that includes a short-range wireless communication unit and communicates with another communication device, wherein the communication device and the other communication device each have the same wireless LAN communication function unit. There,
A function unit control step for performing power control on the wireless LAN communication function unit of the communication device;
An information acquisition step of acquiring information related to the wireless LAN communication status of the wireless LAN communication function unit of the other communication device by communication by the short-range wireless communication unit,
In the function unit control step, when the information regarding the wireless LAN communication status of the wireless LAN communication function unit of the other communication device acquired in the information acquisition step is not communicable, power is supplied to the wireless LAN communication function unit of the communication device The operation control method characterized by not performing. A communication device including a short-range wireless communication unit and communicating with another communication device, wherein the communication device and the other communication device each include a computer of the communication device including the same portable communication function unit,
Functional unit control means for performing power control on the portable communication functional unit of the communication device;
Information on the mobile communication reception status of the mobile communication function unit of the other communication device functions as information acquisition means for acquiring by communication by the short-range wireless communication unit,
The function unit control unit does not supply power to the mobile communication function unit of the communication device when the information related to the mobile communication reception status of the mobile communication function unit of the other communication device acquired by the information acquisition unit is out of range. A program characterized by that. A communication device that includes a short-range wireless communication unit and communicates with another communication device, wherein the communication device and the other communication device each include a computer of the communication device that includes the same GPS reception function unit,
Functional unit control means for performing operation control on the GPS reception function unit of the communication device;
Information regarding the radio wave reception time of the GPS reception function unit of the other communication device functions as information acquisition means for acquiring by communication by the short-range wireless communication unit,
The function unit control unit performs operation control on the GPS reception function unit of the communication device based on information on the radio wave reception time of the GPS reception function unit of the other communication device acquired by the information acquisition unit. Program. A communication device that includes a short-range wireless communication unit and communicates with another communication device, wherein the communication device and the other communication device each include a computer of the communication device that includes the same wireless LAN communication function unit.
Functional unit control means for performing power control on the wireless LAN communication functional unit of the communication device;
Information regarding the wireless LAN communication status of the wireless LAN communication function unit of the other communication device functions as information acquisition means for acquiring by communication by the short-range wireless communication unit,
When the information regarding the wireless LAN communication status of the wireless LAN communication function unit of the other communication device acquired by the information acquisition unit is not communicable, the function unit control unit supplies power to the wireless LAN communication function unit of the communication device. A program characterized by not performing.

Images