JP2022078530A - Information processing device and program - Google Patents

Abstract

To suppress power consumption.SOLUTION: An information processing device 10 includes a control section 11 and a communication section 12. The communication section 12 performs wireless communication by exchange of an electric wave via an antenna 12a. The control section 11 stops the supply of power to the communication section 12 so as to set OFF of the reception of the electric wave based on position information of the own device. In this case, the control section 11 acquires present position information of the own device by wireless communication by the communication section 12. The control section 11 collates the acquired present position information with previous position information of the own device which has been previously registered by a user. When the present position information coincides with the previous position information, the control section 11 stops the supply of power to the communication section 12 so as to set OFF of the reception of the electric wave.SELECTED DRAWING: Figure 1

Description

The present invention relates to an information processing apparatus and a program.

In recent years, in order to prevent information leakage due to loss or theft of an information processing device, an information processing device having a remote control function has been developed. In such an information processing device, even if it is lost or stolen, the information processing device can be locked (for example, the OS (Operating System) cannot be started) by remote operation, or the data stored in the information processing device can be locked. It is possible to prevent information leakage because it can be erased.

As a related technique, for example, a technique of transmitting remote control information for information security processing of a mobile terminal device to the mobile terminal device when the person is identified by a personal authentication process for identifying the owner of the mobile terminal device is proposed. Has been done.

Japanese Unexamined Patent Publication No. 2006-303817

However, in the conventional information processing apparatus having the remote control function as described above, in order to lock / erase data by remote control, the standby state of the message received by the radio wave is always maintained, and the power consumption in the standby state is maintained. There is the problem of increased consumption.
In one aspect, it is an object of the present invention to provide an information processing device and a program aimed at suppressing power consumption.

An information processing device is provided to solve the above problems. The information processing device acquires the current position information of the communication unit that performs wireless communication and the own device, collates the current position information with the pre-position information of the own device registered in advance, and sets the current position information and the pre-position. When the information matches, it has a control unit that stops the supply of power to the communication unit and sets the reception of radio waves to off.
Further, in order to solve the above-mentioned problem, a program for causing a computer to execute the same control as the above-mentioned information processing apparatus is provided.

According to one aspect, it is possible to suppress power consumption.

It is a figure for demonstrating an example of an information processing apparatus. It is a figure which shows an example of the functional block of an information processing apparatus. It is a figure which shows an example of the hardware composition of an information processing apparatus. It is a flowchart which shows an example of the operation of an information processing apparatus. It is a figure which shows an example of the sequence of remote control of an information processing apparatus. It is a figure which shows an example of the condition at the time of setting on / off of a radio wave reception. It is a figure which shows an example of the correspondence relation between the radio wave reception on / off state and the power supply / stop state.

Hereinafter, the present embodiment will be described with reference to the drawings.
FIG. 1 is a diagram for explaining an example of an information processing device. The information processing device 10 includes a control unit 11 and a communication unit 12. The communication unit 12 performs wireless communication by transmitting and receiving radio waves through the antenna 12a.

The control unit 11 stops the supply of electric power to the communication unit 12 and sets the reception of radio waves to off based on the position information of the own device (information processing device 10). The function of the control unit 11 can be realized by, for example, a processor (not shown) included in the information processing apparatus 10 executing a predetermined program.

The flow of operation will be described.
[Step S1] The control unit 11 acquires the current position information of its own device by wireless communication by the communication unit 12.

[Step S2] The control unit 11 collates the acquired current position information with the prior position information of the own device registered in advance by the user.
[Step S3] When the current position information and the prior position information match, the control unit 11 stops the supply of electric power to the communication unit 12 and sets the reception of radio waves to off.

Here, when the current position information of the information processing device 10 matches the pre-position information, the information processing device 10 exists at a position (home, work, etc.) pre-registered by the user, and is therefore pre-registered. It is unlikely that information will be leaked from the information processing device 10 placed at the above position.

In such a state, the information processing apparatus 10 does not need to be remotely controlled to lock / erase data to prevent information leakage. Therefore, the standby state of the remote controlled message received by radio waves is always set. It also becomes unnecessary to maintain.

Therefore, in the information processing apparatus 10 of the present invention, when the current position information and the prior position information match, the supply of electric power to the communication unit 12 is stopped and the reception of radio waves is set to off.
As a result, in a state where remote control of lock / data erasure to prevent information leakage is unnecessary, the power supply to the communication unit 12 is stopped, the reception of radio waves is set to off, and the standby state of the message is released. Therefore, it becomes possible to suppress the power consumption of the information processing apparatus 10.

<Functional block>
FIG. 2 is a diagram showing an example of a functional block of an information processing device. The information processing device 10 includes a control unit 11, a communication module 12 (hereinafter, the communication unit is referred to as a communication module), a storage unit 13, an operation unit 14, a display unit 15, a peripheral device connection unit 16, a power supply unit 17, and an acceleration sensor 18. , And PCH (Platform Controller Hub) 19.

A control unit 11, a storage unit 13, an operation unit 14, a display unit 15, and a peripheral device connection unit 16 are connected to the PCH 19. The PCH 19 manages buses by concentrating bus lines for connecting to these devices.

The control unit 11 includes an operation control unit 11a and a power supply control unit 11b. The operation control unit 11a is, for example, a CPU (Central Processing Unit), and the power supply control unit 11b is, for example, a PMU (Power Management Unit).

The operation control unit 11a is responsible for the main function of the information processing device 10, and controls the operation of the information processing device 10 based on, for example, an OS or an application. The power supply control unit 11b controls the power supply of the information processing device 10 and controls to supply or stop the power output from the power supply unit 17 to each device.
The storage unit 13 stores prior position information of the information processing apparatus 10 registered in advance by the user, data stored by the user, control information related to the operation of the apparatus, and the like.

The operation unit 14 is a touch panel or the like, and performs information input processing from the user. The display unit 15 is a display such as an LCD (Liquid Crystal Display), and performs information display output processing for the user.

The peripheral device connection unit 16 performs interface processing for connecting the peripheral device to the information processing device 10 and performing communication. For example, the peripheral device connection unit 16 performs USB (Universal Serial Bus) interface processing.

On the other hand, the PCH 19, the power supply unit 17, the acceleration sensor 18 (sensor unit), and the communication module 12 are connected to the power supply control unit 11b in the control unit 11. The power supply unit 17 has a battery function and supplies electric power to each device based on the power supply control from the power supply control unit 11b. The acceleration sensor 18 detects movement (position change) such as movement, tilt, and vibration of the information processing device 10. The power consumption of the acceleration sensor 18 is smaller than the power consumption of the message standby state when the radio wave is turned on in the communication module 12.

The communication module 12 provides a wireless communication interface via the antenna 12a. For example, the communication module 12 connects to a WWAN (Wireless Wide Area Network) and performs a wireless communication interface for a subscriber specified from a SIM (Subscriber Identity Module).

<Hardware configuration>
FIG. 3 is a diagram showing an example of the hardware configuration of the information processing apparatus. The information processing device 10 is totally controlled by the processor (computer) 100. The processor 100 has the function of the control unit 11. Although not shown, the power supply unit 17 and the acceleration sensor 18 are connected to the processor 100.

The memory 101, the input / output interface 102, and the network interface 104 are connected to the processor 100 via the bus 103.
The processor 100 may be a multiprocessor. The processor 100 is, for example, a CPU, a PMU, an FPGA (Field Programmable Gate Array), an MPU (Micro Processing Unit), a DSP (Digital Signal Processor), an ASIC (Application Specific Integrated Circuit), or a PLD (Programmable Logic Device). Further, the processor 100 may be a combination of two or more elements of the CPU, PMU, FPGA, MPU, DSP, ASIC, and PLD.

The memory 101 has the function of the storage unit 13 and is used as the main storage device of the information processing device 10. At least a part of the OS program and the application program to be executed by the processor 100 is temporarily stored in the memory 101. Further, various data required for processing by the processor 100 are stored in the memory 101.

The memory 101 is also used as an auxiliary storage device for the information processing device 10, and stores OS programs, application programs, and various data. The memory 101 may include a semiconductor storage device such as a flash memory or SSD (Solid State Drive) or a magnetic recording medium such as an HDD (Hard Disk Drive) as an auxiliary storage device.

Peripheral devices connected to the bus 103 include an input / output interface 102 and a network interface 104. The input / output interface 102 has the functions of the operation unit 14, the display unit 15, and the peripheral device connection unit 16. Further, the input / output interface 102 can be connected to an information input device such as a keyboard or a mouse, and transmits a signal transmitted from the information input device to the processor 100.

Further, the input / output interface 102 also functions as a communication interface for connecting peripheral devices. For example, the input / output interface 102 can be connected to an optical drive device that reads data recorded on an optical disk by using a laser beam or the like. Optical discs include Blu-ray Disc (registered trademark), CD-ROM (Compact Disc Read Only Memory), CD-R (Recordable) / RW (Rewritable), and the like.

Further, the input / output interface 102 can be connected to a memory device or a memory reader / writer. The memory device is a recording medium equipped with a communication function with the input / output interface 102. A memory reader / writer is a device that writes data to or reads data from a memory card. The memory card is a card-type recording medium.

The network interface 104 has the function of the communication module 12 and connects to the network to control the network interface. As the network interface 104, for example, a NIC (Network Interface Card), a wireless LAN (Local Area Network) card, or the like can be used. The data received by the network interface 104 is output to the memory 101 and the processor 100.

With the hardware configuration as described above, the processing function of the information processing apparatus 10 can be realized. For example, the information processing apparatus 10 can perform the processing of the present invention by each processor 100 executing a predetermined program.

The information processing apparatus 10 realizes the processing function of the present invention, for example, by executing a program recorded on a recording medium readable by a computer. The program describing the processing content to be executed by the information processing apparatus 10 can be recorded on various recording media.

For example, a program to be executed by the information processing device 10 can be stored in the auxiliary storage device. The processor 100 loads at least a part of the program in the auxiliary storage device into the main storage device and executes the program.

It can also be recorded on a portable recording medium such as an optical disk, a memory device, or a memory card. The program stored in the portable recording medium can be executed after being installed in the auxiliary storage device, for example, under the control of the processor 100. The processor 100 can also read and execute the program directly from the portable recording medium.

<Operation flow chart>
FIG. 4 is a flowchart showing an example of the operation of the information processing apparatus. This operation is performed, for example, during a process in which the user turns off the power of the information processing apparatus 10.
[Step S11] The operation control unit 11a acquires the current position information of the information processing device 10. Specifically, the operation control unit 11a acquires the latitude / longitude information of the current position of the information processing apparatus 10 positioned by GPS (Global Positioning System) via the communication module 12.

[Step S12] The operation control unit 11a collates the current position information acquired in step S11 with the prior position information registered in advance in the information processing apparatus 10. That is, the operation control unit 11a collates the latitude / longitude information of the current position with the latitude / longitude information of the position registered in advance.

[Step S13] The operation control unit 11a determines whether or not the current position information and the prior position information match, and if they match, the process proceeds to step S14, and if they do not match, the process proceeds to step S17.

Here, whether or not the current position information and the prior position information match is determined by, for example, the distance difference of the position information. Specifically, when the distance difference between the current position information and the prior position information is less than the threshold value, it is determined that the current position information and the prior position information match (the current position of the information processing apparatus 10 is determined in advance). It exists near the registered position).

If the distance difference between the current position information and the prior position information is equal to or greater than the threshold value, it is determined that the current position information and the prior position information do not match (the current position of the information processing apparatus 10 is registered in advance. It exists away from a certain position).

[Step S14] The power supply control unit 11b stops the power supply to the communication module 12 and sets the reception of radio waves via the antenna 12a to off.
[Step S15] Whether or not the power supply control unit 11b has detected the movement of the information processing apparatus 10 by the acceleration sensor 18 within a predetermined time (for example, an arbitrary several minutes) immediately after the reception of radio waves is set to off. Is determined.
If the movement is detected within the predetermined time range, the process returns to step S14, and if the movement is not detected within the predetermined time range, the process proceeds to step S16.

[Step S16] The power supply control unit 11b determines whether or not the movement of the information processing apparatus 10 is detected by the acceleration sensor 18 after the lapse of a predetermined time. If the movement is detected after the elapse of the predetermined time, the process proceeds to step S17, and if the movement is not detected after the elapse of the predetermined time, the process returns to step S14.
[Step S17] The power supply control unit 11b supplies power to the communication module 12 and sets reception of radio waves via the antenna 12a to ON.

Here, in the above operation flowchart, when the current position information and the advance position information match, it means that the information processing apparatus 10 exists at the position registered in advance. In this state, the possibility of the information processing device 10 being lost or stolen is low, and the possibility of information leakage is low.

For example, it is assumed that when the pre-position information registered in advance in the information processing apparatus 10 is the position of the user's workplace, it is determined that the current position information and the pre-position information match. This may mean that, for example, the user has left the information processing apparatus 10 in his / her own seat in the workplace, so that the possibility of information leakage is low.

Therefore, in such a state, remote control of locking / erasing data to the information processing device 10 is unnecessary (reception of a remote instruction message for remote control is unnecessary). Therefore, the power supply control unit 11b stops the power supply to the communication module 12 and turns off the reception of radio waves via the antenna 12a.

As a result, in a state where remote control of lock / data erasure for preventing information leakage is unnecessary, the power supply to the communication module 12 is stopped and the reception of radio waves is set to off, so that the power of the information processing apparatus 10 is set to off. It becomes possible to suppress the consumption (the power consumption of the battery can be suppressed).

Further, when the current position information and the prior position information do not match, it means that the information processing apparatus 10 does not exist (exists apart) at the position registered in advance. In this state, the information processing device 10 may be lost or stolen, and there is a high possibility of information leakage.

For example, it is assumed that when the pre-position information registered in advance in the information processing apparatus 10 is the position of the user's workplace, it is determined that the current position information and the pre-position information do not match. This is because the information processing device 10 does not exist in the workplace, and it is possible that the user has left it on a business trip or stolen it, so there is a high possibility of information leakage.

Therefore, in such a state, it is desirable to be able to perform remote control of locking / erasing data to the information processing apparatus 10 (allowing reception of a remote instruction message for remote control). Therefore, the power supply control unit 11b supplies power to the communication module 12 and sets the reception of radio waves via the antenna 12a to ON.

As a result, in a state where remote control of lock / data erasure is required, power is supplied to the communication module 12, radio wave reception is set to ON, and the communication module 12 can shift to the message standby state, so that remote control can be performed. Can be executed, and it becomes possible to prevent information leakage of the information processing apparatus 10.

On the other hand, if the movement is detected by the accelerometer 18 within a predetermined time range immediately after the setting of turning off the reception of radio waves, the movement of the information processing apparatus 10 is ignored and the setting of turning off the reception of radio waves is set. Will be continued.

As the movement within the predetermined time range, for example, it is assumed that the information processing apparatus 10 is stored in the locker by the user in a short time. In this case, the information processing device 10 is not illegally moved due to theft or the like.

Therefore, the movement of the information processing apparatus 10 within the predetermined time range immediately after the setting of turning off the reception of radio waves is regarded as the stationary state of the information processing apparatus 10, and is an opportunity to execute the remote control of lock / data erasure. It is controlled so that it does not become.

That is, when the acceleration sensor 18 detects the movement of the information processing apparatus 10 within a predetermined time range immediately after the radio wave reception is set to off, the power supply control unit 11b stops the power supply to the communication module 12. Continue setting off reception of radio waves. As a result, when the movement of the information processing apparatus 10 is not an illegal movement (stationary state), the reception of radio waves is set to be turned off, so that power consumption can be suppressed.

Further, when the movement of the information processing apparatus 10 is detected by the acceleration sensor 18 after a predetermined time has elapsed after the reception of radio waves is set to off, the reception of radio waves is set to on. As the movement after the lapse of a predetermined time, for example, it is assumed that the information processing apparatus 10 is illegally taken out due to theft or the like.

Therefore, the movement of the information processing apparatus 10 is not detected within the predetermined time range immediately after the setting of turning off the radio wave, and if the movement is detected after the lapse of the predetermined time, the remote control of lock / data erasure can be executed. Is controlled by.

That is, when the acceleration sensor 18 detects the movement of the information processing apparatus 10 after the lapse of a predetermined time, the power supply control unit 11b supplies electric power to the communication module 12 and sets the reception of radio waves to ON. As a result, when the information processing apparatus 10 is moved illegally, the reception of radio waves is set to be turned on, so that remote control for preventing information leakage can be executed.

<Sequence of remote control>
FIG. 5 is a diagram showing an example of a sequence of remote control of an information processing device. In FIG. 5, for example, the user notices that the information processing apparatus 10 has been misplaced on a business trip, the user accesses the in-house management server from his / her mobile terminal (smartphone, etc.), and the management server directs the information processing apparatus 10 toward the information processing apparatus 10. It shows the flow when performing remote control of lock / data erasure.

[Step S21] The management server 20 receives an instruction message sent from the user for performing remote control of locking / erasing the information processing device 10.
[Step S22] The management server 20 transmits the received lock / data erasure instruction message to the information processing apparatus 10. For example, the instruction message can be remotely transmitted to the information processing apparatus 10 by using SMS (Short Message Service).

[Step S23] When the communication module 12 in the information processing apparatus 10 receives the instruction message, the communication module 12 asserts the reception flag.
[Step S24] When the power supply control unit 11b in the information processing apparatus 10 recognizes the reception flag, the process for preventing information leakage is started. For example, the data stored in the storage unit 13 of the information processing apparatus 10 is erased based on the instruction message. Alternatively, the information processing device 10 is locked so that it cannot be operated. This lock can be released only by receiving an instruction message for releasing the lock from the communication module 12. At this time, the data stored in the storage unit 13 is not erased and remains retained.

Further, at this time, the power supply control unit 11b performs GPS positioning via the communication module 12 and acquires the current position information of the information processing device 10.

[Step S25] The power supply control unit 11b transmits the lock / data erasure execution result of the information processing apparatus 10 and the acquired current position information to the communication module 12 as a processing result.
[Step S26] The communication module 12 remotely transmits the processing result to the management server 20 and notifies the management server 20, for example, by SMS. The processing result notified to the management server 20 can be viewed from the user's mobile terminal.

<Conditions for setting on / off radio wave reception>
FIG. 6 is a diagram showing an example of conditions for setting on / off of radio wave reception. Table T1 is a list showing conditions when radio wave reception is turned on / off. The stationary state in the figure indicates a state in which the information processing apparatus 10 is stationary, and a state in which the information processing apparatus 10 is moved within a predetermined time immediately after setting the reception of radio waves to be off is also included in the stationary state. Further, the moving state in the figure indicates a state in which the information processing apparatus 10 has moved after a predetermined time has elapsed.

When the current position information of the information processing apparatus 10 and the prior position information match and the information processing apparatus 10 is in a stationary state, the reception of radio waves of the information processing apparatus 10 is set to off. When the current position information of the information processing device 10 and the prior position information match and the information processing device 10 is in the moving state, the reception of radio waves of the information processing device 10 is set to ON.

When the current position information of the information processing apparatus 10 and the prior position information do not match and the information processing apparatus 10 is in a stationary state, the reception of radio waves of the information processing apparatus 10 is set to ON. When the current position information of the information processing device 10 and the prior position information do not match and the information processing device 10 is in the moving state, the reception of radio waves of the information processing device 10 is set to ON.

<Correspondence between radio wave reception on / off state and power supply / stop state>
FIG. 7 is a diagram showing an example of the correspondence relationship between the radio wave reception on / off state and the power supply / stop state. Table T2 is a list showing the correspondence relationship between the radio wave reception on / off state and the power supply / stop state.

When the reception of radio waves is set to off under the conditions shown in FIG. 6, the power supply to the operation control unit 11a and the PCH 19 is stopped, and the power supply to the communication module 12 is stopped. .. Further, the electric power to the power supply control unit 11b and the acceleration sensor 18 is in the supply state.
Since the power supply to the operation control unit 11a is stopped, the OS startup is stopped. Further, since the power supply to the PCH 19 is stopped, the power supply to the device operating in relation to the OS, for example, the operation unit 14, the display unit 15, and the peripheral device connection unit 16 connected to the PCH 19 is also stopped.

On the other hand, when the reception of radio waves is set to ON under the conditions shown in FIG. 6, the power supply to the operation control unit 11a and the PCH 19 is stopped. Further, power is being supplied to the power supply control unit 11b, the acceleration sensor 18, and the communication module 12.

In this way, the power supply control unit 11b stops the startup of the OS, stops the supply of power to the communication module 12 and the devices operating in connection with the OS, and stops the supply of power to the communication module 12 and the device operating in connection with the OS, and the acceleration sensor 18 is set. Is supplied with power.

As a result, when the reception of radio waves is set to be off, power is supplied to the power control unit 11b and the acceleration sensor 18, and power is not supplied to other devices, so that power consumption in a state where remote control is not required. Can be suppressed.

The processing function of the information processing apparatus 10 of the present invention described above can be realized by a computer. In this case, a program describing the processing contents of the functions that the information processing apparatus 10 should have is provided. By executing the program on a computer, the above processing function is realized on the computer.

The program describing the processing content can be recorded on a computer-readable recording medium. The recording medium that can be read by a computer includes a magnetic storage unit, an optical disk, a photomagnetic recording medium, a semiconductor memory, and the like. The magnetic storage unit includes a hard disk device (HDD), a flexible disk (FD), a magnetic tape, and the like. Optical discs include CD-ROM / RW and the like. The magneto-optical recording medium includes MO (Magneto Optical disk) and the like.

When a program is distributed, for example, a portable recording medium such as a CD-ROM in which the program is recorded is sold. It is also possible to store the program in the storage of the server computer and transfer the program from the server computer to another computer via the network.

The computer that executes the program stores, for example, the program recorded on the portable recording medium or the program transferred from the server computer in its own storage unit. Then, the computer reads the program from its own storage unit and executes the processing according to the program. The computer can also read the program directly from the portable recording medium and execute the processing according to the program.

Further, the computer can also sequentially execute the processing according to the received program each time the program is transferred from the server computer connected via the network. Further, at least a part of the above processing functions can be realized by an electronic circuit such as a DSP, ASIC, or PLD.

Although the embodiment has been illustrated above, the configuration of each part shown in the embodiment can be replaced with another having the same function. Further, any other components or processes may be added. Further, any two or more configurations (features) of the above-described embodiments may be combined.

10 Information processing device 11 Control unit 12 Communication unit 12a Antenna

Claims (6)

With the communication unit that performs wireless communication,
The current position information of the own device is acquired, the current position information is collated with the pre-position information of the own device registered in advance, and if the current position information and the pre-position information match, the present position information is matched. A control unit that stops the supply of power to the communication unit and sets the reception of radio waves to off.
Information processing device with. The information processing device according to claim 1, wherein the control unit supplies electric power to the communication unit to turn on reception of the radio wave when the current position information and the prior position information do not match. Further equipped with a sensor unit for detecting the movement of the own device,
When the sensor unit detects the movement within a predetermined time range immediately after setting the reception of the radio wave to be off, the control unit turns off the reception of the radio wave by stopping the power supply to the communication unit. The information processing apparatus according to claim 1, wherein the setting of the above is continued. The information processing apparatus according to claim 3, wherein the control unit supplies electric power to the communication unit to turn on reception of the radio wave when the movement is detected by the sensor unit after the elapse of the predetermined time. .. The control unit stops the activation of the OS (Operating System) when the reception of the radio wave is set to be off, stops the supply of electric power to the communication unit and the device operating in connection with the OS, and causes the self. The information processing device according to claim 1, wherein power is supplied to the sensor unit that detects the movement of the device. On the computer
Acquires the current position information of the own device and
The current position information is collated with the pre-position information of the own device registered in advance, and the present position information is collated.
When the current position information and the advance position information match, the power supply to the communication unit performing wireless communication is stopped and the reception of radio waves is set to off.
A program that executes processing.

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