JP4534378B2 - Portable information device having data saving function and data saving method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a portable information device that performs data communication with another information processing device using wireless communication, or a portable device that performs data communication using wireless communication between an image display device and a data processing device constituting the portable information device. The present invention relates to an information device and a data saving method thereof.
[0002]
[Prior art]
Conventionally, when a portable information device is stolen or lost, important data remains inside, and the confidentiality of information cannot be maintained. Also, important data will be lost.
[0003]
On the other hand, when the device disclosed in Japanese Patent Laid-Open No. 2001-28782 detects the presence of a portable information device outside a predetermined area, for example, outside the wireless area, the device of the storage device in the portable information device. It erases information.
[0004]
[Problems to be solved by the invention]
However, in the conventional portable information device, even if the user accidentally takes the portable information device out of the service area, the information is erased. Further, since the data is erased, confidentiality is maintained, but important data is lost.
[0005]
The present invention has been made in view of the above problems, and can determine the theft / loss situation, etc. Under the theft / loss situation, etc., first backup important data as much as possible and complete the backup or backup. It is an object of the present invention to provide a portable information device capable of saving data and maintaining confidentiality in case of theft or loss by erasing data as soon as it becomes impossible.
[0006]
Also, a personal computer in a place where the display and the main body of the PC are wirelessly connected so that the display unit can be carried (hereinafter referred to as a wireless display PC) or a portable operating device (for example, a remote controller). In the form of controlling the user, the user does not carry the PC main body side and may be left in a place away from the user, such as in a car. In this case, it is also an object to enable data evacuation and confidentiality maintenance when the PC main body side that the user cannot see is stolen or lost.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, a portable information device according to the present invention includes processing means for executing various controls, storage means for storing data, wireless communication means for wirelessly communicating data in the storage means, and portable information equipment. Memory is provided when a situation in which the main body is about to be stolen / lost is detected by providing a status detecting means for outputting information that allows the processing means to determine that the main body is about to be stolen / lost. Important data to be transmitted / saved by wireless communication, and the data in the portable information device can be erased when the transmission is completed or the data cannot be saved due to the mobile information device main body being out of service area, etc. It is characterized by this.
[0008]
With this configuration, even when the portable information device is stolen or lost, data can be saved and confidentiality can be maintained as much as possible.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0010]
(Embodiment 1)
FIG. 1 is a schematic block diagram of a portable information device according to Embodiment 1 of the present invention.
[0011]
In FIG. 1, a processing unit 101 is connected to a storage unit 102, a wireless communication unit 103, and a situation detection unit 104, and executes control for each unit. The storage unit 102 stores processing target data and processing result data of the processing unit 101. The wireless communication unit 103 performs wireless communication with other information processing apparatuses. The status detection means 104 detects and outputs the installation status of the portable information device. The processing unit 101 determines whether the installation status of the portable information device is normal or abnormal based on the output of the status detection unit 104. This determination makes it possible to determine whether or not the portable information device is in a situation where it is about to be stolen or lost, for example.
[0012]
FIG. 2 is a block diagram of the portable information device according to Embodiment 1 of the present invention.
[0013]
The processing means 101 is constituted by a CPU 201. Both the memory 202 and the secondary storage device 203 constitute a storage unit 102. The memory 202 temporarily stores codes and processing data processed by the CPU 201. The secondary storage device 203 configured by an HDD or a flash memory stores processing result data and the like for a long period of time.
[0014]
A wireless unit 204 that is the wireless communication unit 103 performs wireless communication with another information processing apparatus (not shown). In the present embodiment, for example, IEEE 802.11 technology can be used for wireless communication.
[0015]
The sensor 205 and the GPS module 206 constitute a situation detection unit 104. Although not shown, the sensor 205 includes an acceleration sensor, a vibration sensor, and a tilt sensor. The sensor 205 detects a change in acceleration applied to the portable information device itself, a vibration of the portable information device itself, and a change in the inclination of the portable information device itself. These sensors can use general-type sensors. The GPS module 206 performs positioning using a satellite and detects the position of the portable information device. The GPS module 206 can be a general GPS (Global Positioning System).
[0016]
FIG. 3 is a flowchart showing processing of the portable information device according to Embodiment 1 of the present invention. Hereinafter, the present embodiment will be described with reference to the flowchart shown in FIG.
[0017]
In step 301, the portable information device enters a status monitoring mode for determining whether the installation status is normal or abnormal. To enter the situation monitoring mode, the user may switch the mode by operating the portable information device, or the portable information device may be in the situation monitoring mode from the initial state. In the situation monitoring mode, the portable information device operates the sensor 205 and the GPS module 206, and the CPU 201 monitors the output of the sensor 205 and the GPS module 206.
[0018]
In step 302, the CPU 201 determines whether there is an output from the sensor 205. When the CPU 201 detects the output of the sensor 205, processing in steps 303-305 is performed. If not detected, the process proceeds to step 306.
[0019]
In steps 303-305, the output of the acceleration sensor, the output of the vibration sensor, and the output of the tilt sensor are checked in each step. Then, the process proceeds to next step 307.
[0020]
In step 306, the position information output from the GPS module 206 is confirmed. If the position of the portable information device has not changed, the process returns to step 302 and monitoring by the sensor 205 and the GPS module 206 is continued. If the position of the portable information device has changed, the process proceeds to step 307.
[0021]
In step 307, the position information output from the GPS module 206 is checked, and the process proceeds to step 308.
[0022]
In step 308, based on the check result of the sensor 205 output and the check result of the position information output by the GPS module 206, it is determined whether the installation status of the portable information device is currently normal or abnormal. In the check on acceleration, vibration, and tilt change, it is determined whether or not the range is assumed in advance. In the check regarding the position information, it is determined whether or not the region has moved to a region other than the region assumed in advance. Based on these determination results, it is determined whether the installation state of the portable information device is normal or abnormal.
[0023]
If it is determined to be normal, the process returns to step 302, and if it is determined to be abnormal, the process proceeds to the next step 309.
[0024]
In step 309, important data determined based on the priority information set in advance by the user and the additional information of the range information among the data on the memory 202 and the secondary storage device 203 is preliminarily transmitted via the wireless unit 204. Start transmission to the specified other device. That is, data saving starts.
[0025]
Here, when the data management method of the portable information device is a file system, priority is added to each file as priority information based on, for example, the newness of the time stamp of the file. The range information is added to, for example, a specific file and all files in a specific directory.
[0026]
In step 310, the communication status is monitored.
[0027]
In step 309, if the saving cannot be started or if communication is interrupted during the saving, the process proceeds to step 312. For example, the wireless communication state is confirmed. If the position of the evacuation destination device is out of the communication range, the process proceeds to step 312.
[0028]
In step 311, if the evacuation is completed, the process proceeds to step 312.
[0029]
In step 312, the data in the memory 202 and the secondary storage device 203 are erased. In this case, only important data may be erased without erasing all data in the memory 202 and the secondary storage device 203.
[0030]
Wireless communication between the portable information device of this embodiment and another information processing apparatus that is a data save destination is any of direct communication, communication via an access point, or communication via a wireless public line. Configuration is also possible. However, when the communication state is confirmed in step 310, the location of the access point is out of range in the case of the configuration via the access point, and it is out of the range of the base station of the radio public channel in the configuration via the wireless public channel. Use that. The connection between the access point via the access point and another information processing apparatus, and the connection between the other information processing apparatus via the wireless public line and the public line can be either wireless or wired.
[0031]
(Embodiment 2)
In the second embodiment, the portable information device takes the form of a wireless display PC (Personal Computer).
[0032]
FIG. 4 is a diagram showing a configuration of a portable information device, that is, a wireless display PC according to Embodiment 2 of the present invention.
[0033]
In FIG. 4, a data processing device 401, which is the main body of the wireless display PC, actually processes the data and creates image data as a processing result. An image display device 402 which is a portable terminal of the wireless display PC receives the image data created by the data processing device 401 via wireless and displays it.
[0034]
A CPU 403 serving as a processing unit of the data processing device 401 is connected to the memory 404, the secondary storage device 405, the wireless unit 406, the sensor 407, and the GPS module 408, and executes control for them. The memory 404 and the secondary storage device 405 are storage means of the data processing device 401, and store processing target data and processing result data of the CPU 403. In particular, the memory 404 temporarily stores codes and processing data processed by the CPU 403. The secondary storage device 405 is an HDD or a flash memory, and stores processing result data and the like for a long period of time.
[0035]
A wireless unit 406 is a wireless communication unit of the data processing device 401 and performs wireless communication with the image display device 402. In the present embodiment, for example, IEEE 802.11 technology can be used for wireless communication.
[0036]
The sensor 407 and the GPS module 408 are status detection means for detecting and outputting the installation status of the data processing device 401. Although not shown, the sensor 407 includes an acceleration sensor, a vibration sensor, and a tilt sensor. The sensor 407 detects a change in acceleration applied to the mobile information device itself, a vibration of the mobile information device itself, and a change in the tilt of the mobile information device. In the present embodiment, general sensors may be used as the various sensors. The GPS module 408 performs positioning using a satellite and detects the position of the portable information device. A general GPS may be used as the GPS.
Based on the output of the status detection means, the CPU 403 determines whether the installation status of the data processing device 401 is normal or abnormal. By this determination, it is possible to determine whether or not the data processing device 401 is in a situation where, for example, it is intended to be stolen or lost.
[0037]
The CPU 409 is a processing unit of the image display device 402. The CPU 409 is connected to the memory 410, the secondary storage device 411, the wireless unit 412, the input unit 413, the display unit 414, and the GPS module 415, and executes control for them. The memory 410 and the secondary storage device 411 are storage means of the image display device 402 and store processing target data and processing result data of the CPU 409. In particular, the memory 410 stores codes processed by the CPU 409 and processing result data. The secondary storage device 411 is a flash memory or the like, and stores processing result data and the like for a long period of time.
[0038]
A wireless unit 412 is a wireless communication unit of the image display device 402 and performs wireless communication with the data processing device 401. The input unit 413 is a touch panel or a button, and is used by the user to input an operation on the wireless display PC.
[0039]
The display unit 414 is an LCD or the like, and displays a screen image created by the data processing device 401 and transmitted to the image display device 402 via wireless, or a warning image created in the image display device 402.
[0040]
The GPS module 415 is positioning means on the image display device side, and detects the position of the image display device 402.
[0041]
FIG. 5 is a diagram showing an external appearance of a portable information device according to Embodiment 2 of the present invention, that is, a wireless display PC.
[0042]
As shown in FIG. 5, the image display device 402 which is a portable terminal in the present embodiment is configured with a display unit 414, operation buttons 504 operated by a user, and a touch panel 505 on the front surface. The operation buttons 504 and the touch panel 505 constitute an input unit 413.
[0043]
6A and 6B are flowcharts showing processing of the portable information device according to Embodiment 2 of the present invention, that is, the wireless display PC. Hereinafter, the present embodiment will be described according to the flowcharts shown in FIGS. 6A and 6B.
[0044]
In step 601, the data processing device 401 of the wireless display PC enters a status monitoring mode in which it can be determined whether the installation status is normal or abnormal.
[0045]
To enter the situation monitoring mode, the user may switch the mode by operating the touch panel 505 or the operation button 504, or the data processing apparatus 401 may be in the situation monitoring mode from the initial state. In the situation monitoring mode, the data processing device 401 operates the sensor 407 and the GPS module 408, and the CPU 403 monitors the outputs of the sensor 407 and the GPS module 408.
[0046]
In step 602, the CPU 403 determines whether there is an output from the sensor 407. When the CPU 403 detects the output of the sensor 407, the processing of steps 603 to 605 is performed. If not detected, the process proceeds to step 606.
[0047]
In step 603 to step 605, the output of the acceleration sensor, the output of the vibration sensor, and the output of the tilt sensor are checked in each step. Then, the process proceeds to next Step 607.
[0048]
In step 606, the position information output from the GPS module 408 is confirmed. If the position of the data processing device 401 as the main body has not changed, the process returns to step 602 and monitoring by the sensor 407 and the GPS module 408 is continued. If the position of the data processing device 401 has changed, the process proceeds to step 607 to check the change in position information.
[0049]
In step 607, first, the data processing device 401 transmits a command instructing transmission of the position transition of the image display device 402 from the wireless unit 406 to the image display device 402. The image display device 402 that has received the command by the wireless unit 412 acquires information about its own position transition for a certain period of time acquired from the GPS module 415 and accumulated in the memory 410 or the secondary storage device 411 from the wireless unit 412. The data is transmitted to the data processing device 401. When the position transition information of the image display device 402 is received, the data processing device 401 changes the positions of the data processing device 401 and the image display device 402, and changes in the positional relationship between the data processing device 401 and the image display device 402. To verify.
[0050]
Here, the method in which the image display device 402 returns the position transition information in response to the command is used, but the following method may be used. That is, the image display device 402 always transmits its position information to the data processing device 401 at regular time intervals. Then, the data processing device 401 stores the received position information in the memory 404 or the secondary storage device 405. Based on the accumulated information, the positional change and the positional relation change are verified.
[0051]
In step 608, based on the check result of the sensor 407 output and the check result of the positional information change output by the GPS module 408, it is determined whether the installation status of the data processing device 401 is currently normal or abnormal. In the check on acceleration, vibration, and tilt change, it is determined whether or not a range that is assumed in advance is exceeded. In the check related to the change of the position information, it is determined whether or not it has moved outside the area assumed in advance.
[0052]
If it is determined that there is an abnormality based on these determinations, the process proceeds to step 609 and subsequent steps. If it is determined to be normal, the process returns to step 602 and monitoring by the sensor 407 and the GPS module 408 is continued.
[0053]
In step 609, the data processing apparatus 401 notifies the image display apparatus 402 via the wireless unit 406 of a warning indicating an abnormality. The image display apparatus 402 that has received the warning via the wireless unit 412 displays the warning on the display unit 414.
[0054]
A user who sees the warning display can issue an instruction to save important data and an instruction to erase important data using the input unit 413 (touch panel 505 or operation button 504) of the image display device 402. These instructions are notified to the data processing device 401 via the wireless unit 412.
[0055]
In step 610, the data processing unit 401 proceeds to step 611 if a save instruction is received, and proceeds to step 614 if a save instruction is not received.
[0056]
If the setting for automatically performing the data saving process is made, the process proceeds to step 611 unconditionally.
[0057]
In step 611, important data determined based on the priority information and the additional information of the range information set in advance by the user among the data on the memory 404 and the secondary storage device 405 is transmitted via the wireless unit 406 to the image. Retraction to the display device 402 is started.
[0058]
Here, when the data management method of the data processing unit 401 is a file system, priority is added to each file as priority information based on, for example, the newness of the time stamp of the file. The range information is added to, for example, a specific file and all files in a specific directory.
[0059]
In step 612, the communication status is monitored.
[0060]
If it is not possible to start saving at step 611 or if communication is interrupted during the saving, the process proceeds to step 614. For example, the wireless communication state is confirmed, and if the position of the image display device 402 that is the save destination is out of the communication range, the process proceeds to step 614.
[0061]
In step 613, if the evacuation is completed, the process proceeds to step 614. If the evacuation is being performed, the process returns to step 612.
[0062]
In step 614, it is confirmed whether or not an instruction to delete important data has arrived from the image display device 402. When the data processing device 401 receives an instruction to delete important data via the wireless unit 406, the process proceeds to step 615 to delete important data.
[0063]
Similarly, if the data erasure process is set to be automatically performed without receiving an erasure instruction, the process proceeds to step 615 in the same manner.
[0064]
The wireless communication between the data processing device 401 of the present embodiment and the image display device 402 that is the data saving destination is any of direct communication, communication via an access point, or communication via a wireless public line. Configuration is also possible. However, when the communication state is confirmed in step 612, the location of the access point is out of the range in the case of the configuration via the access point, and the location outside the base station of the radio public channel in the configuration via the wireless public channel. Take advantage of that.
[0065]
(Embodiment 3)
In the third embodiment, the portable information device includes a small PC main body and a remote control.
[0066]
FIG. 7 is a diagram showing a configuration of a portable information device according to Embodiment 3 of the present invention.
[0067]
In FIG. 7, a main device (hereinafter referred to as a PC main body) 701 actually processes data, and transmits the processing result as a result ID to a portable operation device (hereinafter referred to as a remote controller) 702. The remote controller 702 receives the result ID transmitted from the PC main body 701 via wireless and displays a corresponding message image. A CPU 703 is a processing unit of the PC main body 701. The CPU 703 is connected to the memory 704, the secondary storage device 705, the wireless units 706 and 707, the sensor 708, and the GPS module 709, and executes control for them. The memory 704 and the secondary storage device 705 are storage means of the PC main body 701 and store processing target data and processing result data of the CPU 703. In particular, the memory 704 temporarily stores codes and processing data processed by the CPU 703. The secondary storage device 705 is an HDD or a flash memory, and stores processing result data and the like over a long period of time. A wireless unit 706 and a wireless unit 707 are wireless communication means of the PC main body 701, and the wireless unit 706 performs wireless communication with the remote controller 702. In the present embodiment, Bluetooth or IEEE 802.11 technology can be used for wireless communication between the PC main body 701 and the remote controller 702. The wireless unit 707 performs wireless communication with other information processing apparatuses directly or via a wireless public line. In the present embodiment, for example, IEEE 802.11 technology can be used for direct wireless communication with other information processing apparatuses.
[0068]
In this embodiment, a mobile phone or a PHS terminal can be used as the remote controller 702.
[0069]
A sensor 708 and a GPS module 709 are status detection means for detecting and outputting the installation status of the PC main body 701. Although not shown, the sensor 708 includes an acceleration sensor, a vibration sensor, and a tilt sensor. The sensor 708 detects changes in acceleration applied to the PC body 701 itself, vibrations of the PC body 701 itself, and changes in the inclination of the PC body 701 itself. In this embodiment, sensors of a general method can be used as various sensors. The GPS module 709 performs positioning using a satellite and detects the position of the PC main body 701.
[0070]
Based on the output of the status detection means, the CPU 703 determines whether the installation status of the PC main body 701 is normal or abnormal. By this determination, it can be determined whether the PC main body 701 is in a situation where it is about to be stolen or lost, for example.
[0071]
A CPU 710 is a processing unit of the remote controller 702. The CPU 710 is connected to the memory 711, the wireless unit 712, the input unit 713, the display unit 714, and the GPS module 715, and executes control for them. A memory 711 is a storage unit of the remote controller 702 and temporarily stores codes processed by the CPU 710, processing target data, and processing result data. A wireless unit 711 is a wireless communication unit of the remote controller 702 and performs wireless communication with the PC main body 701. The input unit 713 is a button arranged on the remote controller, and is used by the user to input an operation on the remote controller. A display unit 714 is an LCD and displays a message image corresponding to the received result ID. The result ID is created by the PC main body 701 and transmitted to the remote controller 702 via wireless communication. The GPS module 715 is positioning means on the remote control side and detects the position of the remote control 702.
[0072]
FIG. 8 is a diagram showing the appearance of the portable information device according to Embodiment 3 of the present invention.
[0073]
As shown in FIG. 8, the LCD panel 803 of the display unit 714 and the buttons of the input unit 713 are arranged on the front surface of the remote controller 702.
[0074]
The processing flow of the third embodiment is basically the same as that of the second embodiment, and is represented in FIGS. 6A and 6B. The present embodiment will be described below with reference to FIGS. 6A and 6B.
[0075]
In step 601, the PC main unit 701 enters a status monitoring mode in which it is possible to determine whether the installation status is normal or abnormal.
[0076]
To enter the situation monitoring mode, the user may switch the mode by operating the operation button of the input unit 713 of the remote controller 702, or the PC main body 701 may be in the situation monitoring mode from the initial state. In the situation monitoring mode, the PC main body 701 operates the sensor 708 and the GPS module 709, and the CPU 703 monitors the output of the sensor 708 and the GPS module 709.
[0077]
In step 602, the CPU 703 determines whether there is an output from the sensor 708. When the CPU 703 detects the output of the sensor 708, the processing of steps 603 to 605 is performed. If not detected, the process proceeds to step 606.
[0078]
In steps 603 to 605, the output of the acceleration sensor, the output of the vibration sensor, and the output of the tilt sensor are checked in each step. Then, the process proceeds to next Step 607.
[0079]
In step 606, the position information output from the GPS module 709 is confirmed. If the position of the PC main body 701 has not changed, the process returns to step 602 and monitoring by the sensor 708 and the GPS module 709 is continued. If the position of the PC main body 701 has changed, the process proceeds to step 607.
[0080]
In step 607, first, the PC main body 701 transmits a command instructing transmission of the position transition of the remote controller 702 from the wireless unit 706 to the remote controller 702. The remote controller 702 that has received the command by the wireless unit 712 transmits the position transition information for a certain period of time acquired by the GPS module 715 and stored in the memory 711 from the wireless unit 712 to the PC main body 701. When receiving the position transition information of the remote controller, the PC main body 701 verifies the position change of each of the PC main body 701 and the remote controller 702 and the change in the positional relationship between the PC main body 701 and the remote controller 702.
[0081]
Although the remote controller 702 returns position transition information in response to the command here, the following system may be used. That is, the remote controller 702 always transmits its position information to the PC main body 701 at regular intervals. Then, the PC body 701 stores the received position information in the memory 704 or the secondary storage device 705. Based on the accumulated information, the position change and the positional relation change are verified.
[0082]
In step 608, it is determined whether the installation status of the PC main body 701 is currently normal or abnormal based on the check result of the sensor 708 output and the positional information change verified in step 607. In the check on acceleration, vibration, and tilt change, it is determined whether or not a range that is assumed in advance is exceeded. In the check regarding the change in the position information, (i) the PC main body 701 has not moved outside the area assumed in advance, or (ii) the PC main body 701 has not moved regardless of the movement of the remote controller 702, or the result Then, it is determined whether or not the distance between the PC main body 701 and the remote controller 702 is greater than expected.
[0083]
If it is determined that the situation is abnormal based on these determinations, the process proceeds to step 609 and subsequent steps. If it is determined that the situation is normal, the process returns to step 602 and monitoring by the sensor 708 and the GPS module 709 is continued.
[0084]
In step 609, a warning indicating that the PC main body 701 is in an abnormal state is notified to the remote controller 702 via the wireless unit 706. The remote controller 702 that has received the warning via the wireless unit 712 displays the warning on the display unit 714.
[0085]
A user who sees the warning display can issue an instruction to save important data and an instruction to erase important data by using the operation buttons of the input unit 713 of the remote controller 701. These instructions are notified to the PC main body 701 via the wireless unit 712.
[0086]
In step 610, if the PC body 701 receives a save instruction via the wireless unit 706, the process proceeds to step 611. If the save instruction has not been received, the process proceeds to step 614.
[0087]
If the setting for automatically performing the data saving process is made, the process proceeds to step 611 unconditionally.
[0088]
In step 611, important data determined based on the priority information set in advance by the user and the additional information of the range information among the data on the memory 704 and the secondary storage device 705 is transmitted to the other data via the wireless unit 707. The information processing apparatus starts to evacuate.
[0089]
Here, when the data management method of the PC main body is a file system, priority is added to each file as priority information based on, for example, the newness of the time stamp of the file. The range information is added to, for example, a specific file and all files in a specific directory.
[0090]
In step 612, the communication status is monitored.
[0091]
If it is determined in step 611 that evacuation cannot be started or communication is interrupted during the evacuation, the process proceeds to step 614. For example, the wireless communication state is confirmed, and if the position of another information processing apparatus that is the save destination is out of the communication range, the process proceeds to step 614.
[0092]
In step 613, if the evacuation is completed, the process proceeds to step 614. If the evacuation is being performed, the process returns to step 612.
[0093]
In step 614, it is confirmed whether an important data deletion instruction has arrived from the remote controller 702. When the PC main body 701 receives an instruction to delete important data via the wireless unit 706, the process proceeds to step 615 to delete important data.
Similarly, if the data erasure process is set to be automatically performed without receiving an erasure instruction, the process proceeds to step 615 in the same manner.
[0094]
Wireless communication between the PC main body 701 of the present embodiment and another information processing apparatus that is a data saving destination is any of direct communication, communication via an access point, or communication via a wireless public line. Configuration is also possible. However, when the communication state is confirmed in step 612, the location of the access point is out of the range in the case of the configuration via the access point, and the location outside the base station of the radio public channel in the configuration via the wireless public channel. Take advantage of that. In addition, the connection between the access point and another information processing device via the access point and the connection between the other information processing device and the public line via the wireless public line can be either wireless or wired. It is.
[0095]
In Embodiments 1 to 3 described above, GPS is used to acquire position information. However, a position acquisition method using update with a mobile phone or a PHS base station may be used instead.
[0096]
Further, although an acceleration sensor, a vibration sensor, and a tilt sensor are used, a configuration using one or two of them is also possible.
[0097]
【The invention's effect】
As described above in detail, according to the present invention, even when a portable information device is stolen or lost, the situation can be determined, and data protection by evacuating data as much as possible and maintaining confidentiality by erasing data Is possible. In addition, even if the main unit is stolen or lost, such as when using a device operated from a remote location, such as a wireless display PC or a device with a wireless remote control, the data can be saved as much as possible. Confidentiality is possible through data protection and data erasure.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram of a portable information device according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of the portable information device according to the first embodiment of the present invention.
FIG. 3 is a flowchart showing processing of the portable information device according to the first embodiment of the present invention.
FIG. 4 is a block diagram showing a configuration of a wireless display PC according to a second embodiment of the present invention.
FIG. 5 is a diagram showing an appearance of a wireless display PC according to a second embodiment of the present invention.
FIG. 6 is a flowchart showing processing of the wireless display PC according to the second embodiment of the present invention.
FIG. 7 is a block diagram showing a configuration of a portable information device according to a third embodiment of the present invention.
FIG. 8 is a diagram showing an external appearance of a portable information device according to a third embodiment of the present invention.
[Explanation of symbols]
101 Processing means
102 memory means
103 Wireless communication means
104 Status detection means
201 CPU
202 memory
203 Secondary memory
204 Radio unit
205, 407, 708 sensors
206 GPS
401 Data processing device
402 Image display device
403 CPU (data processing device side)
404 Memory (Data processing device side)
405 Secondary storage (data processing device side)
406 Wireless unit (data processing device side)
408 GPS (data processing device side)
409 CPU (image display device side)
410 Memory (image display device side)
411 Secondary storage (image display device side)
412 Wireless unit (image display device side)
413, 713 input section
414 Display unit
415 GPS (image display device side)
504, 804 Operation buttons
505 touch panel
701 Main unit
702 Portable operation device
703 CPU (main unit side)
704 Memory (main unit side)
705 secondary memory
706 Wireless unit (for communication with portable operation device)
707 Wireless unit (for communication with other information processing devices)
709 GPS (main unit side)
710 CPU (portable operating device side)
711 Memory (portable operating device side)
712 Wireless unit (portable operating device side)
714 Display unit (portable operating device side)
801 remote control
802 Small PC body
803 LCD

Claims (14)

A portable information device, the portable information device comprises processing means, first storage means, first wireless communication means, and status detection means for detecting the installation status of the portable information device;
The processing means determines whether the installation status of the portable information device is normal or abnormal based on the output information of the status detection means,
When the processing unit determines that the installation state of the portable information device is abnormal, the first wireless communication unit transmits data stored in the first storage unit to a predetermined device;
If the can not start sending a predetermined device, or if the transmission has been interrupted, to erase the data recorded in the first storage means,
Portable information equipment. The portable information device is composed of a main device and a terminal device,
The main unit includes the processing unit, the first storage unit, the first wireless communication unit, and the situation detection unit.
The status detection means detects the installation status of the main unit,
The terminal device includes a display unit and a second wireless communication unit,
If the pre-Symbol processing means determines that abnormal installation status of the main device, the first wireless communication means further message indicating abnormality is transmitted to the second radio communication means,
The portable information device according to claim 1, wherein the terminal device displays a message indicating an abnormality received by the second wireless communication unit on the display unit. The terminal device further includes second storage means,
The predetermined device is the terminal device;
The portable information device according to claim 2, wherein the terminal device stores the received data of the first storage device in the second storage device. The situation detecting means includes positioning means for measuring the position of the portable information device, acceleration detecting means for detecting acceleration of the portable information device, vibration detecting means for detecting vibration of the portable information device, and the portable information device. The portable information device according to claim 1, further comprising at least one of inclination detecting means for detecting the inclination of the portable information device. When transmission of the data stored in the first storage means is completed to the predetermined device,
5. The portable information device according to claim 1, wherein the data recorded in the first storage unit is erased. The main body device further includes first positioning means for positioning its own position,
The terminal device further includes second positioning means for positioning its own position,
The second wireless communication means transmits position information of the terminal device measured by the second positioning means to the main body device,
The situation detecting unit is configured to determine the positional relationship between the terminal device and the main body device from the positional information of the terminal device received by the first wireless communication unit and the positional information of the main body device measured by the first positioning unit. The portable information device according to claim 2 or 3, wherein the change information is output. At least one additional information of priority information and data selection information is added to the data stored in the first storage means,
The first wireless communication means stores data stored in the first storage means.
The portable information device according to claim 2 or 3, wherein the information is transmitted to the predetermined device according to the additional information. The terminal device further includes an input means that allows a user to perform an input operation,
The operation data input to the input means is transmitted to the first wireless communication means by the second wireless communication means,
The main unit transmits processing data processed in accordance with the operation data received by the first wireless communication means to the second wireless communication means by the first wireless communication means,
4. The portable information device according to claim 2, wherein the terminal device creates image data corresponding to the processing data received by the second wireless communication unit and displays the image data on the display unit. The terminal device includes an input means that allows a user to perform an input operation,
The operation data input to the input means is transmitted to the first wireless communication means by the second wireless communication means,
The main unit creates image data corresponding to the data processed according to the operation data received by the first wireless communication unit, and transmits the image data to the second wireless communication unit by the first wireless communication unit. ,
The portable information device according to claim 2 or 3, wherein the terminal device displays image data received by the second wireless communication unit on the display unit. Information on the installation status of the information portable device is detected, and from the detected installation status information, it is determined whether the installation status is normal or abnormal, and if it is determined to be abnormal, the information is stored in the storage means of the information portable device Data is transmitted wirelessly to a predetermined device,
If the can not start sending data to a predetermined device or when the transmission of data is interrupted, comprising the step of erasing the data stored in the storage means, information data saving method of a portable device. The data saving method according to claim 10, wherein the information on the installation status of the information portable device is information on an installation status of the main device constituting the information portable device. The portable information device includes a main body device and a terminal device, and when the installation state of the main body device is determined to be abnormal, the main body device includes a step of wirelessly transmitting a message indicating abnormality to the terminal device. 12. A data saving method according to claim 10 or claim 11. The data saving method according to claim 12 , wherein the predetermined device is the terminal device. When the transmission of data to the predetermined device is completed, comprising the step of erasing the data stored in the storage means, claims 10 to 13 data saving method according.

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