JP4589549B2 - Storage device, information processing device and data theft prevention system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a storage device and an information processing device having a data theft prevention function, and a data theft prevention system for an information processing device provided with the storage device.
[0002]
[Prior art]
Many electronic devices such as computers provided with an anti-theft function and anti-theft devices provided in the electronic device are conventionally known. Furthermore, not only the device main body is stolen but also a device that prevents the data stored in the device from being stolen.
For example, Japanese Patent Application Laid-Open No. 2000-11268 provides an electrical conduction means between a printed circuit board and a case for housing it, and an alarm sounds when the device is disassembled and the electrical contact is cut off. Such a security system is disclosed.
However, in this security system, there may be a problem in the stability of the contact resistance between the printed circuit board and the metal case, and no action such as disassembly is performed depending on a slight change in the contact pressure of the contact portion. There is a concern that the alarm may sound during normal use.
[0003]
Japanese Patent Application Laid-Open No. 6-12589 discloses a security device that stretches a signal line in a case and detects unauthorized disassembly from the disconnection state of the signal line. Similarly, Japanese Patent Application Laid-Open No. 64-76347 discloses a terminal device that detects illegal disassembly and erases internal data by providing a special switch in the case.
However, in these configurations, there is a problem that the mechanism is complicated and it is difficult to assemble at the time of manufacture. Also, since it takes a certain amount of processing time to completely erase data in a storage device such as a hard disk, if the power supply is quickly turned off, the data will be stolen before it is completely erased. There is a possibility.
[0004]
As an apparatus that does not use physical detection means such as an electrical contact or a switch, for example, the installation state is monitored by a sensor that detects the installation pressure and inclination, and if it is carried illegally, the fact is notified to the outside. A portable computer is disclosed in Japanese Patent Laid-Open No. 5-35354.
Japanese Laid-Open Patent Publication No. 5-176374 discloses a personal computer monitoring system in which a personal computer monitoring device checks the state of the personal computer while communicating with each personal computer by radio waves to prevent theft.
[0005]
Further, Japanese Patent Laid-Open No. 62-290997 also discloses a theft prevention method using signal waves such as radio waves, infrared rays, lasers, ultrasonic waves and the like, which emits a warning sound when the signals cannot be received.
However, even with these devices and methods, for example, the computer device itself may be wrapped in a highly sound-insulating material, the battery itself may be removed, or it may be taken out when there are no people around it. If the problem is cleared and the device itself is successfully taken out, data can be taken out by disassembling the inside, and there remains a problem in terms of security.
[0006]
In order to solve such a problem, Japanese Patent Application Laid-Open No. 11-39053 is provided with an infrared communication function unit so that the lid part covers the computer body when infrared rays from the external infrared function unit cannot be received. There has been disclosed a small electronic device in which components such as an internal storage device cannot be physically taken out by mechanically locking in a closed state.
However, even in such a device, if the case itself is destroyed, it is possible to take out a storage device such as a hard disk device, and it is impossible to prevent data from being stolen.
[0007]
In addition, as disclosed in Japanese Patent Laid-Open No. 2000-214942, there is also a method of controlling the access of the computer by detecting the attachment / detachment of the security device. However, even if this method is used, it is not possible to prevent the extraction of the most valuable important data by similarly taking out the hard disk device or the like.
In other words, even with these antitheft means, it was impossible to protect important data.
[0008]
As a solution to this problem, access control using passwords prevents data from being retrieved even if the device is stolen and the storage device is removed and attached to another computer device. Such storage devices and theft prevention methods are disclosed in Japanese Patent Laid-Open Nos. 11-249966 and 7-44330.
However, in these apparatuses and methods, a user of a computer apparatus or the like must always perform a password input operation when starting the system, so that the operability is bad, and after entering the password when starting the system, the computer There is a problem that it is still impossible to prevent unauthorized access to data by a third party when a user such as an administrator of the device leaves his / her seat.
[0009]
[Problems to be solved by the invention]
The present invention solves the above-described problems, and even if a storage device or an information processing device is stolen, the device is illegally used or data is stolen without requiring complicated and troublesome operation of the device. The purpose is to prevent.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, the storage device of the present invention is configured as follows.
[0011]
That includes a storage means for storing information, and input and output interface for reading and writing information to the storage unit, and a radio signal receiving circuit for receiving a predetermined radio signal, the radio signal receiving circuit, The predetermined signal is output to the input / output interface only while the predetermined wireless signal is received, and the input / output interface operates only while the predetermined signal is input to the storage means. When reading and writing of information is possible and the predetermined signal is interrupted in the middle of reading and writing information to the storage means, the operation is stopped after a series of data reading and writing to the storage means is completed. is there.
[0012]
Alternatively, storage means for storing information, comprising an external interface for exchanging external device information, and a radio signal receiving circuit for receiving a predetermined radio signal, the radio signal receiving circuit, the predetermined radio only while receiving the signal to the external interface to output the predetermined signal, the external interface enables the exchange of information between the external device operates only while entering the predetermined signal, When the predetermined signal is interrupted in the middle of information exchange with the external device, the operation is stopped after a series of information exchange with the external device is completed .
[0013]
In these storage devices, the wireless signal may be a signal based on any one of radio waves , infrared rays, laser light, and ultrasonic waves .
An information processing apparatus according to the present invention includes the above-described storage device and an information processing unit that exchanges information with the storage device and processes the information. Further, the information processing apparatus and the wireless signal transmission apparatus that transmits the predetermined wireless signal constitute a data theft prevention system for the information processing apparatus of the present invention.
In the data theft prevention system of the information processing device, the wireless signal transmission device may be fixedly provided outside the information processing device. Alternatively, the wireless signal transmission device may be portable.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Preferred embodiments of the present invention will be described below with reference to the drawings.
[ Reference example : Fig. 1]
First, a reference example of a data theft prevention system of an information processing apparatus having a storage device according to the present invention will be described with reference to FIG.
The data theft prevention system for the information processing apparatus shown in FIG. 1 includes an information processing apparatus 100 and a radio signal transmission apparatus 30.
[0015]
The wireless signal transmission device 30 includes an antenna 31 and transmits a predetermined wireless signal. In this reference example , the radio signal is a radio signal.
The information processing apparatus 100 includes a storage device 10 and an information processing unit 40, and is a personal computer that performs various calculations and information processing by exchanging information between the storage device 10 and the information processing unit 40. The information processing unit 40 includes a CPU, a ROM, a RAM, and the like, but the configuration thereof may be a known one, and thus the description thereof is omitted.
[0016]
The storage device 10 includes a power supply circuit 11, a high frequency receiving circuit 12, an antenna 13, a hard disk 14, a data input / output (I / O) controller 15, an external interface (I / F) controller 16, a hard disk controller 17, firmware (F / W). ) 18 is a hard disk device.
The power supply circuit 11 is a circuit that is connected to the power supply 41 of the information processing unit 40 via the power supply line 22 and is constantly supplied with power and supplies power to each unit of the storage device 10. In this reference example , the power source 41 of the information processing unit 40 is an external power source. A power supply line for supplying power to each unit of the storage device 10 is not shown.
[0017]
The high-frequency receiving circuit 12 is a radio signal receiving circuit, and is connected to a power supply 41 that is an external power supply through a power supply line 22 and is constantly supplied with power, and is connected to the power supply circuit 11 through a signal line 23. When the antenna 13 connected to the high frequency receiving circuit 12 senses a radio signal transmitted by the radio signal transmitting device 30, it receives the signal and outputs a predetermined signal to the power supply circuit 11 only during that time.
The hard disk 14 is a storage medium that stores information magnetically and is a storage means. The hard disk 14 stores various application programs for driving the information processing apparatus 100 and information for processing by the information processing apparatus 100. The information is read / written via the data I / O controller 15 by a read / write head (not shown) controlled by the hard disk controller 17 serving as the control means.
[0018]
The data I / O controller 15 is an input / output interface for data to be read / written to / from the hard disk 14, and is also a controller for controlling data read / write to the hard disk 14.
The external I / F controller 16 is an external interface, and is connected to the information processing unit 40 that is an external device of the storage device 10 by the external bus 20. Then, exchange of data between the storage device 10 and the information processing unit 40 is controlled. Here, as the external bus 20, a SCSI (Small Computer System Interface) bus, an IDE (Integrated Drive Electronics) bus, or the like can be used.
[0019]
The hard disk controller 17 is a control means for controlling driving of a read / write head (not shown) and a motor in order to read / write data from / to the hard disk 14.
Firmware (F / W) 18 stores software for the control.
These data I / O controller 15, external I / F controller 16, hard disk controller 17 and firmware (F / W) 18 are connected by an internal bus 19.
[0020]
In such a storage device 10, as described above, the power supply circuit 11 and the high-frequency receiving circuit 12 are always supplied with power from the power supply 41, and the high-frequency receiving circuit 12 is in a state in which it can receive a radio wave signal that feels to the antenna 13. It has become.
When the high-frequency receiving circuit 12 receives a radio signal transmitted from the radio signal transmitting device 30 from the antenna 13, as described above, a predetermined signal is output to the power supply circuit 11 only during the reception. The power supply circuit 11 supplies power to each part of the storage device 10 including the hard disk controller 17 and the F / W 18 only while the predetermined signal is input. When this predetermined signal is not input, power supply to each part of the storage device 10 is stopped.
[0021]
With such a configuration, the storage device 10 can be put into an operating state only while the high-frequency receiving circuit 12 is receiving a radio signal transmitted from the radio signal transmitting device 30.
Since the information processing apparatus 100 also includes the storage device 10 as a non-volatile storage unit, the information processing apparatus 100 is provided with respect to the storage device 10 except when the high-frequency receiving circuit 12 receives a radio signal emitted by the radio signal transmission device 30. Even if the program and data cannot be read and written, and the information processing unit 40 is in an operating state, it cannot execute most operations. In particular, important data stored in the hard disk 14 of the storage device 10 cannot be accessed.
[0022]
In addition, since the wireless signal transmission device 30 is fixedly provided outside the information processing device 100 and the information processing device 100 is used in the vicinity thereof, there is no problem in use on the spot. When it is taken out, power is not supplied to the main part of the storage device 10 and it cannot be used. Therefore, even if the information processing apparatus 100 is stolen and taken out, it cannot be activated and internal data is not stolen.
Even when the storage device 10 is taken out alone and connected to another computer or the like, the storage device 10 still does not operate, so the data stored in the hard disk 14 is not stolen.
[0023]
Alternatively, the wireless signal transmission device 30 is configured to be portable, and the storage device 10 and the information processing can be performed only when the user is in the vicinity of the information processing device 100 by having the user permitted to use the information processing device 100 carry it. The apparatus 100 can be operated. Therefore, even when the user leaves the seat after starting the information processing apparatus 100, data cannot be read from or written to the storage device 10 during that time, and data is read illegally while the seat is removed. Can be prevented.
[0024]
Therefore, according to the storage device 10, the information processing device 100, and the data theft prevention system of the reference example , even if the information processing device 100 or the storage device 10 is stolen, Theft can be prevented. Furthermore, by letting the user carry the wireless signal transmission device 30, it is possible to prevent the data from being stolen while the user is away from the seat after activation. In addition, since a wireless signal is used to confirm the operation permission, a security check using a password, a fingerprint, or the like is not necessary, and operability can be improved.
In this reference example , the example in which the storage device 10 is provided inside the information processing device 100 has been described. However, programs and data necessary for the operation of the information processing device are stored in another internal storage unit, and the storage device is You may make it the structure provided as an external device of information processing apparatus. Even in such a case, the same effect as described above can be exhibited with respect to prevention of data theft inside the storage device.
[0025]
[ First Embodiment: FIG. 2]
Next, a first embodiment of the present invention will be described with reference to FIG. FIG. 2 is a block diagram corresponding to FIG. 1 illustrating the configuration of the data theft prevention system of the information processing apparatus including the storage device. 2, parts corresponding to those in FIG. 1 are denoted by the same reference numerals, and description thereof is omitted or simplified.
[0026]
In the data theft prevention system shown in FIG. 2, a signal line 33 is provided in the storage device 10 ′ instead of the signal line 23 in FIG. 1, whereby the high frequency receiving circuit 12 outputs a predetermined signal to the data I / O controller 25. 1 is that the data I / O controller 25 operates only while the predetermined signal is input, and that the power supply circuit 21 always supplies power to each part of the storage device 10 ′. This is different from the data theft prevention system shown in.
[0027]
In the first embodiment, when receiving a radio signal transmitted from the radio signal transmission device 30, the high frequency receiving circuit 12 transmits a predetermined signal to the data I / O controller 25 that is an input / output interface through the signal line 33. Output a signal.
The data I / O controller 25 operates only while the predetermined signal is input, and enables reading / writing of information from / to the hard disk 14. Therefore, when the predetermined signal is not input, the operation is stopped and reading / writing of information with respect to the hard disk 14 is disabled.
At this time, if the operation of the data I / O controller 25 suddenly stops during data reading / writing, data inconsistency may occur and cause an error. Therefore, the operation is performed after a series of data reading / writing ends. It is good to stop.
On the other hand, the power supply circuit 21 always supplies power to each part of the storage device 10 ′ without depending on a signal from the high frequency receiving circuit.
[0028]
Even with such a configuration, it is possible to read / write data from / to the hard disk 14 of the storage device 10 ′ only while the radio frequency receiving circuit 12 is receiving a radio signal transmitted by the radio signal transmitting device 30.
Therefore, the storage apparatus 10 ', the information processing apparatus 100' and the data theft prevention system configured as described above can achieve the same effects as those of the reference example described above.
[0029]
[ Second Embodiment: FIG. 3]
Next, a second embodiment of the present invention will be described with reference to FIG. FIG. 3 is a block diagram corresponding to FIG. 1 illustrating the configuration of the data theft prevention system of the information processing apparatus including the storage device. 3, parts corresponding to those in FIG. 1 are denoted by the same reference numerals, and description thereof is omitted or simplified.
The data theft prevention system shown in FIG. 3 is provided with a signal line 43 instead of the signal line 23 in FIG. 1 in the storage device 10 ″, whereby the high frequency receiving circuit 12 outputs a predetermined signal to the external I / F controller 26. 1 that the external I / F controller 26 operates only while inputting the predetermined signal, and that the power supply circuit 21 always supplies power to each part of the storage device 10 ″. This is different from the data theft prevention system shown in.
[0030]
In the second embodiment, when the radio frequency receiving circuit 12 receives a radio signal transmitted from the radio signal transmitting device 30, a predetermined signal is transmitted to the external I / F controller 26 that is an external interface through the signal line 43. Is output.
The external I / F controller 26 operates only while the predetermined signal is input, and enables information exchange with an external device. Further, when the predetermined signal is not inputted, the operation is stopped and the exchange of information with the external device is disabled.
At this time, if the external I / F controller 26 suddenly stops operating while information is being exchanged, data inconsistency may occur and cause an error. Then, it is recommended to stop the operation.
On the other hand, the power supply circuit 21 always supplies power to each part of the storage device 10 ′ without depending on a signal from the high frequency receiving circuit.
[0031]
Even in such a configuration, data is transmitted from the information processing unit 40 that is an external device to the hard disk 14 of the storage device 10 ″ only while the high-frequency receiving circuit 12 receives a radio signal transmitted by the radio signal transmitting device 30. It becomes possible to read and write.
Therefore, the storage apparatus 10 ″, the information processing apparatus 100 ″, and the data theft prevention system configured as described above can achieve the same effects as those of the reference example described with reference to FIG.
[0032]
In each of the embodiments and the reference examples described above, the example in which the high-frequency receiving circuit outputs one predetermined signal has been described. However, for example, from the high-frequency receiving circuit to the power supply circuit, the data I / O controller, The high-frequency receiving circuit is configured to output a predetermined signal with respect to the high-frequency receiving circuit so that the power supply circuit and the data I / O controller operate only when the predetermined signal is input. May be controlled by a predetermined signal that is output when a radio signal transmitted by the radio signal transmitting device 30 is received.
Further, in each of the embodiments and reference examples described above, an example in which the signal transmitted by the wireless signal transmission device is a signal by radio waves has been described, but a signal by infrared rays, laser light, ultrasonic waves, or the like can also be used. However, in this case, it is necessary to change the antenna 31 and the high-frequency receiving circuit 12 to those suitable for receiving the signals.
The storage device according to the present invention is not limited to a hard disk device, and the information processing device is not limited to a personal computer.
[0033]
【The invention's effect】
As described above, according to the storage device, the information processing device, and the data theft prevention system according to the present invention, when the receiving means provided in the storage device does not receive a predetermined radio signal, Since data cannot be read / written, even if the device is stolen, the data stored in the storage device can be prevented from being stolen, and the confidentiality of the stored information can be improved.
In addition, operability is good because user confirmation with a password, fingerprint, or the like is not required when using the apparatus.
Furthermore, if the user of the storage device or the information processing device carries the wireless signal transmission device, it is possible to prevent information from being read illegally by others while the user is away from his / her seat. Can be increased.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a reference example of an information processing apparatus including a storage device according to the present invention and its data theft prevention system.
FIG. 2 is a block diagram showing the configuration of the first embodiment.
FIG. 3 is a block diagram showing the configuration of the second embodiment.
[Explanation of symbols]
10, 10 ', 10 ": storage devices 11, 21: power supply circuit 12: high-frequency receiving circuit 13, 31: antenna 14: hard disk 15, 25: data input / output controller 16, 26: external interface controller 17: hard disk controller 18: Firmware (F / W) 19: Internal bus 20: External bus 23, 33, 43: Signal line 22: Power supply line 30: Radio signal transmission device 40: Information processing unit 41: Power supply 100, 100 ′, 100 ″: Information Processing equipment

Claims (7)

Storage means for storing information ;
An input / output interface for reading / writing information from / to the storage means ;
A radio signal receiving circuit for receiving a predetermined radio signal;
The wireless signal receiving circuit outputs a predetermined signal to the input / output interface only while receiving the predetermined wireless signal ,
The input / output interface operates only while the predetermined signal is input to enable reading / writing of information from / to the storage means , and the predetermined signal is interrupted in the middle of reading / writing information from / to the storage means The storage device is characterized in that the operation is stopped after reading and writing of a series of data to and from the storage means is completed . Storage means for storing information ;
An external interface for exchanging information with external devices ;
A radio signal receiving circuit for receiving a predetermined radio signal;
The radio signal receiving circuit outputs a predetermined signal to the external interface only while receiving the predetermined radio signal ,
When the external interface, which operates only while entering the predetermined signal to allow exchange of information with the external device, the predetermined signal is interrupted in the middle of the exchange of information with the external device The storage device is characterized in that the operation is stopped after a series of information exchange with the external device is completed . The radio signals, radio waves, infrared, laser light, and a storage device according to claim 1 or 2, characterized in that a signal according to any of the ultrasound. A storage device according to any one of claims 1 to 3, the information processing apparatus characterized by comprising a processing unit for processing the information by exchanging information between the storage device. 5. A data theft prevention system for an information processing device, comprising: the information processing device according to claim 4; and a wireless signal transmission device that transmits the predetermined wireless signal. 6. The data theft prevention system for an information processing device according to claim 5, wherein the wireless signal transmission device is fixedly provided outside the information processing device. 6. The data theft prevention system for an information processing apparatus according to claim 5 , wherein the wireless signal transmission device is portable.

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