KR20210029967A - Management system and method for data security for storage device using security device - Google Patents

Abstract

The present invention relates to a management system for data security for a storage device using a security device, in which a storage area is divided into a general area and a security area to use a security terminal to identify a user and allow an authenticated user only to access the security area. The present invention includes: a user authentication module for identifying a user to generate user identification information; a controller for transmitting security access information corresponding to the user identification information to a storage device; a storage module for storing the security access information corresponding to the user identification information; a security terminal configured to include a short-range communication module for transmitting and receiving the security access information through short-range communication; an interface unit for connecting to a computer to enable data input/output; a short-range wireless communication unit for transmitting and receiving the security access information with the security terminal; the storage unit composed of a memory for storing data, and having a storage area divided into a general area and a security area; and a storage device configured to include a control unit that receives the security access information from the security terminal to selectively determine whether to activate the security area according to the user authentication result. According to the present invention, only the authenticated user is allowed to access and control the security area of the storage device so as to protect data.

Description

Data security management system and method of storage device using security terminal {MANAGEMENT SYSTEM AND METHOD FOR DATA SECURITY FOR STORAGE DEVICE USING SECURITY DEVICE}

The present invention is a data security management system for a storage device using a security terminal in which a storage area is divided into a general area and a security area, and a user is identified using a security terminal, and access to the security area is allowed only to an authenticated user. It is an invention on the method.

A storage device is a device that a user can carry and easily exchange and store data through a computer interface. Typical interfaces are USB (Universal Serial Bus), lightning and Thunderbolt.

A general storage device is configured so that anyone can recognize it in a computer having the same port and exchange and store data for convenience of use.

However, if the storage device is lost, anyone who has learned it can check and leak the data stored in the storage device from a computer having the same port, resulting in great damage.

Accordingly, Korean Patent Registration No. 10-1385929 has been developed so that only authorized users can check and read data stored in the device after identifying a user by mounting a fingerprint sensor in a storage device.

However, in the case of the prior art, there is a problem that the device becomes large due to the mounting of the sensor and the price increases due to the introduction of the sensor. In addition, after connecting the device through the port of the computer, there is a problem in that the port is damaged by physical force such as a position for fingerprint recognition and pressure applied.

Korean Patent Registration No. 10-1385929

The present invention was conceived to solve the conventional problems as described above, and the present invention is an identification function through a biometric sensor capable of identifying a user such as voice, face, fingerprint, and iris, and a method such as password and pattern recognition. A small computer equipped with a function to identify a user and transmit a control signal through short-range wireless communication by an authenticated user through an authentication function, and a storage device controlled by receiving a control signal generated by the authenticated user. It is intended to provide a method of stepwise protection by detecting abnormal access such as control signals of unauthorized users.

In addition, the present invention is to provide a control method of setting or canceling all or part of a storage unit of a storage device as a security area, modifying stored data, and allowing or disallowing access to the security area as a type of control.

In addition, the present invention is to provide a method of encrypting and storing data when storing data in the secure area, and a method of decrypting data when checking and reading data.

According to a feature of the present invention for achieving the above object, the present invention includes a user authentication module for identifying a user and generating user identification information; A controller for transmitting security access information corresponding to the user identification information to a storage device; A storage module for storing security access information corresponding to the user identification information; And a security terminal including a short-range communication module for transmitting and receiving the security access information through short-range communication, and an interface unit connecting with a computer to enable data input/output; A short-range wireless communication unit for transmitting and receiving security access information to and from the security terminal; A storage unit comprising a memory for storing data, wherein the storage area is divided into a general area and a security area; And a storage device including a control unit configured to receive security access information from the security terminal and selectively determine whether to activate the security area according to a user authentication result.

In this case, the security access information may be a one-time password generated with a different value each time it is generated.

And the controller transmits the previously stored security access information and the newly created security access information to the storage device; When the security area of the storage device is activated, the previously stored security access information may be updated with newly created security access information.

In addition, the storage device generates an encryption key for generating a data encryption key by encrypting the security access information received from the security terminal through the user identification information, terminal identification information, which is unique information of the security terminal, or storage device-specific information. It may be configured to further include a module.

And the control unit determines whether to activate the security area by comparing the data encryption key generated from the previously stored security access information received from the security terminal with the data encryption key stored in the storage device; When the security area is activated, the data encryption key stored in the storage device may be updated and stored as a data encryption key generated from newly created security access information received from the security terminal.

In addition, the security access information may include a one-time password generated with different values each time it is generated; It may be the user identification information, the terminal identification information, which is the unique information of the security terminal, or a data encryption key generated through the storage device-specific information.

And the controller transmits the previously stored security access information and the newly created security access information to the storage device; When the security area of the storage device is activated, the previously stored security access information may be updated with newly created security access information.

In addition, the control unit determines whether to activate the security area by comparing pre-stored security access information received from the security terminal with a data encryption key stored in the storage device; When the security area is activated, the data encryption key stored in the storage device may be updated and stored as newly created security access information received from the security terminal.

In addition, the control unit may encrypt and store data stored in the security area using the data encryption key, and decrypt the data stored in the security area through the data encryption key to be read out.

In addition, the security access information may be file system information defining a data storage, search, and access system for the security area.

Further, the control unit may transmit the updated file system information to the security terminal when the file system is updated.

In addition, the control unit may delete the file system information when the connection with the security terminal through the short-range wireless communication unit is released.

In addition, when the data for which the access right is set is stored in the security area, the control unit may generate file system information for the data for which the access right is set, and store it by including it in the file system information for the general area.

In addition, the file system information on the data for which the access right is set includes setting information on the access right; The access right may be whether data is allowed to read, copy, change, delete, or print.

Further, the controller and the control unit maintain communication between the security terminal and the storage device through communication data encrypted using a communication encryption key; The communication encryption key is a unique generated by a combination of two or more of the user identification information, the terminal identification information that is the unique information of the security terminal, the storage device unique information, or a random generated value upon registration between the security terminal and the storage device. It may be stored in the security terminal and storage device as a value.

In addition, the control unit may set and reset the sizes of the security area and the general area according to a control signal from the security terminal.

In addition, the user authentication module may be configured as a biometric recognition module that identifies a user's fingerprint or iris.

In addition, the user authentication module may be configured as a keypad module that receives an authentication number or an authentication pattern from a user.

In addition, the control unit may permanently delete the data stored in the security area when data access to the security area through the interface unit is detected in a state in which authentication by the security access information is not permitted.

Meanwhile, the present invention includes the steps of (A) identifying a user through a security terminal and generating user identification information; (B) connecting the security terminal to a storage device through short-range wireless communication; (C) transmitting, by the security terminal, security access information corresponding to the user identification information to the storage device; And

(D) the storage device authenticates the user using the received security access information, activates the security area included in the storage device, and operates the data stored in the security area so that access is possible. It includes a data security management method of a storage device using a secure terminal.

In this case, the security access information is a one-time password generated with a different value each time it is generated; The security access information of step (C) may include pre-stored security access information stored in the secure terminal and newly created security access information.

In addition, the step (D) may further include updating the previously stored security access information with newly created security access information when the security terminal is activated in the security area of the storage device.

In addition, the storage device generates an encryption key for generating a data encryption key by encrypting the security access information received from the security terminal through the user identification information, terminal identification information, which is unique information of the security terminal, or storage device-specific information. It may be configured to further include a module.

In the step (D), the user authentication is performed by comparing the data encryption key generated from the previously stored security access information received from the security terminal with the data encryption key stored in the storage device, and determining whether to activate the security area. Wow; When the security area is activated, the data encryption key stored in the storage device may be updated and stored as a data encryption key generated from newly created security access information received from the security terminal.

In addition, the security access information may be a one-time password generated with different values each time it is generated, the user identification information, terminal identification information, which is unique information of the security terminal, or a data encryption key generated through storage device-specific information.

In addition, the security access information of step (C) may include pre-stored security access information stored in the security terminal and newly created security access information.

Further, the step (D) may further include updating the previously stored security access information with newly created security access information when the security area of the storage device is activated.

The user authentication of the step (D) may include determining whether to activate the security area by comparing the previously stored security access information received from the security terminal with the data encryption key stored in the storage device; When the security area is activated, the data encryption key stored in the storage device may be updated and stored as newly created security access information received from the security terminal.

In addition, the control unit may encrypt and store data stored in the secure area using the data encryption key, and decrypt and read data stored in the secure area through the data encryption key.

And the security access information is file system information defining a data storage, retrieval, and access system for the security area; (E) when the security access information is changed due to the use of the security area, transmitting the changed security access information to the security terminal by the storage device; (F) When the connection between the storage device and the security terminal is released, the security access information information stored in the storage device may be deleted.

In addition, when the data for which the access right is set is stored in the secure area, the control unit may generate file system information for the data for which the access right is set, and store the file system information for the general area.

And the file system information on the data for which the access right is set includes setting information on the access right; The access right may be whether data is allowed to read, copy, change, delete, or print.

In addition, the user identification in step (A) may be performed by identifying the user's fingerprint or iris.

In addition, the user identification in step (A) may be performed by receiving an authentication number or an authentication pattern from the user.

In the data security management system and method of a storage device using a security terminal according to the present invention as seen above, the following effects can be expected.

That is, in the present invention, there is an effect of protecting data by accessing and controlling the security area of the storage device only by an authenticated user.

In addition, there is an effect of reducing the size of the storage device compared to the prior art having a fingerprint sensor or a keypad.

In addition, there is an effect of not having to install a separate program for authentication according to the operating system of the computer that exchanges data with the storage device through a standardized interface. That is, according to the present invention, since the security system of the storage device can be implemented without installing a separate program on the PC, the portable security storage device can be used in all PCs in general, thereby improving the convenience of use.

1 is an exemplary view showing a configuration example of a data security management system of a storage device using a security terminal according to the present invention.
2 is a block diagram showing the configuration of a security terminal and a storage device according to a specific embodiment of the present invention.
3 is a flow chart showing an example of a data security management method of a storage device using a security terminal according to the present invention.
4 is a flow chart showing a method of setting access rights of a data security management method of a storage device using a security terminal according to the present invention.
5 is a flowchart showing another example of a data security management method for a storage device using a security terminal according to the present invention.

Hereinafter, a data security management system and method of a storage device using a security terminal according to a specific embodiment of the present invention will be described with reference to the accompanying drawings.

Prior to the description, the effects, features, and methods of achieving the effects of the present invention will become apparent in the embodiments described later in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments make the disclosure of the present invention complete, and the general knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to the possessor, and the invention is only defined by the scope of the claims.

In describing embodiments of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted, and terms to be described later are These terms are defined in consideration of the functions of the user and may vary according to the intention or custom of users or operators. Therefore, the definition should be made based on the contents throughout the present specification.

Combinations of each block in the attached block diagram and each step in the flowchart may be executed by computer program instructions (execution engines), and these computer program instructions are executed on a processor of a general purpose computer, special purpose computer or other programmable data processing equipment. As can be mounted, the instructions executed by the processor of a computer or other programmable data processing equipment generate means for performing the functions described in each block of the block diagram or each step of the flowchart.

These computer program instructions can also be stored in computer-usable or computer-readable memory that can be directed to a computer or other programmable data processing equipment to implement a function in a particular way, so that the computer-usable or computer-readable memory It is also possible to produce an article of manufacture in which the instructions stored in the block diagram contain instruction means for performing the functions described in each block of the block diagram or each step of the flowchart.

In addition, since computer program instructions can be mounted on a computer or other programmable data processing equipment, a series of operation steps are performed on a computer or other programmable data processing equipment to create a computer-executable process. It is also possible that the instructions for performing the data processing equipment provide steps for executing the functions described in each block of the block diagram and each step of the flowchart.

In addition, each block or each step may represent a module, segment, or part of code containing one or more executable instructions for executing specified logical functions, and in some alternative embodiments mentioned in the blocks or steps. It is also possible for functions to occur out of order.

That is, the illustrated two blocks or steps may actually be performed substantially simultaneously, and the blocks or steps may be performed in the reverse order of a corresponding function as necessary.

In the following, first, a case where the security access information is file system information will be described, and then, a case where the security access information is a one-time password and a case of a data encryption key will be described, respectively.

In addition, the storage module 140 is a storage space provided in the security terminal 100, in which data for operating the security terminal 100 is stored, as well as in relation to the present invention, in which the file system information is stored. Part.

In addition, the short-range communication module 130 is connected to the storage device 200 and serves to transmit the file system information to the storage device 200 through short-range communication.

In this case, the short-range communication module may be configured as a near field communication (NFC) module or a Bluetooth module according to the type of communication.

Meanwhile, the storage device 200 has been described with reference to a USB device, which is a portable storage medium, in this specification, but may be various storage devices such as an external hard disk and an internal hard disk.

In this case, the storage device 200 according to the present invention includes a short-range wireless communication unit 210, an interface unit 220, a control unit 230, an encryption/decryption unit 240, and a storage unit 250.

The short-range wireless communication unit 210 connects to the short-range communication module 130 of the security terminal 100 to transmit and receive the file system information.

In addition, the interface unit 220 refers to a standard connection terminal through which the storage device 200 connects to a PC.

The storage unit 250 is a data storage space of the storage device 200, and a storage area is divided into a general area 251 and a security area 253.

The general area 251 refers to a storage space that can be used without a separate authentication procedure like a normal USB storage space, and the security area 253 is used only when a user is authenticated through the security terminal 100. It refers to storage space.

To this end, in the present invention, a system file for operating the general area 251 and a system file for operating the security area 253 are individually classified.

Of course, in the case of another embodiment of the present invention, the system files for the general area and the security area may be integrated so that they are not distinguished.

In the present embodiment, a system file for operating the security area 253 is referred to as file system information.

That is, in the present invention, the file system information refers to information defining a data storage, retrieval, and access system for the security area 253, and the access system includes a physical location and size of the security area 253, and the like.

Meanwhile, the control unit 230 activates the security area 253 by receiving file system information from the security terminal 100.

In addition, the control unit 230 immediately transmits the changed file system information to the security terminal 100 when the file system information is changed due to a change in stored data when using the security area 253. Play a role.

Accordingly, the security terminal 100 may store the changed file system information for the security area 253 in real time.

In addition, various functions of the control unit 230 will be described in detail later.

In addition, the encryption/decryption unit 240 encrypts and stores the data stored in the security area 253 using a data encryption key, and decrypts and reads the data stored in the security area 253 using the data encryption key. This part is provided to maintain security even if data of the security area 253 is abnormally exported from an unauthorized device.

Here, the generation and configuration of the data encryption key will be described in detail again.

As described above, the control unit 230 allows only an authenticated user to use the security area of the storage unit.

There may be various types of technical configurations for this, but in the present embodiment, system file information for operating the security area 253 is provided from the security terminal 100.

At this time, when the connection of the security terminal 100 is released, the control unit 230 deletes the system file information so that the security area 253 cannot be used when the security terminal 100 is not connected. can do.

In addition, differently, a volatile memory (not shown) for storing the system file information is added to the storage device 200, and the system file information received from the security terminal 100 is stored in the volatile memory. Can be used.

In this case, once the storage device 200 is connected to a PC and power is applied, when the system file information is received from the security terminal 100 and the system file information is stored in the volatile memory, the storage device There is a difference in that the security area 253 can be used even if the connection with the security terminal 100 is not maintained until the 200 is separated from the PC.

Meanwhile, the data stored in the security area 253 may be encrypted and stored by a data encryption key shared by the security terminal 100 and the storage device 200. The data encryption key is the security terminal 100 ) Can be generated by the controller 120.

Specifically, the data encryption key may be generated by including any one or more of identification information for the identified user, terminal identification information, which is unique information of the security terminal 100, or unique information of the storage device 100.

In the case of another embodiment of the present invention, which will be described later, a data encryption key is generated including information extracted from user identification information, terminal identification information, or storage device-specific information in a one-time randomly generated one-time pass. Even user authentication can be performed, which will be described again.

That is, the controller 120 receives storage device-specific information from the storage device 200, generates a data encryption key using the recognized user's identification information and terminal identification information, and stores the generated data encryption key. It can be provided to the device 200 to share the data encryption key.

In addition, the data encryption key may be shared by generating a one-time basis. In this case, the data encryption key may be configured to include a random key value generated one-time.

Meanwhile, the control unit 230 and the controller 120 may encrypt and transmit communication data including a control signal, and generate and hold a communication encryption key for decrypting the received communication data.

The communication encryption key is generated when a storage device is registered in the security terminal, and may be stored in the security terminal and the storage device, respectively.

In this case, the communication encryption key may be generated by a combination of two or more of the user identification information, terminal identification information, which is unique information of the security terminal, the storage device unique information, or a random generated value.

Meanwhile, the control signal may be a control signal for performing various functions. For example, the control signal may be a control signal for setting and resetting the sizes of the general area 251 and the security area 253 of the storage unit 250. .

That is, the controller 230 may receive a control signal encrypted using the data encryption key from the controller 120 and set and reset the sizes of the security area 253 and the general area 251.

Meanwhile, the sizes of the general area 251 and the security area 253 may be automatically adjusted by the control unit 230.

In a specific embodiment of this, the control unit 230 includes the security area 253 and the general area 251 so that the ratio of the unused remaining space of the security area 253 and the unused remaining space of the general area is kept constant. You can reset the size of.

In this case, the storage space of a limited size is divided into a general area and a security area, but the ratio of the remaining space on both sides is kept constant. There is an effect that can be used.

In addition, when access to the security area 253 by an unauthorized user is detected, the control unit 230 may permanently delete data stored in the security area 253. In this case, whether or not the permission is permitted may be determined by whether the data encryption key is authenticated.

In addition, the user may set access rights for some of the files stored in the security area 253 so that even a user who is not authenticated within the access rights can access the corresponding file.

Looking at a specific method applied to the present invention, when data for which access rights are set is stored in the security area 253, the control unit 230 generates file system information for the data set for access rights, and then The resulting file system information is included in the file system information for the general area 251 and stored.

Accordingly, when an unauthenticated user uses the storage device 200 according to the present invention, only the use of the general area is allowed, and a file for data for which access rights to the file system for the general area 251 are set. Since the system is stored, the user can access the files stored in the secure area 253 within the set access rights.

In this case, the access right may be to set whether to allow some or all of the data to be read, copied, changed, deleted, or printed.

Next, a case in which the security access information according to the present invention is a one-time password (random key value) generated with different values at each generation will be described.

In the case of the present embodiment, as shown in FIG. 5, when the storage device is connected, the controller transmits pre-stored security access information and newly created security access information to the storage device.

At this time, the previously stored security access information refers to the security access information (one-time password) that was created and stored at a time when the storage device is finally accessed, and the newly created security access information refers to the newly created security access information (one-time password). Say.

Thereafter, the storage device receiving the previously stored security access information and the newly created security access information compares the received security access information and the security access information stored in the storage device, and performs authentication for the security terminal, Allows access to the security area.

At this time, when the security area of the storage device is activated, that is, when authentication is successful, the storage device updates and stores the stored security access information as newly created security access information received from the security terminal, thereby generating a one-time security. Prepare for the next authentication of access information.

Of course, when the security area of the storage device is activated, the security terminal also updates and stores the previously stored security access information with newly created security access information.

Next, additional functions of the security terminal and storage device according to the present invention will be described.

First, the security terminal may control the usage state of the storage device through a mobile device management (MDM) function through a server.

That is, a user authenticated from an external server can access the security terminal and transmit a remote control command.

At this time, when a remote control command is received from an external server, the controller executes various commands such as data deletion, access restriction, authentication restriction, or log information extraction for the security area of the storage device according to the remote control command. You can do it.

Next, the storage device may restrict access to the security area according to the access distance to the security terminal.

That is, the control unit of the storage device may restrict access to the security area when the disconnection of the connection with the security terminal through the short-range communication module is detected.

Accordingly, even after the security area of the storage device is activated through the security terminal, if the security terminal is removed, the use of the security area can be immediately prohibited.

In this case, only the case in which the connection with the security terminal is released has been described, but the connection is not released, but this can be applied even when the distance is out of a certain range.

Meanwhile, when the number of authentication errors is repeated, the control unit of the storage device may limit authentication for a predetermined time or permanently.

That is, the control unit may accumulate and store the number of failures of authentication through the security terminal, and, when the number of consecutive failures exceeds a preset value, limit authentication to the security area.

Hereinafter, a specific embodiment of a data security management method for a storage device using a security terminal according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the data security management method of a storage device using a security terminal according to the present invention starts with the storage device 200 being connected to a PC (S110).

Thereafter, the storage device 200 determines whether the security terminal 100 is connected through short-range communication and whether file system information has been received from the security terminal 100 through the short-range communication (S120 and S130).

Meanwhile, the security terminal 100 identifies a user through the authentication module 110 and extracts user identification information for the identified user separately from steps 110 to 130 (S210).

Then, the file system information corresponding to the user identification information is extracted, encoded with a data encryption key, and then the encoded file system information is transmitted to the storage device 200 (S220).

Of course, when the user of the security terminal 100 is a single user in step 220, the file system information in step 220 is one.

In addition, since the generation and sharing of the data encryption key is the same as described above, a detailed description will be omitted.

Meanwhile, in the present invention, when authenticated by a plurality of security terminals, the file system information can be transmitted or activated.

In this case, the storage device may be configured to receive the file system information only when a plurality of preset security terminals transmit a data encryption key through short-range wireless communication.

Alternatively, the file system information may be encrypted and transmitted by a data encryption key including a plurality of authentication values corresponding to a plurality of preset security terminals. In this case, the storage device may be configured to receive all authentication values from the plurality of security terminals and activate the file system information only through a data encryption key generated therefrom.

On the other hand, by the step 220, when the security terminal 100 is connected to the step 120 and step 130 and the file system information is received, the received file system information is encrypted and decrypted using a data encryption key. It is decoded and stored through the unit (S140).

In this case, the file system information may be stored in the storage unit 250 or in a separate volatile memory according to an embodiment.

After the received file system information is stored, the security area 253 of the storage unit 250 is operated using the stored file system information.

Of course, when the security terminal 100 is not connected or the file system information is not received in steps 120 and 130, the security area 253 ) Is not recognized, and only the general region 251 is recognized/operated using the file system for the general region (S500).

Meanwhile, when a change to the file system information occurs during operation of the security area in step 150, the control unit 230 transmits the changed file system information to the security terminal 100 (S310 and S320).

Then, the security terminal 100 stores the changed file system information (S330).

Next, the control unit 230 recognizes the disconnection of the security terminal 100, and when the connection of the security terminal 100 is released, deletes the stored file system information (S410, S420).

Accordingly, the security area 253 cannot be used until the security terminal 100 is reconnected and the file system information is re-received.

Of course, when the file system information is stored in the volatile memory, when the storage device 200 is separated from the PC, the file system information is automatically deleted.

Hereinafter, a case in which a user sets access rights when storing a file in a secure area will be described with reference to FIG. 4.

As shown in FIG. 4, when a user stores a file in the secure area 253 and grants access rights or sets access rights to a previously stored file, the control unit 230 provides an input command for setting access rights. Recognize (S610).

Thereafter, the control unit 230 includes and stores the file system for the corresponding file in the file system information for the general area (S620). At this time, the file system is configured to include access rights.

Accordingly, a user may grant some rights to a file and set some rights to an unauthenticated user to access a file stored in the security area 253.

Meanwhile, a method of resetting the sizes of the general area 251 and the security area 253 of the storage unit 230, a method of generating a data encryption key, a method of encrypting and decrypting data and control signals using a data encryption key And since the method of deleting data when an unauthorized user accesses the security area is the same as described above, a detailed redundant description will be omitted.

In addition, in the present invention, authentication of the user may be performed through confirmation of the data encryption key.

Next, an authentication execution method in the case of a one-time password (random key value) generated with different values each time the security access information according to the present invention is generated will be described with reference to FIG. 5.

In this embodiment, the process of connecting the storage device 200 to the PC (S1110), the process of confirming the connection of the security terminal 100 (S1120), and the user authentication process (S1210) through the authentication module 110, Since the process is the same as the above-described embodiment, detailed description will be omitted.

Meanwhile, the security terminal newly generates security access information, reads the stored security access information together with the newly created security access information, and transmits it to the storage device (S1220 and S1230).

At this time, the previously stored security access information refers to the security access information (one-time password) that was created and stored at a time when the storage device is finally accessed, and the newly created security access information refers to the newly created security access information (one-time password). Say.

In this case, the security access information may be a one-time password (random key value) itself, and the one-time password is encrypted by including at least one of user identification information, terminal identification information, which is unique information of the security terminal, or storage device-specific information. It may be data processed into one piece of data.

Thereafter, the storage device that has received the previously stored security access information and the newly created security access information (S1240) matches the received security access information with the security access information stored in the storage device (S1240). Whether or not it is determined (S1250).

As a result of the determination in step 1250, if both security access information match, the user is authenticated and access to the security area is allowed (S1260).

Accordingly, when the security area of the storage device is activated, that is, when authentication is successful, the storage device updates and stores the stored security access information as newly created security access information received from the security terminal to generate a one-time security. In preparation for the next authentication for access information (S1270), the security terminal updates and stores the previously stored security access information as newly created security access information (S1280).

Of course, even in this case, when the connection of the security terminal is released (S1310), or when there is no access to the security terminal as a result of the determination in step 1120, and when the user authentication is not passed as a result of the determination in step 1250, the storage device The security area is inactive and only the general area is operated (S1320).

The rights of the present invention are not limited to the embodiments described above, but are defined by what is described in the claims, and that a person having ordinary knowledge in the field of the present invention can make various modifications and adaptations within the scope of the rights described in the claims. It is self-explanatory.

The present invention is a data security management system for a storage device using a security terminal in which a storage area is divided into a general area and a security area to identify a user using a security terminal and allow an authenticated user to access the semi-security area. In terms of, according to the present invention, there is an effect of protecting data by accessing and controlling only an authenticated user to a security area of a storage device.

100: security terminal 110: authentication module
120: controller 130: short-range communication module
140: storage module 200: storage device
210: short-range wireless communication unit 220: interface unit
230: control unit 240: encryption/decryption unit
250: storage unit 251: general area
253: security area

Claims (25)

A user authentication module for identifying a user and generating user identification information;
A controller for transmitting security access information corresponding to the user identification information to a storage device;
A storage module for storing security access information corresponding to the user identification information; And
A security terminal comprising a short-range communication module for transmitting and receiving the security access information through short-range communication,
An interface unit connected to a computer to enable data input/output;
A short-range wireless communication unit for transmitting and receiving security access information to and from the security terminal;
A storage unit comprising a memory for storing data, wherein the storage area is divided into a general area and a security area; And
Data of a storage device using a security terminal, characterized in that it comprises a storage device including a control unit that receives security access information from the security terminal and determines whether or not to selectively activate the security area according to a user authentication result. Security management system.
The method of claim 1,
The security access information,
Data security management system of a storage device using a security terminal, characterized in that it consists of a one-time password that is generated with different values each time it is created.
The method of claim 2,
The security access information,
The data security management system for a storage device using a security terminal, characterized in that the information is generated by further including at least one of the user identification information, the terminal identification information, which is the unique information of the security terminal, or the storage device-specific information.
The method of claim 3,
The controller,
Transmits the previously stored security access information and newly created security access information to the storage device;
When the security area of the storage device is activated, the previously stored security access information is updated with newly created security access information.
The method of claim 4,
The control unit,
Determining whether to activate the security area by comparing the previously stored security access information received from the security terminal with the security access information stored in the storage device;
When the security area is activated, the security access information stored in the storage device is updated and stored with newly created security access information received from the security terminal.
The method of claim 5,
The storage device,
It further comprises an encryption key generation module for generating a data encryption key by encrypting the security access information received from the security terminal through the user identification information, terminal identification information that is unique information of the security terminal, or storage device-specific information. Data security management system of a storage device using a security terminal, characterized in that.
The method of claim 6,
The control unit,
Data security of a storage device using a security terminal, characterized in that the data stored in the secure area is encrypted and stored using the data encryption key, and the data stored in the secure area is decrypted and read through the data encryption key. Management system.
The method according to any one of claims 1 to 7,
The controller and control unit,
Maintaining communication between the secure terminal and the storage device through the communication data encrypted using the communication encryption key;
The communication encryption key,
When registering between the security terminal and the storage device,
A security terminal, characterized in that it is stored in the security terminal and the storage device as a unique value generated by a combination of two or more of the user identification information, the terminal identification information, which is the unique information of the security terminal, the storage device-specific information, or a random generated value. Data security management system of storage devices using.
The method of claim 8,
The control unit,
A data security management system for a storage device using a security terminal, characterized in that the size of the security area and the general area are set and reset according to a control signal of the security terminal.
The method of claim 9,
The user authentication module,
A data security management system for a storage device using a security terminal, comprising a biometric module that identifies a user's fingerprint or iris.
The method of claim 9,
The user authentication module,
A data security management system for a storage device using a security terminal, comprising a keypad module that receives an authentication number or an authentication pattern from a user.
The method of claim 9,
The control unit,
In a state where authentication by the security access information is not allowed, when data access to the security area through the interface unit is detected, the data stored in the security area is permanently deleted. Data security management system.
The method of claim 9,
The controller,
When a remote control command is received from an external server,
A data security management system for a storage device using a security terminal, characterized in that data deletion, access restriction, authentication restriction, or log information extraction for the security area of the storage device is performed according to the remote control command.
The method of claim 9,
The control unit,
A data security management system for a storage device using a security terminal, characterized in that when the disconnection of the connection with the security terminal through the short-range communication module is detected, access to the security area is restricted.
The method of claim 9,
The control unit,
Data security of a storage device using a security terminal, characterized in that when the number of failures of authentication through the security terminal is accumulated and stored, and when the number of consecutive failures exceeds a preset value, authentication for the security area is restricted. Management system.
(A) a step of generating user identification information by identifying a user through a security terminal;
(B) connecting the security terminal to a storage device through short-range wireless communication;
(C) transmitting, by the security terminal, security access information corresponding to the user identification information to the storage device;
(D) the storage device authenticates the user using the received security access information, activates the security area included in the storage device, and operates the data stored in the security area so that access is possible. Data security management method of a storage device using a security terminal, characterized in that.
The method of claim 16,
The security access information is a data security management method of a storage device using a security terminal, characterized in that consisting of a one-time password that is generated with a different value each time it is generated.
The method of claim 17,
The security access information,
The data security management method of a storage device using a security terminal, characterized in that the information is generated by further including at least one of the user identification information, the terminal identification information that is the unique information of the security terminal, or the storage device-specific information.
The method of claim 18,
The security access information of the step (C),
A data security management method for a storage device using a security terminal, comprising: pre-stored security access information stored in the security terminal and newly created security access information.
The method of claim 19,
The step (D),
Data security management of a storage device using a security terminal, characterized in that the security terminal further comprises the step of updating the previously stored security access information with newly created security access information when the security area of the storage device is activated. Way.
The method of claim 20,
User authentication of the step (D),
Comparing pre-stored security access information received from the security terminal with security access information stored in a storage device, determining whether to activate a security area;
Data security of a storage device using a security terminal, characterized in that when the security area is activated, the security access information stored in the storage device is updated and stored as newly created security access information received from the security terminal. Management method.
The method of claim 21,
The storage device,
The security access information received from the security terminal is encrypted through the user identification information, terminal identification information, which is unique information of the security terminal, or storage device-specific information to generate a data encryption key. Data security management method of a storage device using a security terminal, characterized in that.
The method of claim 22,
The control unit,
Data security of a storage device using a security terminal, characterized in that the data stored in the secure area is encrypted and stored using the data encryption key, and the data stored in the secure area is decrypted and read through the data encryption key. Management method.
The method according to any one of claims 16 to 23,
User identification of the step (A),
A data security management method of a storage device using a security terminal, characterized in that it is performed by identifying a user's fingerprint or iris.
The method according to any one of claims 16 to 23,
User identification of the step (A),
A data security management method of a storage device using a security terminal, characterized in that performed by receiving an authentication number or an authentication pattern from a user.

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