KR101620452B1 - Communication Device and Method for thereof - Google Patents

Abstract

The present invention relates to a communication apparatus capable of transmitting and receiving messages between communication apparatuses. According to another aspect of the present invention, there is provided a control method for a communication apparatus, the method comprising: receiving authentication information based on an RFID reader adjacent to an RFID tag; performing authentication using the received authentication information; The method comprising: generating a security code for encrypting a message to be transmitted to a communication device; generating an encrypted message decryptable by a security code generated in the another communication device using the generated security code; To another communication device.

Description

Technical Field [0001] The present invention relates to a communication device and a control method thereof,

The present invention relates to a communication apparatus capable of transmitting and receiving messages between communication apparatuses.

Conventional communication devices are not capable of distinguishing friendly and enemy forces from each other, and when a communication device of a friend is caught by an enemy, there is a possibility of tapping according to enemy use. That is, there is a problem that the conventional communication device does not have a proper countermeasure for restricting the enemy communication device from being used, and the friendly operation can be exposed to the enemy when the enemy communication device is struck by the enemy.

In addition, in order to disturb the opponent who has struck the communication device, disturbance operations irrespective of the opponent's operation are transmitted to the friendly member, which causes a great loss in the battle.

Accordingly, a method of identifying whether a communication device is a friendly or an enemy communication device, and enabling message communication normally only when the communication device is a friend is desperately needed.

RFID technology uses frequency signals of a low frequency (LF), a high frequency (HF), a high frequency (UHF) and a microwave (M / W) It is often used for wireless identification at distances of up to tens of meters. These RFID technologies are widely used in various fields such as entry system, traffic card, logistics management, medical management, public bicycle system, history management, book management, exercise score measuring device, animal management and passport. In addition, there are increasing cases in the field of defense, focusing on the military support field.

However, there is no example in which such RFID technology is applied to a communication device. Accordingly, a method for enhancing security by combining RFID technology with a communication device has become a hot topic.

One object of the present invention is to provide a communication device and a control method of a communication device capable of encrypting or decrypting a message only when the authentication is successful using an RFID tag installed in a preset area or an authorized user There is.

According to another aspect of the present invention, there is provided a control method for a communication device, the method comprising: receiving authentication information based on an RFID reader adjacent to an RFID tag; performing authentication using the received authentication information; The method comprising: generating a security code for encrypting a message to be transmitted to another communication device; generating an encrypted message decryptable by a security code generated in the another communication device using the generated security code; And transmitting the generated security code to the other communication device, wherein the security code generated in the other communication device is generated based on the authentication information received from the RFID tag or the RFID tag different from the RFID tag.

In one embodiment, the encrypted message generated using the security code generated in the step of generating the security code may be decrypted through an exclusive OR operation using the security code generated in the other communication device .

In one embodiment, the step of generating the security code may generate a random code if the authentication fails, and the step of generating the encrypted message may include generating the random code, To the message.

In one embodiment, a method of controlling a communication device according to an embodiment of the present invention includes: checking whether an RFID reader unit is adjacent to an RFID tag periodically; and determining, based on the confirmation result, And if the authentication information is not received within a predetermined number of times, activating the security program.

In one embodiment, the security program requests a password over a preset number of times, and when the password does not match, the security program erases the function of the memory.

According to an embodiment of the present invention, there is provided a communication device including: an RFID reader unit for receiving authentication information based on a proximity to an RFID tag; And generating a security code for encrypting a message to be transmitted to another communication device if the authentication is successful, and transmitting the security code generated in the another communication device using the generated security code And a control unit for generating an encrypted message capable of being decrypted by the communication unit and transmitting the encrypted message to the other communication device, wherein the security code generated by the other communication device is transmitted from the RFID tag or another RFID tag And is generated based on the received authentication information.

In one embodiment, the encrypted message may be decrypted through an exclusive OR operation using a security code generated in the other communication device.

According to the present invention, it is possible to encrypt and decrypt a message only when the authentication information is received through the RFID tag and the authentication is successful using the authentication information. Therefore, when the communication device is caught by an unauthorized object, eavesdropping can be prevented in advance, and military security can be enhanced.

1 is a block diagram illustrating a system according to an embodiment of the present invention.
2 is a flowchart illustrating a method of controlling a communication device according to an embodiment of the present invention.
3 is a conceptual diagram for explaining a control method of a communication apparatus according to an embodiment of the present invention.
Fig. 4 is a flowchart embodying Fig. 2. Fig.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily carry out the technical idea of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly explain the present invention, parts not related to the description are omitted, and like parts are denoted by similar reference numerals throughout the specification.

Although the terms used in the present invention have been selected in consideration of the functions of the present invention, it is possible to change the presently widely used general terms according to the intention of the technician in the technical field, custom or the emergence of new technology. Also, in certain cases, there may be a term selected arbitrarily by the applicant, in which case the meaning thereof will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term rather than the name of the term, and the content of the present invention throughout the present invention.

In addition, other RFID tags and other communication devices from the processes described below include the same technical features as the RFID tags and the communication devices. That is, in order to explain that a plurality of communication apparatuses and a plurality of RFID tags are spaced apart from each other, a message is transmitted or received, It should be noted that the RFID tag is not another invention having distinct technical features.

1 is a block diagram illustrating a system according to an embodiment of the present invention.

Referring to FIG. 1, a system according to an embodiment of the present invention may include a communication device 100 and an RFID tag 200.

The communication device 100 includes a memory 101, an RFID communication unit (reader) 102, a keypad 103, an LF / UHF antenna 104, an antenna 105, an RF module 106, 107, a control unit 108, a microphone 109, a speaker 110, a display 111, and the like.

Here, the memory 101, the keypad 103, the antenna 105, the RF module 106, the communication module demodulator 107, the control unit 108, the microphone 109, the speaker 110 and the display 111 Is a general configuration of the communication apparatus, and a detailed description thereof will be omitted.

In one embodiment, the RFID communication unit 102 uses a frequency band of 13.56 MHz, which is a kind of RFID (Radio Frequency Identification), to transmit an object recognition result through a short distance radio signal to a short distance wireless communication, a short distance communication, It is also referred to as magnetic field communication, and may also be referred to as 'Near Field Communication (NFC)'.

In addition, this short-range wireless communication enables bidirectional data communication by various methods such as payment, information inquiry, and file exchange by simply bringing the communication device and object within a few centimeters (cm) to several meters (m).

Here, the object may be a device such as a communication device capable of short-range wireless communication, or an RFID tag, a sticker, or a card having a built-in microchip capable of short-range wireless communication while storing specific information. That is, the object refers to all external devices, memories, stickers, cards, RFID tags, etc., which are capable of short range wireless communication, except for the communication device according to the present invention.

The LF / UHF antenna 104 is an antenna that transmits and receives a low frequency or a very high frequency. The LF / UHF antenna 104 can activate the RFID tag 200 in a standby state by using a low frequency (LF) The authentication information can be received from the tag 200.

Hereinafter, the RFID communication unit (reader) 102 and the LF / UHF antenna 104 are integrated into the RFID interrogator unit 120. FIG. The RFID reader unit 120 may be built in the communication device 100 or may be detachable in the form of a separate reader device.

The RFID tag 200 may include an LF / UHF antenna 201, an RFID communication unit (tag) 202, an authentication information memory 203, and the like.

The LF / UHF antenna 201 may communicate with the LF / UHF antenna 104 of the communication device 100. That is, when the RFID tag 200 receives the low frequency (LF) through the LF / UHF antenna 201, the standby state can be switched to the active mode.

Also, the RFID communication unit (tag) 202 can perform short-range wireless communication with the RFID communication unit (reader) 102 of the communication device 100.

The authentication information memory 203 may store authentication information for authenticating whether the communication device is within a predetermined area. Here, the predetermined area is an area capable of performing short-range wireless communication based on the RFID tag 200, and can check whether the communication device 100 is in the area.

In addition, the authentication information stored in the RFID tag 200 preferably includes identification information. Here, the identification information may be information for identifying a user who owns the RFID tag 200, and may be identification information capable of identifying, for example, a friend.

In addition, the RFID tag 200 is preferably installed in a predetermined area. Here, the predetermined area may be an area (for example, a friendly area) necessary for the communication device 100 to normally encrypt and decrypt the message.

In addition, the RFID tag 200, in one embodiment, may be carried by an authorized user (e.g., a friend). In this case, the RFID tag can be moved depending on the movement of the applied user, and the communication device 100 can transmit the message only within the area where the short-range wireless communication (RFID communication) Can be normally encrypted and decrypted.

The RFID tag 200 may be an embodiment of the above-mentioned object, and may be actively present in the area where the communication device 100 exists in a predetermined area or in the area where the communication device 100 is capable of short- (LF) or the like periodically in order to determine whether or not it is possible to transmit a low frequency signal. In addition, the RFID tag 200 can maintain the standby mode to receive the low frequency (LF) transmitted from the communication device 100. [ In order to perform this function, the RFID tag 200 may further include a battery (not shown) and a control unit (not shown).

On the other hand, the control unit 108 of the communication device 100 can control each component of the communication device. Also, the control unit 108 can receive authentication information from the RFID tag and encrypt a message to be transmitted to another communication device. In addition, when the encrypted message is received from another communication apparatus, the control unit 108 may receive the authentication information from the RFID tag and decrypt the encrypted message.

Hereinafter, a control method of a communication apparatus according to an embodiment of the present invention will be described in more detail with reference to FIG. 2 and FIG. FIG. 2 is a flowchart illustrating a method of controlling a communication apparatus according to an embodiment of the present invention. FIG. 3 is a conceptual diagram illustrating a method of controlling a communication apparatus according to an exemplary embodiment of the present invention.

A communication device capable of short-distance wireless communication with the RFID tag according to an embodiment of the present invention can receive the authentication information based on the RFID reader adjacent to the RFID tag (S210).

The authentication information may be identification information that can identify whether the communication device has a predetermined area and whether it is an authorized user or an authorized area.

The communication device may perform authentication using the received authentication information, and may generate a security code for encrypting a message to be transmitted to another communication device if the authentication is successful (S220).

The security code may be 0 or 1. Further, the security code may be generated based on the authentication information. That is, it is preferable that a plurality of RFID tags installed in a predetermined area are installed in an authorized user or an authorized area, and it is preferable that the same identification information for identifying whether or not the authorized area is included as authentication information. Accordingly, the authentication information received from the plurality of RFID tags may include the same identification information, and the security code generated based on the authentication information may be the same.

The communication device can generate an encrypted message that can be decrypted by the security code generated in the other communication device using the generated security code (S230).

Here, the other communication device refers to a communication device existing in a predetermined area of the RFID tag installed in another area.

The security code generated by the other communication device may be generated based on authentication information received from the RFID tag or an RFID tag different from the RFID tag. As described in step S220, the RFID tag and another RFID tag may be authentication information including the same identification information, and the security code generated by the other communication device may be the same as the security code generated for encrypting the message .

The encrypted message generated using the security code generated in the step of generating the security code may be decrypted through an exclusive OR operation using the security code generated in the other communication device.

Herein, the exclusive-OR operation is an exclusive-OR operation or an XOR operation. When two code values to be compared have values of 1 and 1, 0, and when two code values to be compared have values of 1 and 0, 1 " when the code value of " 0 " has a value of 0 and 1, and " 1 "

In one embodiment, if the security code for encrypting a message is the same as the security code generated by another RFID tag in another communication device, if the other communication device receiving the encrypted message performs an exclusive-OR operation, So that all the computation results are derived as zero, in which case the other communication device can decrypt the encrypted message.

The communication device may transmit the encrypted message to the other communication device (S240).

Here, the communication device and the other communication device are only for explaining the case of transmitting and receiving the message, and the technical features described for the communication device and the other communication device are all applicable to the communication device of the present invention.

Hereinafter, a specific embodiment will be described with reference to FIG.

The communication device can receive authentication information based on that the RFID reader is adjacent to the RFID tag, and can perform authentication. Through such authentication, the communication device can identify that it is in an authorized area (e. G., A friendly area) or is being operated by an authorized user (e. G., A friend).

The communication device can generate a security code (C) when the authentication is successful and can encrypt the message (M) to be transmitted to another communication device by superimposing the security code (C), and the communication device can encrypt the security code To another communication device.

Thereafter, when another communication device receiving the security code superposition message is in an area where another RFID tag exists, the other communication device receiving the security code superposition message receives the authentication information from the other RFID tag, Security code can be generated. Here, it is preferable that the generated security code is the same as the security code superimposed on encrypting the message. The other communication device receives the authentication information from the other RFID tag, identifies it as an authorized region or an authorized user, generates a security code (C), and performs exclusive logical sum operation on the security code (C) . Accordingly, the other communication device can restore the received message when the RFID tag is held.

However, if another RFID tag does not exist in another communication apparatus area where the security code superposition message is received, a random code R is generated. That is, when the other communication device does not receive authentication information from another RFID tag, it determines that the device is not operated by the authorized area or the authorized user. Therefore, if the exclusive OR operation is performed using the random code R and the security code superposition message, 1 is included in the result value, so that the other communication device can not decode the security code superposition message.

With such a configuration, when the communication device is caught by the enemy force, the enemy force can not decode the message transmitted by the friend, so that the eavesdropping can be prevented.

Also, although not shown, when a message is transmitted in an area without an RFID tag, authentication fails because the communication device has not received the authentication information from the RFID tag. In this case, the communication device generates a random code, superimposes a random code on a message to be transmitted to another communication device, and transmits the message to another communication device.

Other communication apparatuses receiving the message in which the random code is superimposed will generate a code different from the random code superimposed on the message if the RFID tag exists or does not exist. Therefore, the other communication apparatus can not decode the message in which the random code is superimposed.

With such a configuration, when a disturbance message is transmitted to a friendly member using a communication device that the enemy group has taken off, the friend can not decipher the disturbance message, thereby preventing damage. In addition, the communication device receiving the message in which the random code is superimposed can determine that another communication device that has transmitted the message in which the random code is superimposed has been caught by the enemy, and can cancel the communication function with the other communication device.

Hereinafter, a method of controlling a communication apparatus according to an embodiment of the present invention will be described in detail with reference to FIG.

When the power is turned on by the user, the communication device enters the standby mode. Also, the RFID tag is also in a standby mode.

Thereafter, when the user starts using the communication device, the communication device searches for the RFID tag through the LF / UHF antenna provided in the RFID reader or transmits a low-frequency signal (LF) for activating the RFID tag.

The RFID tag receiving the low-frequency signal LF is switched to the active mode, and the RFID tag transmits the low-frequency signal LF, which is a response signal through the LF / UHF antenna, to the communication device.

The communication device receiving the response signal transmits an authentication request signal to the RFID tag. The RFID tag transmits the authentication information stored in the RFID tag to the communication device through a UHF signal in response to the authentication request signal.

The communication device performs authentication through the transmitted authentication information and generates a security code. If there is no RFID tag, or if a response signal is not received from the RFID tag, the communication device generates a random code.

The communication device superimposes the security code or random code on a message to be transmitted to another communication device and transmits the message.

Then, for continuous communication, the communication device periodically performs a tag authentication attempt on the RFID tag. In other words. The communication device can periodically check whether the RFID reader is adjacent to the RFID tag.

When a low frequency signal LF serving as an RFID tag activation signal is transmitted by a predetermined number M and the response signal is not received in response to the preset number M or when the authentication information is not received from the RFID tag, The security program can be started.

In one embodiment, the security program requests a password over a preset number of times (N), and may return to the standby mode if the password does not match.

In another embodiment, the security program requests a password over a predetermined number of times (N), and if the passwords do not match, the communication device can automatically clear the internal memory function.

In another embodiment, the security program requests a password over a preset number of times (N), and when the passwords do not match, the communication device transmits information that the RFID tag can not be confirmed by the controller, The memory function of the communication device can be canceled by the control.

Here, the communication device and the other communication device are only for explaining the case of transmitting and receiving the message, and the technical features described for the communication device and the other communication device are all applicable to the communication device of the present invention.

The communication apparatus according to an embodiment of the present invention may include technical features that are substantially the same as the control method of the communication apparatus according to an embodiment of the present invention although the categories are different. Therefore, the above-described characteristics relating to the communication device can be inherently applied to the invention of the control method of the communication device.

According to an embodiment of the present invention, the above-described method can be implemented as a code readable by a processor on a medium on which a program is recorded. Examples of the medium that can be read by the processor include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, etc., and may be implemented in the form of a carrier wave (e.g., transmission over the Internet) .

The communication apparatus described above can be applied to a configuration and a method of the embodiments described above in a limited manner, but the embodiments may be configured such that all or some of the embodiments are selectively combined so that various modifications can be made It is possible.

100: communication device 108:
120: RFID reader unit 200: RFID tag

Claims (7)

A communication device capable of short-range wireless communication with an RFID tag,
Receiving authentication information based on that the RFID reader unit is adjacent to the RFID tag;
The method comprising: generating a security code for encrypting a message to be transmitted to another communication device when the authentication is successful; encrypting the encrypted message if the authentication fails; Generating a random code different from the security code so as to be impossible;
Generating an encrypted message using the generated security code if the authentication is successful, and generating an encrypted message that can not be decrypted using the generated random code if the authentication fails; And
And transmitting the encrypted message to the other communication device,
Wherein the encrypted message generated using the security code is decryptable by a security code generated in the another communication device,
Wherein the decrypted encrypted message generated using the random code is not decryptable by a security code and a random code generated by the other communication device,
Wherein the step of receiving the authentication information comprises:
Checking whether the RFID reader is adjacent to the RFID tag periodically;
Activating a security program when the RFID reader does not receive the authentication information for a predetermined number of times based on the result of the checking; And
Requesting a password over a predetermined number of times based on that the security program is activated and clearing the function of the memory if the password does not match.
The method according to claim 1,
Wherein the encrypted message generated using the security code generated in the step of generating the security code is decryptable through an exclusive OR operation using the security code generated in the other communication device Way.
delete delete delete A communication device capable of short-range wireless communication with an RFID tag,
An RFID reader unit for receiving authentication information based on the RFID tag adjacent to the RFID tag; And
The method comprising: generating a security code for encrypting a message to be transmitted to another communication device when the authentication is successful; encrypting the encrypted message if the authentication fails; Generating a random code different from the security code,
Generates an encrypted message using the generated security code, generates an encrypted message using the generated random code if the authentication fails, and transmits the encrypted message to the other communication To a device,
Wherein the encrypted message generated using the security code is decryptable by a security code generated in the another communication device,
Wherein the decrypted encrypted message generated using the random code is not decryptable by a security code and a random code generated by the other communication device,
Wherein,
The RFID reader activates the security program when the RFID reader does not receive the authentication information for a predetermined number of times based on the result of the check, Requesting a password over a predetermined number of times based on that the password is invalid, and clearing the function of the memory when the password does not match.
The method according to claim 6,
Wherein the encrypted message generated using the security code is decryptable through an exclusive OR operation using a security code generated in the other communication device.

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