KR100572463B1 - Encrypted communication method in communication between wireless communication terminals using shared encryption key - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a cryptographic communication method in communication between wireless communication terminals using a shared cryptographic key.

2. The technical problem to be solved by the invention

The present invention is to protect the contents of a call by transmitting and receiving encrypted call data using an encryption key previously promised between a transmitting side and a receiving side during a direct wireless call between wireless communication terminals.

3. Summary of the Solution of the Invention

The present invention provides a cryptographic communication method for wireless communication in a wireless communication terminal period in which a shared encryption key is stored, wherein the first wireless communication of the transmitting side as the call is connected to the first wireless communication terminal in a short range wireless communication mode. A first step of the terminal searching its shared encryption key table to identify a shared encryption key corresponding to the second wireless communication terminal at the receiving end and transmitting an encryption request to the second wireless communication terminal; The second wireless communication terminal searches for its own shared encryption key table according to the encryption request of the first wireless communication terminal to identify the shared encryption key corresponding to the first wireless communication terminal, and sends it to the first wireless communication terminal. Transmitting a cryptographic response; A third step of encrypting and transmitting call data using the shared encryption key when the first wireless communication terminal receives an encryption response from the second wireless communication terminal and confirms that a shared encryption key exists; And a fourth step in which the first and second wireless communication terminals decrypt the encrypted call data using the shared encryption key.

4. Important uses of the invention

The present invention is used in a wireless communication terminal.

Wireless communication terminal, near field communication, ciphering algorithm, secret key (Kc) sharing, secret key (Kc) table

Description

Method of Encryption Communication between a First and a Second Wireless Communication Terminal using Shared Encryption Key}

1 is a configuration of an embodiment of a general dual-mode wireless communication terminal.

2 is a diagram illustrating an embodiment of a short range wireless communication mode in a general dual mode wireless communication terminal.

3 is a signal flow diagram of an exemplary embodiment of a communication method between a conventional dual mode wireless communication terminal.

4 is a diagram illustrating an embodiment of a conventional encryption algorithm.

5 is a diagram illustrating an embodiment of a shared encryption key table according to the present invention;

6 is a signal flow diagram of an embodiment of a cryptographic communication method between wireless communication terminals according to the present invention.

7 is a flowchart illustrating an encryption communication method between wireless communication terminals according to the present invention.

* Explanation of symbols on the main parts of the drawing

11: wireless transmission and reception device 12: operation / control device

13: codec 14: storage device

15: input device (keypad) 16: display device (LCD)

17: voice input device (microphone) 18: voice output device (speaker)

The present invention relates to a cryptographic communication method between wireless communication terminals, and more particularly, in a short distance communication between wireless communication terminals in a wireless communication terminal supporting a dual mode of a general wireless communication mode and a short range wireless communication mode, a transmitting side and a receiving side. The present invention relates to a cryptographic communication method between wireless communication terminals for protecting the contents of a call by transmitting and receiving encrypted call data using a shared encryption key promised in advance.

In the present invention, a wireless communication terminal is a mobile communication terminal, a personal mobile communication terminal (PCS), a personal digital terminal (PDA), a smart phone, a next generation mobile communication terminal (IMT-2000), wireless communication while carrying an individual such as a wireless LAN terminal Say this is possible terminal.

In addition, a wireless communication terminal to which the present invention is applied supports a general wireless communication mode for calling through a base station and a wireless communication network and a short range wireless communication mode that operates like a radio by using a predetermined frequency between the wireless communication terminals without passing through the base station. It is a dual mode wireless communication terminal.

Such a dual-mode wireless communication terminal is very efficient because it can directly talk between terminals without passing through the base station of the wireless communication system in an area where radio waves are poor, such as an island area or a mountain area, a busy area, or a user is close to each other. . A configuration of a general dual mode wireless communication terminal will be described with reference to FIG. 1.

1 is a configuration of an embodiment of a general dual-mode wireless communication terminal.

As shown in FIG. 1, a general dual mode wireless communication terminal drives and controls a dual mode wireless transmitter / receiver 11 and a wireless communication terminal for wirelessly transmitting and receiving signals through antennas 19 and 20. Under the control of the operation / control device 12, the operation / control device 12 for converting the signal received from the wireless transmission and reception device 11 to the voice and output to the voice output device (speaker) 18, A codec 13 for converting a voice received from a voice input device (microphone) 17 into a digital signal and transmitting it to the operation / control device 12 so that the voice can be transmitted through the wireless transmission / reception device 11 and the wireless signal. Storage device 14 for storing a program and a file system (images, characters, icons) for driving the communication terminal, and a voice output device (speaker) 18 for outputting the voice received from the codec 13 , A display device (LCD) 16 for outputting a screen by the control of the arithmetic operation / control device 12, an input device (keypad) 15 for receiving a telephone number, menu selection information, etc. through a button, and And a voice input device (microphone) 17 for receiving the voice and transmitting the same to the codec 13.

At this time, the wireless transmission / reception apparatus 11 commonly uses an antenna switching unit to operate in a general wireless communication mode or a short-range wireless communication mode under the control of the operation / control device 12, as shown in FIG. 2. Since the short-range wireless communication transmission frequency f1 and the reception frequency f2 of the dual-mode wireless communication terminals 21 and 22 are different from each other and operate in the dual mode, each transmitter (radio communication transmitter, short-range wireless communication transmitter) and receiver (Wireless communication receiver, short-range wireless communication receiver).

In addition, the general wireless communication terminal includes two antennas (19, 20) for operating in a dual mode. If the matching device is connected to the radio transceiver 11, the dual mode may be operated through a single antenna.

Meanwhile, a process of performing the short range wireless communication by the dual mode wireless communication terminal will be described with reference to FIG. 3.

3 is a signal flow diagram of an embodiment of a short range wireless communication method in a conventional dual mode wireless communication terminal.

First, the transmitting side wireless communication terminal 31 transmits a paging signal to the receiving side wireless communication terminal 32 in a short range wireless communication mode (301). Accordingly, the communication channel is established by the receiving wireless communication terminal 32 transmitting an accept signal in response to the call signal (302). Then, the transmitting side wireless communication terminal 31 and the receiving side wireless communication terminal 32 transmits and receives communication data (speech data) using the established communication channel (303), the call is made in the short range wireless communication mode.

However, in the conventional wireless communication method between the wireless communication terminals, unlike the conventional wireless communication, since the call data transmitted and received between the transmitting wireless communication terminal 31 and the receiving wireless communication terminal 32 is not encrypted, the communication is performed. There was a risk of exposure.

That is, when the dual-mode wireless communication terminal operates in a general wireless communication mode, as shown in FIG. 4, the secret mode uses a unique subscriber authentication key (Ki) and a random number (RAND) provided by the wireless communication network side as shown in FIG. 4. While generating a key and encrypting the call data using the same, there is a problem that the call data is not protected when the short-range wireless communication mode does not have such an encryption process.

Because, in order to encrypt the call data, the dual mode wireless communication terminal, as shown in Figure 4, the subscriber authentication key (ki) managed by him and the random number (RAND) received from the wireless communication network side according to the A8 algorithm The secret key is processed to generate a secret key, and the call data is processed and encrypted according to the A5 algorithm using the secret key Kc generated as described above. When the dual mode wireless communication terminal operates in a short range wireless communication mode, a wireless communication network is used. Since the direct call is made between wireless communication terminals without going through the terminal information, the terminal information is not shared, and thus secret key generation is impossible, so that encryption is impossible.

The present invention has been proposed in order to solve the above problems, in the wireless communication terminal supporting the dual mode of the general wireless communication mode and the short-range wireless communication mode, when the call in the short-range wireless communication mode between wireless communication terminals, the transmitting side It is an object of the present invention to provide a cryptographic communication method in a wireless communication terminal period communication that can protect the contents of a call by transmitting and receiving encrypted call data using a shared encryption key promised between the receiver and the receiver.

In order to achieve the above object, the present invention provides a cryptographic communication method for wireless communication in a wireless communication terminal period in which a shared encryption key is stored, as a call is connected to a first wireless communication terminal in a short range wireless communication mode. A first step in which the first wireless communication terminal of the transmitting side searches its shared encryption key table to identify the shared encryption key corresponding to the second wireless communication terminal of the receiving side and transmits an encryption request to the second wireless communication terminal; ; The second wireless communication terminal searches for its own shared encryption key table according to the encryption request of the first wireless communication terminal to identify the shared encryption key corresponding to the first wireless communication terminal, and sends it to the first wireless communication terminal. Transmitting a cryptographic response; A third step of encrypting and transmitting call data using the shared encryption key when the first wireless communication terminal receives an encryption response from the second wireless communication terminal and confirms that a shared encryption key exists; And a fourth step of the first and second wireless communication terminals decrypting the encrypted call data using the shared encryption key.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

6 is a signal flow diagram of an embodiment of a method for short-range wireless communication between wireless communication terminals according to the present invention.

First, the transmitting side wireless communication terminal 61 transmits a paging signal to the receiving side wireless communication terminal 62 in a short range wireless communication mode (601). At this time, the pasing signal (pasing signal) contains information about the transmitting side wireless communication terminal 61, the receiving side wireless communication terminal 62 can recognize the transmitting side wireless communication terminal 61.

Meanwhile, the receiving wireless communication terminal 62 transmits an accept signal in response to the paging signal (602), and the receiving wireless communication terminal 61 receives the encryption request. It transmits to the side wireless communication terminal 62 (603), and receives an encryption response accordingly (604).

Thereafter, the transmitter-side wireless communication terminal 61 and the receiver-side wireless communication terminal 62 transmit and receive encrypted call data using the established call channel (605). At this time, the transmitting side wireless communication terminal 61 and the receiving side wireless communication terminal 62 encrypt the shared encryption key by applying a predetermined shared encryption key with reference to the shared encryption key table (refer to FIG. 5) stored in its memory. One call data is transmitted and the received call data is decrypted.

As shown in FIG. 5, the shared encryption key table used in the present invention includes an encryption key corresponding to the other party's wireless communication terminal (for example, a wireless communication terminal registered in an address book or a wireless communication terminal having a call history). Kc is set in advance, and is shared between the transmitting side wireless communication terminal 61 and the receiving side wireless communication terminal 62.

On the other hand, the transmitting side wireless communication terminal 61 and the receiving side wireless communication terminal 62 may use a number of ways using the encryption key table.

First, as in the above-described method, in a state in which the transmitting wireless communication terminal 61 and the receiving wireless communication terminal 62 each store an encryption key table in which encryption keys Kc shared with each other are set, When a call is made in the communication mode, each of the wireless communication terminals on both sides extracts and uses an encryption key corresponding to the other party's wireless communication terminal (identified by phone number, etc.) from the encryption key table.

As another method, the transmitting-side wireless communication terminal 61 and the receiving-side wireless communication terminal 62 share an encryption key table in which a plurality of encryption keys are stored according to an index (store the same encryption key table). In the state, when a call is made in the short range wireless communication mode, the receiving wireless communication terminal 61 transmits a specific index at the time of the call request (or at the time of encryption request), so that the receiving wireless communication terminal 62 corresponds to the corresponding index. Allows you to use cryptographic keys.

7 is a flowchart illustrating a cryptographic communication method in short range wireless communication between wireless communication terminals according to the present invention.

First, in the storage devices of the transmitting side wireless communication terminal 61 and the receiving side wireless communication terminal 62, encryption keys shared with each other are stored in an encryption key table.

Subsequently, when a call is connected between the transmitting wireless communication terminal 61 and the receiving wireless communication terminal 62 in a short range wireless communication mode (701), the transmitting wireless communication terminal 61 and the receiving wireless communication terminal ( 62) Each one checks whether a shared encryption key corresponding to the other party's wireless communication terminal exists in its encryption key table (702).

That is, the transmitting side wireless communication terminal 61 searches for its own encryption key table and checks whether a shared encryption key Kc corresponding to the receiving side wireless communication terminal 62 exists, and the corresponding shared encryption key ( If Kc) is present, an encryption request is transmitted to the receiving wireless communication terminal 62. Then, the receiving wireless communication terminal 62 searches for its own encryption key table according to the encryption request from the transmitting wireless communication terminal 61 and shares a shared encryption key corresponding to the transmitting wireless communication terminal 61. Is checked, and if a corresponding shared encryption key (Kc) is present, an encryption response is sent.

Accordingly, the fact that the transmitting wireless communication terminal 61 receives an encryption response from the receiving wireless communication terminal 62 means that the shared encryption key Kc exists on both sides.

As a result of the check 702, if the shared encryption key Kc exists on both sides (the transmitting side wireless communication terminal 61 and the receiving side wireless communication terminal 62), the shared encryption key Kc is encrypted. The call data is transmitted and received so that the call data is protected during the call (703). That is, when both wireless communication terminals transmit call data, they are encrypted after using the shared encryption key (Kc), and when they receive the encrypted call data, they are decrypted by using the shared encryption key (Kc) after processing. Done.

On the other hand, if either of the confirmation result 702, both sides (transmitting side wireless communication terminal, receiving side wireless communication terminal) does not exist in advance shared shared encryption key (Kc), the transmission and reception of the unencrypted call data The call is made in the manner of 704.

That is, when the transmitting side wireless communication terminal 61 retrieves its own encryption key table, if there is no shared encryption key Kc corresponding to the receiving side wireless communication terminal 62, the encryption request is not transmitted. In this case, the call is made in the conventional manner.

In addition, as a result of the receiving wireless communication terminal 62 searching its own encryption key table according to the encryption request from the transmitting wireless communication terminal 61, the sharing corresponding to the transmitting wireless communication terminal 61 is performed. If the encryption key Kc does not exist, the encryption response is not transmitted. If the encryption response is not received within a predetermined time after the transmission of the encryption request, the transmitter sends a call in the conventional manner.

In the above example, one-to-one short range wireless communication has been described as an example. However, the wireless communication terminal may be easily applied in the same manner when performing one-to-many short range wireless communication.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

As described above, according to the present invention, in a wireless communication terminal supporting a dual mode of a wireless communication mode and a near field communication mode, an encryption key previously promised between a transmitting side and a receiving side when a wireless communication terminal is in a short range wireless communication mode is called. By transmitting and receiving the call data after encrypting the call data, it is possible to protect the call contents by preventing leakage of the call contents by tapping.

Claims (4)

delete In the encrypted communication method in the wireless communication of the wireless communication terminal period in which the shared encryption key is stored, As the first wireless communication terminal and the second wireless communication terminal are connected in a short range wireless communication mode, the first wireless communication terminal of the transmitting side searches for its own shared encryption key table and corresponds to the second wireless communication terminal of the receiving side. A first step of identifying a shared encryption key and transmitting an encryption request to the second wireless communication terminal; The second wireless communication terminal searches for its own shared encryption key table according to the encryption request of the first wireless communication terminal to identify the shared encryption key corresponding to the first wireless communication terminal, and sends it to the first wireless communication terminal. Transmitting a cryptographic response; A third step of encrypting and transmitting call data using the shared encryption key when the first wireless communication terminal receives an encryption response from the second wireless communication terminal and confirms that a shared encryption key exists; And And a fourth step in which the first and second wireless communication terminals decode the encrypted call data using the shared encryption key. delete The method of claim 2, In the first step and the second step, the first and second wireless communication terminals to confirm the existence of the other party's shared encryption key, Encrypted communication in the communication between wireless communication terminals, characterized in that for transmitting the specific index information of the encryption key table that stores the shared encryption key to the other side, and to retrieve the encryption key from the encryption key table using the index information Way.

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