KR20060086618A - Mobile communications terminal having both general communication mode and secret communication service mode - Google Patents

Abstract

The present invention relates to a method for preventing eavesdropping and hacking during a call or data transmission by simultaneously generating and encrypting a secret key according to the security needs of communication, having the functions of the existing general communication mode and the non-busy service mode. When accessing a call or data transfer between terminals, a secret key generated as needed can be generated to share the secret key with the corresponding terminal, thereby preventing a call or data from being leaked through the communication network. The present invention relates to a wireless communication terminal supporting a mode.

Description

Mobile communication terminal having both general communication mode and secret communication service mode

1 is a flowchart illustrating call processing of communication used in a general wireless communication network.

2 is a block diagram showing the structure of a wireless communication terminal according to an embodiment of the present invention.

3 exemplarily illustrates a structure of an encryption module according to an embodiment of the present invention.

4 is a flowchart illustrating a secret key generation method in a wireless communication terminal according to an embodiment of the present invention.

5 is a flowchart illustrating a method of communication between the wireless communication terminals according to an embodiment of the present invention.

5A is a flowchart illustrating operation in an outgoing talker service mode of a wireless communication terminal according to an embodiment of the present invention.

5B is a flowchart illustrating an operation in an incoming talker service mode of a wireless communication terminal according to an embodiment of the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

100: wireless communication terminal 110: audio / data service unit

120: encryption module 121: multiple encryption algorithm unit

122: parallel port portion 123: serial traffic pod portion

124: test interface port portion 125: key failure reporter

126: serial EEPROM interface unit 130: RF service unit 130

140: host processor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to wireless communication terminals, and more particularly, to a wireless communication terminal having both the general communication mode and the non-flash mode.

Recently, with the rapid growth of the information and communication field, the transmission of information using a communication network is becoming a reality. However, when the information is to be transmitted using the communication network as described above, it is difficult to maintain the security of the information due to wiretap / wireless telephone network tapping or hacking on the data network.

Therefore, in order to protect the information from such eavesdropping or hacking, it is necessary to encrypt the information on the transmitting side and decrypt the information on the receiving side to prevent the leakage of the information. Techniques are being developed. These techniques are generally based on cryptographic algorithms.

Figure 1 shows a procedure for call processing of communication used in a general wireless communication network. 1 shows a process for a subscriber to call and call any subscriber in the current wireless network structure.

That is, the calling party terminal A generates dial number information for calling the called party terminal B, and sends the generated information to the calling MSC (not shown) at the calling party (S10). Then, the calling MSC requests the location of the called subscriber station B from the HLR (Home Location Register) (not shown) to receive the position of the called subscriber station B from the HLR (S20). Thereafter, the calling MSC sets a path to the called MSC (not shown) based on the location of the called subscriber station B and requests a call set-up to the called MSC (S30).

When the caller requests a call setup from the called party MSC, it checks the state of the called subscriber station B. If the called subscriber station B is in an idle state, a ring is sent to the called subscriber station B. In step S40, the calling subscriber terminal A transmits a ring back tone (S50). Thereafter, when the called party answers, the call is made with the calling subscriber (S60).

The audio data transmitted / received on the existing terminal or network as described above is interspersed with the risk of eavesdropping or hacking from the outside.

The present invention has been made to solve the above-mentioned conventional problems, using a conventional communication method in the case of a general purpose call and data communication, and a terminal for the purpose of communication security It is an object of the present invention to provide a wireless communication terminal capable of encrypting and decrypting audio or data transmitted / received in a communication network by generating a secret key that can be shared among terminals by selecting a non-busy service mode.

In order to achieve the above objects, a wireless communication terminal according to an aspect of the present invention is an audio / data service unit for inputting / outputting audio / data required for communication by analog / digital conversion or digital / analog conversion, a signal to be transmitted An encryption module for encrypting the data and decrypting the received signal, an RF service unit for transmitting / receiving signals necessary for wireless communication, and a host processor for controlling, displaying, and interfacing with various external devices. A first step of selecting a general communication mode and an un-flash service mode according to a user's needs; A second step of generating a secret key in the non-busy service mode; Receiving a secret key generated by the counterpart terminal generated by the non-arms mode service request message; A fourth step of selecting a mode input in a process of interpreting encrypted audio or data; And a fifth process of maintaining the state of the selected mode of the terminal when the reception of the audio or data is terminated.

In addition, the wireless communication terminal informs the subscriber of the current state of the terminal by text (symbol / picture) or a beep when a call state is impossible or data transmission / reception is impossible in a different mode from the counterpart terminal. do.

In addition, the first process in the wireless communication terminal is a user's selection method for the normal communication mode and the non-caller service mode, the toggle button method, menu selection method, voice recognition method, selection method from other wireless communication terminal and Characterized in that it is determined by any one of biometric methods.

In the second process of the wireless communication terminal, extraction of master key data for generating a secret key from the calling terminal is selected by a combination of identification numbers of the terminals, and slave key data is used to transmit audio or data at the calling terminal. Select a combination of received and received counter values, and generate and use a secret key using an exclusive combination of the selected master and slave key data.

Further, in the third process in the wireless communication terminal, the originating terminal transmits the generated secret key for transmission to the called terminal by including the generated secret key in the non-flashing mode service request message and the receiving terminal receives the message. A receiving secret key is generated, and a secret key and a non-flaming mode service enabled message are sent to the calling terminal in a response message to the non-busing mode service request message, and the calling terminal receives the received receiving secret key and the generated sending secret. Key, and the called terminal has a generated secret key for receiving and a received secret key for receiving, and thus has a process of having a different secret key generated by the transmitting / receiving terminal.

Further, the fourth process in the wireless communication terminal transmits the encrypted data using the secret key for transmission to the destination terminal by the transmission mode selection of the audio or data to be transmitted from the calling terminal, received from the destination terminal The data includes a process of selecting a reception mode and decrypting the received secret key, and the destination terminal sends the data to be transmitted to the transmission terminal by using the secret key for transmission by selecting the transmission mode. In addition, the data received from the transmitting terminal is characterized in that it comprises the step of decrypting by using the received secret key by selecting the reception mode.

In addition, in the fifth step of the wireless communication terminal, when the receiver terminal initially performs the non-talker service mode in the normal communication mode, when the transmission or reception of audio or data is completed, the normal terminal communication mode is switched. In the service mode, when the reception of audio or data is terminated, the state of the wireless communication terminal is characterized in that the process of maintaining the non-speaker service mode state.

In order to achieve the above objects, a wireless communication terminal according to another aspect of the present invention is an audio / data service unit for inputting / outputting audio / data required for communication by analog / digital conversion or digital / analog conversion, and a signal to be transmitted. An encryption module for encrypting the data and decrypting the received signal, an RF service unit for transmitting / receiving signals necessary for wireless communication, and a host processor for controlling, displaying, and interfacing with various external devices. A first step of selecting a general communication mode and an un-flash service mode according to a user's needs; A second step of maintaining consistency of the secret key with the counterpart terminal by the same key generated in advance; A third step of selecting a mode input in a process of interpreting encrypted audio or data; And a fourth process of maintaining the state of the selected mode of the terminal when the reception of the audio or data is terminated.

In the wireless communication terminal, the second process is to generate a secret key to be used in the transmitting / receiving terminal in PC / Web and to transmit it to the transmitting / receiving terminal periodically or non-periodically to configure the terminal in 1: 1 or 1: N. Key consistency.

In the wireless communication terminal, the second process is to generate a secret key to be used by the transmitting / receiving terminal from an external peripheral device and to transmit it to the transmitting / receiving terminal periodically or aperiodically to configure the terminal in 1: 1 or 1: N. To maintain the consistency of the secret key. Here, the external peripheral means a device or peripheral including a wireless device such as a SIM card, Bluetooth, Wireless LAN, RFID.

Hereinafter, a preferred embodiment of a wireless communication terminal having a function of a general communication mode and a non-busy service mode according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing the structure of a wireless communication terminal 100 according to an embodiment of the present invention. 2, the wireless communication terminal 100 according to the present invention includes an audio / data service unit 110, an encryption module 120, an RF service unit 130, and a host processor 140.

The audio / data service unit 110 is in charge of an input / output portion of audio or data required for communication as in the case of a conventional wireless communication terminal. Therefore, detailed description thereof will be omitted. Here, the conventional wireless communication terminal is not limited to a specific wireless communication terminal, but is not limited to code-division multiple access (CDMA), global system for mobile communication (GSM), and international mobile telecommunications (2000). It is used collectively to refer to a wireless communication terminal adopting such a method, and a personal digital assistant (PAD) and a portable communication device.

The encryption module 120 is activated when the wireless communication device according to the present invention is in the non-armed mode. That is, in the non-energized service mode, the encryption unit 120 initializes the reception encryption module by using the received secret key and initializes the transmission encryption module by using the generated encryption secret key data. In the non-energized service mode, the encryption module 120 receives and encrypts the audio or data digitized by the audio / data service unit 110 and generates the encrypted data through the RF service unit 130. Send to the other wired / wireless communication terminal (not shown). Then, the encrypted data received from the RF service unit 130 is transmitted to the audio / data service unit 110 (digitized) audio or data decrypted using the secret key.

The RF service unit 130 is responsible for the transmission / reception of a signal required in the wireless communication as in the case of a conventional wireless communication terminal. Therefore, detailed description thereof will be omitted.

The host processor 140 is in charge of the control, display, and interface of various external devices in the terminal as in the conventional wireless communication terminal. In connection with the initialization of the various devices, it is responsible for the initialization of the encryption module 120, the generation and management of the secret key, and the input / output portion of signals necessary for the initialization of the various devices or wireless communication.

3 exemplarily illustrates a structure of an encryption module 120 according to an embodiment of the present invention. Referring to FIG. 3, the encryption module 120 according to the present invention includes a multiple encryption algorithm unit 121, a parallel port unit 122, a serial traffic pod unit 123, a test interface port unit 124, and a key failure reporter. 125 and serial EEPROM interface 126.

In the multiple encryption algorithm unit 121, a plurality of encryption algorithms (for example, Standard Proprietary High-grade Algorithm, Customer Unique Algorithm, or Unique-Algorithm) are built-in and configured to use one of them. It is.

The parallel port 122 transmits and receives commands, data, modes, and status information in both directions through an address, data, and control line, and adjusts an operation mode of an encryption algorithm by adjusting an encryption-related mode or decrypting a command. That is, the parallel port unit 122 receives the data to be encrypted in the 8-Bit or 16-Bit data format and outputs the encrypted result in the 8-Bit or 16-Bit data format, or encrypted data. Receives the data in 8-Bit or 16-Bit data format and outputs the decrypted result in 8-Bit or 16-Bit data format.

The serial traffic port unit 123 adjusts necessary matters related to encryption or decryption, and receives serial data to be encrypted and outputs the encrypted result as serial data.

The test interface port unit 124 inspects the operation state of the encryption-related module and performs a boundary value check of the kit value.

The key failure reporter 125 performs a failure report when the function is abnormal when the secret key data is generated or transmitted and loaded into the encryption module 120.

The serial EEPROM interface unit 126 may initialize and use the encryption module 120 with data preset for a specific customer.

4 is a flowchart illustrating a secret key generation method in the wireless communication terminal 100 according to an embodiment of the present invention. Referring to FIG. 4, when an information transfer request occurs between terminals, first, a master key data string N is generated (S110), and a slave key data string N is generated (S120). Subsequently, the secret key is generated by combining the slave key data string N with the master key data string N (S130), and the secret key is transmitted to the counterpart terminal using a communication network between the terminals (S140). ). At this time, if the functionality is confirmed to be normal to share the corresponding secret key between the mutual terminal (S150).

At this time, in the master key data string selection process, the basic data is generated based on selecting a unique number of the terminal. In this case, a master key data is generated by selecting a transformation algorithm A1 with the message counter values transmitted and received in the random number sequence generated so far. In addition, in the generation of slave key data, a random random sequence is selected, and in this case, the variation algorithm A1 is selected by taking the inverse value of the message counter value transmitted / received to the generated random sequence to generate slave key data. do. Here, the configuration of the deformation algorithm A1 includes a process of reconfiguring a column of master key data or slave key data generated by setting the received counter value as a reference. The master key data and the slave key data generated as described above are selected by a deformation algorithm A2 to generate a secret key. Here, the modified Algorithm (A2) is configured based on the received counter value to generate a secret key data string by exclusively combining the columns of Master Key Data or Slave Key Data, and constructing a secret key including a message counter. It includes the process of doing.

As described above, the general communication mode is used when the transmitting / receiving terminal includes the message counter included in the secret key data string and transmits in both directions. In such a case, the secret key is leaked by eavesdropping or hacking. Is almost impossible.

5 is a flowchart illustrating a method of communication between the wireless communication terminals 100 according to an embodiment of the present invention, and FIG. 5A is an originating talker service of the wireless communication terminal 100 according to an embodiment of the present invention. 5B is a flowchart illustrating the operation in the mode, and FIG. 5B is a flowchart illustrating the operation in the incoming talker service mode of the wireless communication terminal 100 according to the exemplary embodiment of the present invention.

Referring to FIG. 5, even when an operation state of the wireless communication terminal 100 is selected in any case, when a non-atomizer mode service request for communication security is selected in the calling terminal A (S210), a transmission performed in the calling terminal A is performed. A credit secret key is generated (S220), and the generated secret key data string for transmission and the non-busy mode service request message are transmitted to the called terminal B (S230). The destination terminal B extracts the secret key from the transmission secret key data string received from the source terminal A, checks the state of the destination terminal B for the non-busy mode service request, and if the non-busy mode service is possible, Generate encryption information (s240). Thereafter, the called terminal B switches the service mode to the non-flash service mode, and transmits the secret key data for the non-flash switching request and the response message to the request to the calling terminal A (S250). As such, when both the calling terminal A and the called terminal B share a transmission / reception secret key (S260, S270), the digitized audio or data is encrypted in the non-atomizer service mode (S280, S290), Encrypted audio or data is transmitted / received through the connected channel (S300 and S310), and the receiving end of each terminal A or B decrypts the encrypted audio or data (S320 and S330).

Referring to FIG. 3A, when a non-arm mode service request is generated according to communication security in a calling terminal, if a non-arm mode service is possible by checking a state of the terminal (S410), a secret key data string for transmission is generated ( S420), and requests the generated secret key data string and the non-busy mode service request message to the called terminal (S430). If the non-flash mode service is not available, the service is operated as a general communication mode service (S410, S480).

On the other hand, after step S430, if the receiving terminal receives a response message for the non-busy service mode message requested by the calling terminal, checks the non-busy service mode for the response message to determine whether the called terminal can use the non-busy mode service. Check whether or not (S440). If the called terminal determines that the non-busy mode service is available, it checks whether the received secret key data string is functional. If it is normal to check the functionality, the secret key is evicted from the receiving secret key data sequence, the received encryption module is initialized with the received secret key, and the generated encryption key is initialized using the generated secret key (S450). Thereafter, the encryption module 120 encrypts the digitized audio or data to be sent and transmits the encrypted data to the called terminal (S460). If the message sent from the calling terminal does not receive a response message from the called terminal for a predetermined time or if the received message is not available in the non-busy mode service, it operates as a normal communication mode service (S440 and S480).

3B, when the receiving terminal receives the non-busy mode service request message from the calling terminal according to the communication security (S510), the state of the called terminal is checked to determine whether the non-busy mode service is possible (S520). If the non-busy mode service is available, the called terminal checks the functionality of the received secret key data string, and if the received secret key data string is normal, the receiving terminal evicts the receiving secret key and contains the value of the message counter to be used by the sending terminal. A data string is generated (S530). Thereafter, the called terminal transmits the generated receiving secret key data string and the non-arming mode service enabled message to the calling terminal and sets the state of the terminal to the non-arming mode (S540). The called terminal initializes the receiving encryption module with the received secret key and initializes the transmitting encryption module with the generated secret key. The transmitted audio or data is encrypted using the generated secret key and sent to the calling terminal, and the received audio or data is decrypted through the receiving encryption module (S560). When the transmission or reception of audio or data is completed, the non-speaker service mode of the called terminal is switched to the reset normal communication mode (S570). If the non-armed mode service is not available for the request message or if it is determined that the result of checking the consistency data of the secret key data is impossible, the non-armed mode service is sent to the calling terminal and operated as a general communication mode service. (S520, S580).

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

According to the present invention as described above, it is possible to maintain the compatibility with other existing terminals by performing a routine call or data transmission / reception in the normal communication mode by allowing the terminal to select the dual service mode, the terminal in the non-flash service mode By sharing the same process of the network for generating the same secret key between the two, when information is transferred between terminals, the information security can be maintained by encrypting and decrypting the information to be transmitted from each side between the terminals by the same process. .

Claims (10)

An audio / data service unit that inputs / outputs audio / data required for communication by analog / digital conversion or digital / analog conversion, an encryption module that encrypts a signal to be transmitted and decrypts a received signal, and transmits a signal that is required in wireless communication. A wireless communication terminal comprising a receiving / receiving RF service unit and a host processor which controls, displays and interfaces with various external devices. A first step of selecting a normal communication mode and an unpaid service mode according to a user's needs; A second step of generating a secret key in the non-busy service mode; Receiving a secret key generated by the counterpart terminal generated by the non-arms mode service request message; A fourth step of selecting a mode input in a process of interpreting encrypted audio or data; And And a fifth step of maintaining the state of the terminal in the selected mode when the reception of the audio or data ends. The wireless communication terminal having the functions of the normal communication mode and the non-talker service mode at the same time. The method of claim 1, General communication mode and non-busy service characterized by notifying subscribers of the current state of the terminal by text (symbol / picture) or beep when the call status is impossible or data transmission / reception is impossible in a different mode from the other terminal. A wireless communication terminal having the function of the mode at the same time. The method of claim 1, wherein the first process is A user's selection method for the normal communication mode and the non-busy service mode, which is determined by one of a toggle button method, a menu selection method, a voice recognition method, a selection method from another wireless communication terminal, and a biometric method. A wireless communication terminal having the functions of a normal communication mode and a non-busy service mode at the same time. The method of claim 1, wherein the second process The extraction of master key data for generating a secret key from the calling terminal is selected by the combination of the identification number of the terminal, and the slave key data is selected by the combination of counter values transmitted / received by the calling terminal. And Slave Key Data in an exclusive combination, and generate and use a secret key simultaneously. The method of claim 1, wherein the third process is In the non-busy service mode, the calling terminal sends the generated secret key to the called terminal by including it in the non-flash mode service request message, and when the receiving terminal receives the message, the receiving terminal generates the receiving secret key and requests the non-flash mode service request. In response to the message, a secret key and a non-busy mode service capable message are sent to the calling terminal, and the calling terminal has a received receiving secret key and a generated sending secret key, and the called terminal has a generated sending secret key. And a process in which the transmitting / receiving terminal has a different secret key generated because it has a received secret key for receiving. The method of claim 1, wherein the fourth process Send the audio or data to be transmitted from the calling terminal to the called terminal by using the sending secret key by selecting the sending mode, and the data received from the called terminal using the received secret key by selecting the receiving mode. Decryption, wherein the called terminal transmits the data to be transmitted to the transmitting terminal by using the secret key for transmission by selecting the transmission mode, and the data received from the transmitting terminal is received by selecting the receiving mode. And a decryption using a secret key. The method of claim 1, wherein the fifth process When the receiver terminal initially performs the non-talker service mode in the normal communication mode, when the transmission / reception of audio or data is completed, the normal terminal is switched to the normal general communication mode, and in the non-caller service mode, the reception of the audio or data ends. And if the state of the wireless communication terminal is a process of maintaining the state of the non-speaker service mode. An audio / data service unit that inputs / outputs audio / data required for communication by analog / digital conversion or digital / analog conversion, an encryption module that encrypts a signal to be transmitted and decrypts a received signal, and transmits a signal that is required in wireless communication. A wireless communication terminal comprising a receiving / receiving RF service unit and a host processor which controls, displays and interfaces with various external devices. A first step of selecting a normal communication mode and an unpaid service mode according to a user's needs; A second step of maintaining consistency of the secret key with the counterpart terminal by the same key generated in advance; A third step of selecting a mode input in a process of interpreting encrypted audio or data; And And a fourth process of maintaining the state of the terminal in the selected mode when the reception of the audio or data is terminated. The wireless communication terminal having the functions of the normal communication mode and the non-talker service mode at the same time. The method of claim 8, wherein the second process It generates the secret key to be used by the sending / receiving terminal in PC / Web and sends it to the sending / receiving terminal periodically or aperiodically to configure the terminal with 1: 1 or 1: N to maintain the consistency of the secret key. A wireless communication terminal having the function of the normal communication mode and the non-flash service mode. The method of claim 8, It generates the secret key to be used in the sending / receiving terminal by external peripheral device and sends it to the sending / receiving terminal periodically or aperiodically to configure the terminal in 1: 1 or 1: N to maintain the consistency of the secret key. A wireless communication terminal having the function of the normal communication mode and the non-flash service mode.

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