KR20090024860A - Voice encrypted communication module for mobile communication terminal - Google Patents

Abstract

A voice encrypted communication module for a mobile communication terminal is provided to prevent a wiretapping by starting encryption communication by an encryption communication button. An ear-microphone(210) transmits and receives the voice of a user. A first voice processor(220) processes the voice of the user outputted from the ear-microphone to the signal required fro encryption. The first voice processor processes the voice of an opponent inputted from the outside to the signal required for encryption. An earphone interface(230) is connected to the earphone terminal of the mobile communication terminal. The second voice processor(240) processes the voice of the opponent transmitted from the earphone interface to the signal required for decoding. The second voice processor processes the voice of the user inputted from the outside to the signal required for the encryption. An encryption communication button(250) outputs the encryption communication command signal according to the input of the user. A digital signal processor(260) decodes or encodes the voice signal.

Description

VOICE ENCRYPTED COMMUNICATION MODULE FOR MOBILE COMMUNICATION TERMINAL}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a voice encryption communication module for a mobile communication terminal, and more particularly, to a voice encryption communication module for enabling a mobile communication terminal to implement voice encryption communication.

Code Division Multiple Access (CDMA), which is currently commercialized as a method for personal mobile communication, converts voice information into a digital signal, adds a random number to it, and converts it into several digital codes to communicate. The terminal is made to recognize only the codes uniquely assigned to the caller's channel.

In this method, since each terminal and the base station are connected to each other by a digital signal to make a call, it is difficult to monitor the third party in the wireless communication section, and there is an advantage that communication security is achieved. However, this communication is performed between each terminal and the base station, and in a practical sense, it is not an end-to-end concept, that is, a concept of crypto communication between mobile communication terminals.

As an encryption communication method between mobile communication terminals, for example, there is a method of converting voice information into a digital signal and then encrypting and transmitting the same, but transmitting the same through the same voice transmission network.

For the encrypted communication as described above, a wireless communication terminal (Domestic Patent Publication No. 10-2006-0086618, Aug. 01, 2006) having a function of a general communication mode and an encryptor service mode has been developed.

As shown in FIG. 1, the wireless communication terminal 100 simultaneously having the functions of the general communication mode and the encryptor service mode includes an audio / data service unit 110, an encryption module 120, an RF service unit 130, and the like. It is configured to include 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.

The encryption module 120 is activated when the wireless communication device according to the invention is in the encryptor mode. That is, in the encryptor 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 encryptor service mode, the encryption module 120 receives the audio or data digitized by the audio / data service unit 110 and encrypts the encrypted data, generates the encrypted data, and generates an encrypted data to deal with the RF service unit 130. Transmission to wired / wireless communication terminals (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 a 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.

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, the initialization of the various devices, and the input / output part of signals necessary for wireless communication.

However, since the conventional wireless communication terminal having the functions of the normal communication mode and the encryptor service mode has an encryption module inside the terminal, if the encryption module is not applied to the terminal from the opposite side, the encrypted communication is impossible and the encrypted communication is possible. Since this terminal must be purchased separately, there is a problem in that the practical application is difficult.

The present invention is to solve the above problems, by providing a voice encryption communication module that can be attached to the mobile communication terminal by using the voice encryption communication module in any type of mobile communication terminal to enable the encrypted communication It is an object of the present invention to provide a voice encryption communication module for a mobile communication terminal.

Features of the present invention for achieving the above object,

An ear microphone for transmitting and receiving a voice of a user; A first voice processor configured to process the voice of the user output from the microphone as a signal for encryption or to process a voice of the other party input from the outside into a signal for decryption; An earphone interface connected to the earphone terminal of the mobile communication terminal; A second voice processor configured to process a voice of the other party transmitted from the earphone interface as a signal for decryption or to process a voice of a user input from the outside into a signal for encryption; An encryption communication button for outputting an encryption communication command signal according to a user input; And exchanging encryption keys when an encryption communication command signal is input through the encryption communication button, and synthesizing voice signals processed by the first voice processing unit and the second voice processing unit with an encryption algorithm and performing high speed operation when the encryption key is exchanged. And a digital signal processor which processes and encrypts or decrypts the voice signal.

Here, the voice encryption communication module for the mobile communication terminal and the battery for supplying power to each component; And a communication interface for communicating with a computer or a mobile communication terminal and for charging the battery.

Here, the first voice processing unit includes: a first voice input amplifier for amplifying an analog voice signal input from the ear microphone; A first voice codec for converting an analog voice signal input from the first voice input amplifier into a digital voice signal and outputting the digital voice signal to the digital signal processor or converting a digital voice signal output from the digital signal processor into an analog voice signal; And a first audio output amplifier for amplifying the analog audio signal output from the first audio codec and outputting the amplified analog audio signal to the microphone.

Here, the second voice processing unit and a second voice input amplifier for amplifying the analog voice signal input from the earphone interface; A second voice codec for converting an analog voice signal input from the second voice input amplifier into a digital voice signal and outputting the digital voice signal or converting a digital voice signal output from the digital signal processor into an analog voice signal; And a second voice output amplifier for amplifying the analog voice signal output from the second voice codec and outputting the amplified analog signal to the earphone interface.

In this case, the digital signal processor performs voice compression on the 8 KHz digital signal and processes the digital voice signal input through PCM (Pulse Code Modulation) conversion and synthesizes it with an encryption algorithm.

Here, the communication interface may be any one selected from PCM, USB, and UART, or at least two or more thereof.

According to the voice encryption communication module for a mobile communication terminal of the present invention configured as described above, the voice encryption communication module is connected through the earphone terminal of the mobile communication terminal, and then easily encrypted communication using the password communication button provided in the voice encryption communication module. This allows the other party to have a voice communication module provided with the voice encryption communication module so that the other party can be encrypted and can be safe from eavesdropping and interception.

Hereinafter, a configuration of a voice encryption communication module for a mobile communication terminal according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the specification.

2 is a system connection diagram showing a state in which a voice encryption communication module for a mobile communication terminal according to the present invention is applied to a mobile communication terminal, and FIG. 3 is a block diagram of a voice encryption communication module for a mobile communication terminal according to the present invention.

2 and 3, the voice encryption communication module 200 for a mobile communication terminal according to the present invention includes an ear microphone 210, a first voice processing unit 220, an earphone interface 230, The audio processing unit 240, the encryption communication button 250, the digital signal processor 260, the battery 270 and the communication interface 280.

First, in the voice encryption communication module 200 for a mobile communication terminal according to the present invention, the first voice processing unit 220, the second voice processing unit 240, and the digital signal processor 260 have one PCB (not shown). Is implemented in a state in which the PCB is mounted in a case (not shown), and the microphone 210, the earphone interface 230, the communication interface 280, and the cipher are connected to the outside of the case. Communication buttons 250 are provided, which are electrically connected to the PCB. The battery 270 is installed to be detachable from the case, and is electrically connected to the PCB.

Then, the microphone 210 refers to an earphone and a microphone, and transmits and receives a user's voice.

In addition, the first voice processor 220 may then digitally output the first voice input amplifier 221 amplifying the analog voice signal input from the microphone 210 and the analog voice signal input from the first voice input amplifier 221. A first audio codec 223 for converting the audio signal to the digital signal processor 260 which will be described later, and converting the digital voice signal into an analog voice signal and outputting the analog voice signal from the digital signal processor 260; The first audio output amplifier 225 amplifies an analog audio signal output from the audio codec 223 and then outputs the analog audio signal to the microphone 210.

In addition, the earphone interface 230 is connected to the earphone terminal (not shown) of the mobile communication terminal 1.

On the other hand, the second voice processor 240 digitally outputs the second voice input amplifier 241 for amplifying the analog voice signal input from the earphone interface 230, and the analog voice signal input from the second voice input amplifier 241. A second voice codec 243 and a second voice codec 243 for converting a voice signal into a digital signal processor 260 and converting the digital voice signal output from the digital signal processor 260 into an analog voice signal. A second voice output amplifier 245 for amplifying the analog voice signal output from the a) and output to the earphone interface 230.

The cryptographic communication button 250 outputs a cryptographic communication command signal according to a user's input, and is configured to output a high signal in one operation.

In addition, the digital signal processor 260 exchanges encryption keys when an encryption communication command signal is input through the encryption communication button 250, and when the encryption keys are exchanged, the first voice processing unit 220 and the second voice processing unit ( The voice signal processed at 240) is synthesized with the encryption algorithm to perform a high-speed operation to encrypt or decrypt the voice signal. The encryption algorithm is performed after voice compression of an 8KHz digital signal from a digital voice signal input through PCM (Pulse Code Modulation) It is synthesized and processed at high speed. Here, the cryptographic key exchange of the digital signal processor 260 is a conventional method used in the cryptographic communication of the existing mobile communication terminal, and the description thereof is omitted.

The battery 270 supplies the necessary power to each component.

On the other hand, the communication interface 280 to communicate with a computer (not shown) or the mobile communication terminal 1 and to charge the battery 270, any one selected from PCM, USB, UART or at least two or more of them It is provided. On the other hand, the PCM communication interface is encrypted by the digital signal processor without using the first and second voice codecs when the mobile communication terminal using the mobile communication wireless network supports analog and digital communication. Or an interface capable of decryption, and the USB communication interface 280 uses an ear microphone configured as a current wire as a Bluetooth ear microphone function, or a user uses a voice encryption communication module 200 for a mobile communication terminal according to the present invention. It is designed to be changed to an arbitrary encryption algorithm by connecting to a personal computer, and the battery can be charged through USB communication.

In addition, the mobile communication of the present invention is not limited to a wireless communication terminal of a specific type, 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.

Hereinafter, an operation of the voice encryption communication module for a mobile communication terminal according to the present invention will be described in detail with reference to FIGS. 2 to 5.

4 is a flowchart illustrating an operation flow in transmission of a voice encryption communication module for a mobile communication terminal according to the present invention, and FIG. 5 is a flowchart illustrating an operation flow in reception of a voice encryption communication module for a mobile communication terminal according to the present invention. to be.

<< encryption transmission >>

As shown in FIG. 4, a user who is a sender may select a cipher call or a general call through a cipher communication button 250. In the state in which the caller presses a call button after connecting a caller's phone number, the call is connected. When the high signal is transmitted by operating the encryption communication button 250 (S100), the transmitting side digital signal processor 260 (hereinafter, referred to as a 'digital signal processor') transmits a key exchange signal according to a key exchange algorithm. In this case, when receiving a signal from the receiving side digital signal processor (not shown), the synchronization signal is matched and the cryptographic call is connected (S120).

On the other hand, if the digital signal processor 260 transmits the key exchange signal of the key exchange algorithm and cannot be received by the receiving digital signal processor, or if there is no response, the digital signal processor 260 connects to the general call (S111). In other words, unlike the conventional method of connecting a cryptographic call and then transmitting a signal of a key exchange method, the digital signal processor 260 itself uses a key exchange signal from the first step of connecting a call. When there is no response to the key exchange signal for a predetermined time to transmit, that is, even when the other party does not have the voice encryption communication module 200 according to the present invention has the advantage of connecting to a general call immediately without a call connection failure.

When the cryptographic call is connected, the voice input from the sender is then input to the first voice input amplifier 221 through the microphone 210, and the first voice input amplifier 221 amplifies the analog voice signal so that the first voice codec ( 223) (S120).

Then, the first voice codec 223 converts the input analog voice signal into a digital voice signal and transmits it to the digital signal processor 260 (S130).

When the digital voice signal is input, the digital signal processor 260 compresses the 8 KHz digital voice signal through PCM (Pulse Code Modulation) conversion, and then performs a high speed operation by applying an encryption algorithm. The encrypted digital voice signal is output to the second voice codec 243 (S140).

The second voice codec 243 received the input converts the encrypted digital voice signal into an encrypted analog voice signal and then outputs it to the second voice output amplifier 245 (S150).

Then, the second voice output amplifier 245 amplifies the encrypted analog voice signal and transmits it to the transmitting-side mobile communication terminal through the earphone interface 230 (S160). Then, the transmitting-side mobile communication terminal transmits and receives an encrypted analog voice signal with the receiving-side mobile communication terminal by a normal signal transmission method.

Meanwhile, the encrypted analog voice signal received through the earphone interface 230 is amplified by the second voice input amplifier 241 and then output to the second voice codec 243.

Then, the second voice codec 243 converts the encrypted analog voice signal into an encrypted digital voice signal and outputs it to the digital signal processor 260.

When an encrypted digital voice signal is input, the digital signal processor 260 generates a decrypted digital voice signal, that is, a digital voice signal before being encrypted, and outputs the decrypted digital voice signal to the first voice codec 223.

Then, the first voice codec 223 converts the input digital voice signal into an analog voice signal and outputs it to the first voice output amplifier 225.

When the analog voice signal is input, the first voice output amplifier 225 amplifies the analog voice signal and then outputs it to the microphone 210 so that the voice can be heard by the sender.

<< encryption reception >>

As shown in FIG. 5, when the sender dials the number of the receiver's mobile communication terminal and transmits a key exchange signal from the transmitting digital signal processor (not shown) through the above process, the receiving digital signal processor 260 (Hereinafter referred to as a 'digital signal processor') connects a cryptographic call by matching a synchronization signal when receiving a key exchange signal according to a key exchange algorithm. On the other hand, when the receiving mobile communication terminal is not provided with the voice encryption communication module 200 for the mobile communication terminal according to the present invention is connected by a general call.

When the cryptographic call is connected, the voice input from the receiver is then input to the first voice input amplifier 221 through the microphone 210, and the first voice input amplifier 221 amplifies the analog voice signal so that the first voice codec ( 223).

Then, the first voice codec 223 converts the input analog voice signal into a digital voice signal and transmits it to the digital signal processor 260.

When the digital voice signal is input, the digital signal processor 260 compresses the 8 KHz digital voice signal through PCM (Pulse Code Modulation) conversion, and then performs a high speed operation by applying an encryption algorithm. The encrypted digital voice signal is output to the second voice codec 243.

The second voice codec 243 received the input converts the encrypted digital voice signal into an encrypted analog voice signal and then outputs it to the second voice output amplifier 245.

Then, the second voice output amplifier 245 amplifies the encrypted analog voice signal and transmits it to the receiving mobile communication terminal through the earphone interface 230. Then, the mobile communication terminal transmits and receives an encrypted analog voice signal to and from the transmitting side mobile communication terminal by a conventional signal transmission method.

Meanwhile, the encrypted analog voice signal received through the earphone interface 230 is amplified by the second voice input amplifier 241 and then output to the second voice codec 243.

Then, the second voice codec 243 converts the encrypted analog voice signal into an encrypted digital voice signal and outputs it to the digital signal processor 260.

When an encrypted digital voice signal is input, the digital signal processor 260 generates a decrypted digital voice signal, that is, a digital voice signal before being encrypted, and outputs the decrypted digital voice signal to the first voice codec 223.

Then, the first voice codec 223 converts the input digital voice signal into an analog voice signal and outputs it to the first voice output amplifier 225.

When the analog voice signal is input, the first voice output amplifier 225 amplifies the analog voice signal and then outputs it to the microphone 210 so that the voice can be heard by the receiver.

As those skilled in the art would realize, the described embodiments may be modified in various ways, all without departing from the spirit or scope of the present invention. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. Should be.

1 is a block diagram showing the configuration of a wireless communication terminal having the functions of a conventional general communication mode and an encryption service mode;

2 is a system connection diagram showing a state in which the voice encryption communication module for a mobile communication terminal according to the present invention is applied to a mobile communication terminal,

3 is a block diagram of a voice encryption communication module for a mobile communication terminal according to the present invention;

4 is a flowchart illustrating an operation flow in transmission of a voice encryption communication module for a mobile communication terminal according to the present invention;

5 is a flowchart illustrating an operation flow when a voice encryption communication module for a mobile communication terminal according to the present invention is received.

<Explanation of symbols on main parts of the drawings>

210: ear microphone 220: first voice processing unit

230: earphone interface 240: second voice processing unit

250: password communication button 260: digital signal processor

270: battery 280: communication interface

Claims (6)

An ear microphone for transmitting and receiving a voice of a user; A first voice processor configured to process the voice of the user output from the microphone as a signal for encryption or to process a voice of the other party input from the outside into a signal for decryption; An earphone interface connected to the earphone terminal of the mobile communication terminal; A second voice processor configured to process a voice of the other party transmitted from the earphone interface as a signal for decryption or to process a voice of a user input from the outside into a signal for encryption; An encryption communication button for outputting an encryption communication command signal according to a user input; And When an encryption communication command signal is input through the encryption communication button, an encryption key is exchanged, and when an encryption key is exchanged, voice signals processed by the first voice processing unit and the second voice processing unit are synthesized with an encryption algorithm for high speed operation. And a digital signal processor for encrypting or decrypting a voice signal. The method of claim 1, The voice encryption communication module for the mobile communication terminal, A battery for supplying power to each component; And a communication interface for communication with a computer or a mobile communication terminal and for charging the battery. The method of claim 1, The first voice processing unit, A first audio input amplifier for amplifying the analog audio signal input from the ear microphone; A first voice codec for converting an analog voice signal input from the first voice input amplifier into a digital voice signal and outputting the digital voice signal to the digital signal processor or converting a digital voice signal output from the digital signal processor into an analog voice signal; And And a first voice output amplifier for amplifying the analog voice signal output from the first voice codec and outputting the amplified analog voice signal to the ear microphone. The method of claim 1, The second voice processing unit, A second voice input amplifier for amplifying the analog voice signal input from the earphone interface; A second voice codec for converting an analog voice signal input from the second voice input amplifier into a digital voice signal and outputting the digital voice signal or converting a digital voice signal output from the digital signal processor into an analog voice signal; And And a second voice output amplifier for amplifying the analog voice signal output from the second voice codec and outputting the amplified analog voice signal to the earphone interface. The method of claim 1, The digital signal processor, A voice encryption communication module for a mobile communication terminal, characterized in that the digital voice signal input through the PCM (Pulse Code Modulation) conversion to compress the 8KHz digital signal and synthesized with a cryptographic algorithm. The method of claim 2, The communication interface, Voice encryption communication module for a mobile communication terminal, characterized in that any one selected from PCM, USB, UART or at least two of them are provided.

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