JPH1075486A - Privacy communication method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize a PHS with higher ciphering performance of a speech voice. SOLUTION: In the case of sending/receiving a voice signal, scramble/ descramble processing is executed. A ciphering code used for scramble/ descramble processing is decided according to a program by a portable station(PS) 100. One of ciphered codes to be selected is a code generated by the method in compliance with the STD-28 so as to keep compatibility with an existing PHS. In addition, since the privacy communication using the unique ciphering code is attained, the ciphering performance of a speech voice signal is much more enhanced.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a PHS (Personal
Handy Phone System) and other wireless communication systems
In particular, it relates to the secret communication method.

[0002]

2. Description of the Related Art Various confidential communication methods have been developed in order to more reliably prevent leakage or eavesdropping of communication contents. For example, a secret communication system performed between a PHS mobile station (PS) and a base station (CS) is defined in the second generation cordless telephone system standard RCR STD-28 defined by the Radio Industries and Business Association. I have. In this method, first, a secret key code is determined by the PS, and the determined secret key code is wirelessly transmitted from the PS to the CS prior to the start of the secret communication. In the PS and CS, a secret key code, which is a pseudo noise (PN) code, is generated by performing a bit shift, an EOR process, and the like on the secret key code. The generated secret code is used as a scramble code for PNing the transmission signal and as a descrambling code for restoring the PNed reception signal. In this method, the secret code is determined by a two-stage process of determining the secret key code in the PS and the subsequent generation of the secret code in the PS and CS. It has the advantage of high performance.

However, when a secret key code is wirelessly transmitted from a PS to a CS, the secret key code may be intercepted and stolen. Therefore, there is still a need for an improvement in confidentiality of a system such as a PHS that uses this secret talk system.

[0004]

SUMMARY OF THE INVENTION An object of the present invention is to provide a PS that can perform confidential communication with higher confidentiality of communication contents and can be used in an existing system.
To provide a procedure and means of a confidential communication method executed between the communication device and the server.

In order to achieve this object, in the present invention, first, the PS determines which of a plurality of types of confidential systems to use is used. When deciding to use the first secret talk system using a secret key code (for example, a STD-28 compliant scheme), the PS transmits the secret key code to the CS before starting the secret talk communication. Each of the PS and the CS generates a secret code as a PN code based on the secret key code. When it is decided to use the second privacy mode without using the secret key code, the PS sends the CS to the CS prior to the start of the privacy communication.
A notification that a predetermined confidential code, which is an N code, is to be used, an initial value of the confidential code, or a code for specifying the code is transmitted. Regardless of which confidential communication method is used, after starting the confidential communication, the transmission signal is scrambled and the received signal is descrambled using the generated or received or predetermined confidential code.

In this manner, the PS determines whether or not the secret key code can be used in the secret communication, and executes the secret communication in accordance with the secret communication method according to the result, thereby leaking the communication contents due to the secret key code being stolen. The risk of eavesdropping is reduced. In addition, since the decision logic of the confidential system may be programmed in the PS, no special labor is required for switching the confidential system.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows a PS in one embodiment of the present invention.
1 shows an outline of a functional configuration of the CS 100 and the CS 200. PS1
00 inputs the voice of the speaker (101), and converts this to adaptive pulse code modulation, that is, ADPCM (10).
2) Wirelessly transmit to CS 200 (103). CS2
In 00, the voice is wirelessly received (201), and inverse ADPC is performed.
After being converted to M (202), it is transmitted to an external, for example, a wired digital or analog line (203). Also, CS2
00 is when an audio signal is input from outside (204),
This is converted into an ADPCM (205), and wirelessly transmitted to the PS 100 (206). The PS 100 wirelessly receives this voice (104), converts the voice into inverse ADPCM (10
5) Output to the speaker as voice (106).

Also, after the ADPCM conversion (102, 205) and before the inverse ADPCM conversion (105, 202), the audio is subjected to scramble processing (107, 207) and descrambling processing (108, 208). . Specifically, an exclusive OR (EOR) of the ADPCM-converted voice and the confidential code is obtained, and the obtained EOR is transmitted by radio (103, 206) or inverse ADPCM (10
5,202). One of the features of the present invention is that the PS 100 can select and determine the secret code used in the scramble / descrambling process according to a program.

That is, prior to the start of voice communication, PS
100 determines a secret system to be used according to a program given in advance (109). When the determined confidential system is the same as the conventional confidential system, that is, the confidential system using the confidential key code, the PS 100 transmits the confidential key code to the CS 200 by radio and transmits (11)
0), a secret code is generated based on the secret key code by PN generation processing described later (111). CS200
Receives the secret key code transmitted from the PS 100 by radio (209), and generates a secret code based on the secret key code in the same manner as the PS 100 (210). PS100 and CS2
00 temporarily stores the generated secret code (11
2, 211), and scramble / descramble the stored secret code (107, 108, 207, 208).
Use for Therefore, in the present embodiment, PS10
0 is a conventional method such as STD-2
If it is 8, confidential communication can be executed in accordance with a system conforming to the system.

When the secret system determined by the PS 100 in accordance with the program is another system, the PS 100
Is a scramble / descramble process (107, 10
8, 207, 208), a secret code to be used is generated (113), and this is wirelessly transmitted to the CS 200 (114), and is temporarily stored (112). CS200 is
The secret code transmitted from the PS 100 is wirelessly received (2
12) and store it (211). The stored secret code is subjected to a scramble / descramble process (107, 10).
8, 207, 208). Therefore, in the present embodiment, confidential communication can be performed between the PS 100 and the CS 200 by a method other than the conventional method using the secret key code. As a result, the confidentiality of the content of the transmitted and received voice is increased as compared with the conventional system in which confidential communication can be performed only by the conventional method using the confidential key code.

In order to clarify the functional description, FIG.
In the above, the block related to the transmission and reception of the secret key code and the secret code and the block related to the transmission and reception of the voice are separate blocks. However, in practice, these functions can be realized using a common transmission / reception circuit or antenna. . Also, an example has been described in which a secret code is transmitted from PS100 to CS200 when a secret method without using a secret key code is selected.
This is only an example, and it is not actually necessary to transmit a secret code. For example, instead of the confidential code, a code capable of specifying the confidential code is transmitted from the PS 100 to the CS 200.
It may be transmitted only to. Alternatively, “a secret key code indicating that secret communication using the secret key code is not performed” is determined in advance, and when the secret key code is transmitted from the PS 100 to the CS 200, a predetermined secret code is initialized. In such a form, the PS 100 notifies the CS 20 that the secret communication using the secret key code is not performed.
It may be given to 0. Also, PHS
A public system that talks via a CS provided in a telephone pole, a telephone box, a station yard, and the like, and a self-employed system in which a specific PS talks through a CS provided in a factory or a company premises. Existing. This embodiment can realize highly confidential voice communication in both public and private systems. In particular, in a self-employed system, since confidential communication using a specific confidential code determined by the factory, the company, or the like can be executed, confidentiality can be further ensured.

FIG. 2 shows an example of a circuit that can be used to realize a procedure from the determination of the confidential method to the storage of the confidential code. The circuit shown in FIG. 1 includes a storage circuit 10 for storing a secret code. Storage circuit 10
The address bus ABUS of the storage circuit 10 is switched and connected to one of the address buses ABUS1 and ABUS2 by the ABUS switching circuit 12, and the data bus DB of the storage circuit 10.
US is controlled by the DBUS switching circuit 14 to store the data bus DBU
The connection is switched to one of S1 and DBUS2.
DBUS1 and ABUS1 are CPU
When the secret mode determined by the CUP 16 is a secret mode using a secret key code, the secret key code determined by the CUP 16 and its write destination address are given to the PN generator 18,
This is a bus for providing a PN code generated based on the secret key code generated by the N generator 18, that is, a secret code and its write destination address. DBUS2 and ABUS2 are buses for providing the secret code determined by the CPU 16 and the write destination address when the secret method determined by the CPU 16 according to the program is a secret method that does not use a secret key code. The CPU 16 sets the switching information in the register 20 according to the secret mode determined according to the program. ABUS switching circuit 12 and DB
The US switching circuit 14 uses DBUS1 and ABUS1 when the switching information set on the register 20 indicates the secret mode using the secret key code, and DBUS2 and ABU when the switching information indicates the secret mode not using the secret key code.
Connect S2 to DBUS and ABUS.

FIG. 3 shows an example of the configuration of the PN generator 18. As shown in FIG. The PN generator 18 shown in FIG.
5 is provided with 16-stage shift registers 22 continuously connected. Further, EOR24 for obtaining an exclusive OR of the contents of S0 and S4, EOR26 for obtaining the exclusive OR of the contents of S13 and EOR26, and the exclusive OR of the output of EOR26 and the contents of S15 are obtained. E to enter
An OR 28 is provided. The configuration shown in FIG.
This is a configuration suitable for generating a secret code from a secret key code in accordance with D-28. That is, the secret key code defined by STD-28 is a 4-digit hexadecimal code, ie, 1
When starting the generation of the secret code, the CPU 16 first initializes each bit of the secret key code in a corresponding latch in the shift register 22. The output of each latch in the shift register 22 is latched by the next-stage latch or input to the EOR. P
The N generator 18 collects the output of the SO for 160 bits,
The obtained 160-bit information is used as a secret code.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a functional configuration of a PS and a CS according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating an example of a circuit related to confidential method determination, confidential code generation, and storage thereof in the embodiment.

FIG. 3 is a block diagram showing a method of generating a PN code.

[Explanation of symbols]

100 PS, 200 CS, 103, 206 voice transmission, 104, 201 voice reception, 107, 207 scramble processing, 108, 208 descramble processing, 1
09 Decision of secret method, 110 Transmission of secret key code, 11
1,113,210 Secret code generation, 112,211
Storage, 114 secret code transmission, 209 secret key code reception, 212 secret code reception.

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Masaru Mitobe 5-1-1 Shimorenjaku, Mitaka City, Tokyo Japan Radio Co., Ltd. (72) Inventor Yuko Kashino 5-1-1 Shimorenjaku, Mitaka City, Tokyo Japan Radio Inside the corporation

Claims (1)

[Claims] The mobile station determines which of a plurality of types of confidential systems to use, and the confidential system determined by the mobile station is a first confidential system using a secret key code. Prior to the start of the confidential communication, the mobile station transmits the confidential key code to the base station before the start of the confidential communication. After the start, the step of executing the first secret talk mode by scrambling the transmission signal and descrambling the received signal using the generated secret talk code, and setting the secret talk mode determined by the mobile station to the secret key code Before the start of the confidential communication, the mobile station informs the base station of the use of a predetermined confidential code, which is a pseudo-noise code, prior to the start of the confidential communication. After transmitting the initial value or a code specifying this, and after the start of the confidential communication, the mobile station and the base station each use the confidential code to scramble the transmission signal and descramble the received signal, thereby obtaining the second signal. Performing a confidential communication method; and determining whether or not a secret key code can be used in the confidential communication in the mobile station.