JPH05227131A - Scrambling system - Google Patents

Abstract

PURPOSE:To provide a scrambling system in which scrambled data can be prevented from being easily decoded even when a scrambling system leaks out to a third party in the scrambling system when secret communication between its own station and an opposite station is performed. CONSTITUTION:Its own station 100 is equipped with a key setting means 110, a key sending means 120, and a descrambling means 130, and the opposite station 200 is equipped with a key detecting means 210, and a scrambling means 220. This system is comprised in such a way that a key to perform the scrambling of data D to be sent out from the opposite station 200 to its own station 100 is set by the key setting means 110 of its own station 100 and it is sent out to the opposite station 200 by the key sending means 120, and the opposite station 200 detects the key sent out of its own station 100 by the key detecting means 210, and performs the scrambling of sent data by the scrambling means 210 by the key, and sends it out to its own station 100.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a scramble system for confidential communication between a local station and a remote station.

With the development and diversification of communication means and the expansion of communication networks, it has become necessary to prevent the leakage of confidential information to third parties. For this reason, various scrambling methods are provided, but if the scrambling method used by a third party is known by some method, it is relatively easily decrypted, and the confidentiality of information cannot be maintained. Sometimes.

In such confidential communication, it is required to secure confidentiality by using a scramble key that cannot be easily decrypted by a third party.

[0004]

2. Description of the Related Art FIG. 6 is a diagram for explaining a conventional example. In the figure, 100A is the own station, 111 in the own station 100A is a key setting circuit, 131 is a descrambler, 200A is a partner station, 212 in the partner station 200A is a key setting circuit, 221 is a scrambler, 101A is a third station. A third station 101
In A, 111 is a key setting circuit, 131 is a descrambler, D1 is data, and D1 'is scrambled data.

Keys are mutually agreed between the own station 100A and the partner station 200A, and this key is used to
Scrambles the data D1 with the scrambler 221 and sends it as scrambled data D1 '.
In A, the descrambler 131 uses this key to restore the original data D1 for communication.

In the third station 101A, when the key used for the scramble communication between the own station 100A and the partner station 200A is unknown, the key cannot be set in the key setting circuit 111 and the scrambled data D1 'is restored. I can't. (The broken line in the figure indicates that the key cannot be set by the key setting circuit 111 because the key is unknown.) Further, the scrambler 221 and the descrambler 1 do not have the key.
It is also possible to generate a fixed random pattern that is mutually agreed by 31 by hardware, scramble it, and perform communication.

[0007]

In the above-mentioned conventional example, if the key used between the own station 100A and the partner station 200A leaks to the third station 101A, confidentiality cannot be maintained.

In the hardware scrambling system, the scrambled data D1 'can be decoded into the original data D1 relatively easily. The present invention intends to realize a scramble system in which the scramble data cannot be easily decoded even if the scramble system is leaked to a third party.

[0009]

FIG. 1 is a block diagram for explaining the principle of the present invention. 100 in the figure is the own station,
110 in the own station 100 is a key setting means for setting a key for scrambling the data D sent from the partner station 200, and 120 is a key sending means for sending the key set by the key setting means 110 to the partner station 200. Yes, 13
Descrambling means 0 descrambles the scrambled data D ′ sent from the partner station 200 with the key set by the key setting means 110.

Reference numeral 200 designates a partner station, and the partner station 20
Reference numeral 210 in 0 is a key detecting means for detecting a key sent from the own station 100, and 220 is a key detecting means 210.
The key setting means 110 of the own station 100 sets a key for scrambling the data D to be sent from the partner station 200 to the own station 100, which is a scramble means for scrambling the data D to be sent with the key detected by The sending means 120 sends it to the partner station 200, and in the partner station 200, the key detecting means 210 detects the key sent from the own station 100, and the scrambling means 220 uses the key.
The data D sent in step S1 is scrambled and sent to the local station 100, and the local station 100 uses the key sent to the partner station 200 to restore the scrambled data D'by the descramble means 130.

[0011]

When the own station 100 and the partner station 200 perform confidential communication, the key setting means 110 of the own station 100 sets a key for scrambling the data D, and the key sending means 120 sends it to the partner station 200.

At the partner station 200, the key sent from the own station 100 is detected by the key detecting means 210, and the data D is scrambled by this key and sent as scrambled data D '.

The local station 100 restores the scrambled data D'by the same key as the key sent to the remote station 200 to perform confidential communication. Further, the own station 100 is provided with a key detection means 140 for detecting a key sent from the partner station 200, the key sent from the partner station 200 is detected by the key detection means 140, and the key position is determined by the own station. Key information is transmitted to the partner station 200 as information indicating the key position transmitted from 100.

Further, a timing generator 150 is provided in the own station 100, and a part of the data sent by the own station 100 is used as a key to send to the partner station 200, and a timing signal generated by the timing generator 150 is used. By changing the key at an arbitrary cycle or a random cycle, it is possible to prevent leakage of the key and increase the confidentiality of communication.

[0015]

FIG. 2 is a diagram for explaining an embodiment of the present invention.
100 is an own station, 111 is a key setting circuit, 131
Is a descrambler, 200 is a partner station, 211 is a key detection circuit, 221 is a scrambler, and 101 is a third station.

In the own station 100, a key is set by a key setting circuit 111, and a key sending circuit (not shown) 121
The data is sent to the partner station 200 as data D1 ″ in which a key is inserted in the data D1.

In the partner station 200, the key detection circuit 211 detects a key from the data D1 ", the detected key is used, the scrambler 221 scrambles the data D2, and scrambled data D2 'is sent to the own station 100. Send out.

In the own station 100, the descrambler 131 decrypts the scrambled data D2 'using the same key set by the key setting circuit 111 and sent to the partner station 200. At this time, in the third station 101, the descrambler 13
Since the key cannot be set to 1, scrambled data D2 '
Can't be deciphered.

However, since the scrambler key is decrypted if the same key is used for a long time, it is necessary to change the key in order to increase the secrecy. FIG. 3 is a diagram (1) explaining another embodiment of the present invention. In FIG. 3, the timing generator 150 is provided in the embodiment of FIG. 2, and the key transmission cycle from the own station 100 to the partner station 200 is set to an arbitrary cycle or a random cycle according to a signal generated by the timing generator 150. It is changed at regular intervals.

FIG. 4 is a diagram for explaining another key setting method according to the embodiment of the present invention. (A) is an example of a scramble system of a voice signal, in which a pilot signal f ₀ is superimposed on the voice signal to indicate a key position, and the partner station 200 detects the pilot signal f ₀ in the received signal and The key signal is extracted based on the signal.

(B) is an example in which the key sent from the partner station 200 is sent to the partner station 200 as information indicating the position of the key sent from the own station 100. In the figure, immediately after the partner station key, the own station 100 is sent. The key position is sent from
It is possible to use an arbitrary position as the key position by designating the key positions in the own station 100 and the partner station 200 in advance.

FIG. 5 is a diagram (2) for explaining another embodiment of the present invention. The figure shows an example used for analog two-way communication. In the figure, 131 is a descrambler of the own station 100, 161 is a scrambler of the own station 100, 221 is a scrambler of the opposite station 200, and 231 is a descrambler of the opposite station 200.

Further, 1 is a waveform of data transmitted from the own station 100, 2 is scramble data scrambled by the scrambler 161 of transmission data using the key of 9, and 300 is the same as the own station 100. Station 200
3 is scrambled data received by the partner station 200, 5 is data descrambled and received by the descrambler 231 of the received data using the key of 8, and 6 is received data. The key of the local station that is sampled and held from 5, the key of the local station that is sampled and held from the data 1 to be transmitted, and the key of 8 that is sampled and held from the data 10 to be transmitted from the other side. Is a key on the other side, and 9 is a key on the other side sampled and held from the data 13 received from the other side.

Reference numeral 10 denotes a waveform of data transmitted by the other party, 221 is a scrambler using the key of 6, 11 is scrambled data scrambled by the scrambler 221, and 12 is the own station side. It is the scrambled data received by, 131 is the descrambler using the key of 7, and 13 is the descrambler 1.
It is the data received by the local station descrambled by 31.

Here, 6 and 7, and 8 and 9 are keys having the same waveform. In this way, the partner station 200 sets and sends a key for scrambling at the own station 100, and the partner station 200
Since the local station 100 sets a key for scrambling and transmits it, a third party cannot easily decrypt it, and communication with high confidentiality can be performed.

[0026]

As described above, according to the present invention, the remote station sets a key for scrambling at the local station and transmits it, and the remote station sets a key for scrambling at the local station and transmits it. Even if it is known to a third party, it cannot be easily deciphered, and a scramble system capable of maintaining high confidentiality of communication can be realized.

[Brief description of drawings]

FIG. 1 is a block diagram illustrating the principle of the present invention.

FIG. 2 is a diagram illustrating an embodiment of the present invention.

FIG. 3 is a diagram (1) for explaining another embodiment of the present invention.

FIG. 4 is a diagram for explaining another key setting method according to the embodiment of the present invention.

FIG. 5 is a diagram (2) illustrating another embodiment of the present invention.

FIG. 6 is a diagram illustrating a conventional example.

[Explanation of symbols]

100, 100A Own station 200, 200A
Counterpart station 101, 101A Third station 110 Key setting means 111, 212
Key setting circuit 120 Key sending means 130 Descrambling means 131, 231
Descrambler 150 Timing generator 210 Key detection means 211 Key detection circuit 220 Scrambling means 161, 221
Scrambler 300 Transmission path D, D1, D2, D1 ", 1, 5, 10, 13 data D1 ', D2', 2, 3, 11, 12 Scrambled data K, 6, 7, 8, 9 keys

Claims (3)

[Claims] 1. A scramble system for confidential communication between a local station (100) and a remote station (200), wherein the local station (100) sends data ( Key setting means (110) for setting a key for scrambling in D)
And the key set by the key setting means (110),
Key sending means (12) for sending to the partner station (200)
0) and descramble means (130) for descrambling the scrambled data (D ′) sent from the partner station (200) with the key set by the key setting means (110), The partner station (200) uses the key detection means (210) for detecting the key sent from the own station (100) and the data (D) to be sent by the key detected by the key detection means (210). The key setting means (110) of the local station (100) is provided with a scramble means (220) for scrambling, and a key for scrambling the data (D) sent from the partner station (200) to the local station (100). And the key sending means (120) sends it to the partner station (200), and the partner station (200) sets the key detecting means (2).
In 10), the key sent from the local station (100) is detected, and the scramble means (220) is detected by the key.
The transmitted data is scrambled by the local station (100)
A scramble method characterized by sending to the. 2. The own station (100) is provided with the partner station (2).
Key detecting means (140) for detecting a key sent from the other station (200), the key detecting means (140) detects the key sent from the partner station (200), and detects the key position. 2. The scramble system according to claim 1, wherein the key is transmitted to the partner station (200) as information indicating a key position transmitted from the station (100). 3. The own station (100) is provided with a timing generator (150) for generating a timing signal of an arbitrary cycle and a random timing signal, and the other station (20).
0) is used as a key for scrambling the data (D) to be sent to the (0), and a part of the data sent from the local station (100) is used. The scramble system according to claim 1, wherein the key is changed at a random cycle.