JPS63121334A - Privacy communication system - Google Patents

Abstract

PURPOSE:To execute reliable privacy communication by converting quantized and coded data based on a conversion table and inversely converting the conversion based on the conversion table so as to restore an original signal. CONSTITUTION:On a transmission side, A/D converted 1 PCM data is ciphered by a code converter 2 based on the conversion table and the ciphered PCM data is coded in an encoder 3 to be transmitted after four-phase DPSK modulation is executed. Now, the conversion table of the converter 2 is regularly updated. The signal is received on a reception side and the four-phase DPSK modulated signal is demodulated in a demodulator 5 to obtain an original bit stream signal. The bit stream is transmitted to a decoder 7 with contract channel information and decoded, so that only contract channel data is decoded and fetched.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of sedentary use) The present invention relates to a secret communication method in multi-channel digital data communication, and particularly to a secret communication method suitable for preventing unauthorized reception in paid broadcasting.

(Background of the invention) Conventionally, in multi-channel paid broadcasting, in order to prevent unauthorized reception, information was concealed by scrambling by adding quantized or encoded sample words and M-sequence PN signals. .

For this reason, there is a problem that once the generating polynomial of the M-sequence PN signal is known, it will be descrambled.

The present invention has been made in view of the above, and an object of the present invention is to solve the above problems and provide a secret communication system for multi-channel PCM communication.

(Ninth Means for Solving the Problems) In order to solve the above problems, the present invention is constructed as follows.

A secret communication method for multi-channel digital data communication in which multi-channel digital data is converted and transmitted based on a conversion table that is updated at predetermined intervals, and the conversion table information and contract channel information are stored on the receiving side. using a prepaid card,
Based on the contract channel information read from the prepaid card, the converted contract channel digital data is extracted from the converted multi-channel digital data, and the inverse conversion of the conversion is performed based on the conversion table information read from the prepaid card. (Operation) According to the present invention configured as described above, multi-channel digital data is converted and transmitted based on a conversion table that is updated at predetermined intervals.

On the other hand, on the receiving side, the conversion table information and contract channel information are read from the prepaid card stored therein, and contract channel digital data is extracted from the converted multi-channel digital data based on the nine contract channel information. Furthermore, the extracted contract channel digital data is read out from the prepaid card and is converted into the original digital data by performing the inverse conversion of the above conversion based on the t-conversion table information.

However, as mentioned above, the conversion of digital data is performed using a conversion table rather than scrambling that adds the PN signal, and the conversion table is updated periodically.
Therefore, highly reliable secret communication becomes possible. Also, it has nothing to do with the generator polynomial.

(Example of the invention) The present invention will be explained below with reference to Examples.

FIG. 1 is a block diagram showing the configuration of an embodiment to which the system of the present invention is applied, and is a transmission/reception block diagram of a secret communication system in multi-channel PCM communication.

On the transmitting side, an A/D converter 1 A/D converts the transmitted signal, that is, converts the transmitted signal into PCM, and supplies the PCM data to a code converter 2 where it is randomized and encrypted based on a conversion table. Furthermore, the conversion table of the code converter 2 is updated regularly. The nine data encoded by the code converter 2 are supplied to the encoder 3 for encoding.

Encoder 3 encodes and encodes the mental data. For example, the modulator 4 converts the carrier wave into a 4-phase DPSK signal by formatting the 9-pit stream signal.
Modulate and transmit. Here, the A/D converter 1 to the modulator 4 represent the transmitting side.

On the receiving side, a modulated signal such as 4-phase DP8 is received, and the demodulator 5 decodes it into the original pit stream signal.

6 is a preset information reader that reads preset information stored in a prepaid card made of an integrated circuit (IC) card or a magnetic card, and conversion table information and contract channel information are stored in advance in the prepaid card. The prepaid card is inserted into a preset information reader 7, and the preset information reader 7 is made to read the stored information of the prepaid card.

The nine bit stream signals decoded by the demodulator 5 are supplied to the decoder 7 for decoding. At the same time, the contract channel information read from the prepaid card by the preset information reader 7 is supplied to the decoder 7, which decodes only the contracted 9-channel data from the multiplexed multi-channel PCM data and outputs contract channel PCM data. do.

Therefore, the output from the decoder 7 is the contracted channel and encrypted ePcMPCM data.

On the other hand, a conversion table corresponding to the conversion table updated periodically for code conversion by the code converter 2 is read from the prepaid card by the preset information reader 6 and supplied to the code converter 8.

The output from the decoder 7 is read from the prepaid card by the preset information reader 6 and restored to the original PCM data by the code converter 8 based on the mental conversion table.
/A converter 9 and converts it into an analog signal.

To be careful, on the transmitting side, the code converter 2 converts the ePcM into the ePcM based on the conversion table.
The data is converted into PCM data, and the conversion table of the code converter 2 is updated regularly.

This encrypted PCM data is encoded by the encoder 3, subjected to four-phase DPSK modulation, and then transmitted.

This transmission signal is received on the receiving side, and the modulated signal into four-phase DP8 is demodulated by the demodulator 5, and is demodulated into the original pit stream signal. This pit stream is supplied to the decoder 7 together with contract channel information.

This pit stream signal is decoded in the decoder 7, and based on the contract channel information, only the contract channel data is decoded and extracted from the multiplexed multi-channel/I/PCM data. The encrypted JPCM data of only the extracted contract channel is inversely converted and restored in the code converter 8 according to the conversion table of the code converter 2. This restored PCM data is converted into an analog signal by a D/A converter 9.

In this case, the conversion by the =-code converter 2.8 is performed using a conversion table, and the conversion table is updated regularly. Therefore, unlike the conventional method (not due to scrambling with the PN signal), there is no possibility that the generating polynomial is found out and decoded.

Furthermore, in the above-described embodiment 9, the case of multiple PCM communication is exemplified, and the same applies even if 9 is the case of multiple PNM pulse numerical modulation communication.

(Effects of the Invention) As explained above, according to the present invention, quantized and encoded data is converted based on a conversion table, the conversion table is updated periodically, and the data is converted based on the conversion table. Since the signal is inversely transformed to return to the original signal, highly reliable secret communication is possible without depending on the PN signal generating polynomial.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention. DESCRIPTION OF SYMBOLS 1... A/D converter, 2 and 8... Code converter, 3... Encoder, 4... Modulator, 5... Demodulator, 6... Preset information reader, 7 ...Decoder, 9...D/A converter.

Claims (3)

[Claims] (1) A secret communication method in multi-channel digital data communication in which quantized and encoded digital data is converted based on a conversion table that is updated at predetermined intervals and then transmitted. Using a prepaid card in which conversion table information and contract channel information are stored, the converted contract channel digital data is extracted from the converted multi-channel digital data based on the contract channel information read from the prepaid card, and the prepaid A secret communication system characterized in that the inverse conversion of the above conversion is performed based on conversion table information read from a card. (2) The secret communication system according to claim 1, wherein the quantized and encoded digital data is PCM data. (3) The secret communication system according to claim 1, wherein the quantized and encoded digital data is PNM data.