RU2618723C1 - Method of information transmission - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: method of transmitting the hidden information is that each next letter of the transmitted message is simultaneously generated at the transmitting and receiving points on the X generators on each. Generation on the points is carried out by the same law by searching the used alphabet with comparing each letter of the alphabet with the current transmitted letter, if the letter of the alphabet coincides with the current transmitted letter, the generation process at the transmitting and receiving points is terminated, and an overhead signal is transmitted from the transmitting station "Stop", according to which the receiving point also stops generating in the same code phase of generation. The generated letter is read to form a single message.

EFFECT: reducing the time required to generate a message.

1 dwg

Description

The invention relates to the field of computer science, communications and computer technology and can be used to unload the communication channel and hiding information.

The well-known "Method of transmitting information from a transmitting point to a receiving unit and a device for its implementation" (see patent for invention No. 2416873 according to IPC Н04B 1/66 of 11/09/2009), characterized by parallel generation according to the same law on the transmitting and receiving points of each next portion of the transmitted message by sorting the used alphabet with comparing each letter of the alphabet with the current transmitted letter and issuing, when comparing from the transmitting point to the receiving, an overhead signal that stops generation at the receiving paragraph as well as in the transmitting, and in the same code phase in both paragraphs corresponding to the transmitted letter.

The closest in technical essence to the claimed invention is the method described in the invention, “A device for transmitting binary information from a transmitting point to a receiving” (see patent for invention No. 2367088 for IPC Н04B 1/66 dated 10/18/2007 Bull. No. 25 from September 10, 2009), characterized by synchronous parallel generation at the transmitting and receiving points of each regular letter of the transmitted message, and the generation at the points is carried out according to the same law by sorting the alphabet used and comparing each letter of the alphabet with the current transmitted letter, if the letter of the alphabet coincides with the current transmitted letter, the generation process at the transmitting and receiving points is terminated and a stop signal is transmitted from the transmitting point to the receiving point, which also stops generation at the receiving point in the same generation code phase, and the generated letter is read to form a complete message, then the next letter of the message is similarly generated until it is completely transmitted.

A disadvantage of the known methods is the relatively large time spent in sorting the alphabet to generate each current transmitted letter. So, for example, for the case shown as an example in the prototype with a 6-bit generator for an alphabet of 64 different letters, on average, it takes to generate each current transmitted letter:

(2 ⁶ +1): 2 = 32.5 measures

where 2 ⁶ beats is the slowest letter generation,

1 beat - the fastest letter generation.

The technical result and the aim of the present invention is to significantly reduce the above time costs by using X generators at the transmitting point (also at the receiving point), parallel in time generating the current transmitted letter, each in its own part of the code space of the alphabet. At the same time, the time required to generate each letter decreases on average X times.

The indicated technical result and the goal are achieved in that the method of transmitting information without transmitting it over the communication channel is characterized by synchronous parallel generation at the transmitting and receiving points of each regular letter of the transmitted message, and the generation at the points is carried out according to the same law by sorting the alphabet used with comparison each letter of the alphabet with the current transmitted letter, if the letter of the alphabet coincides with the current transmitted letter, the generation process at the transmitting and receiving points ah stops and a stop signal is transmitted from the transmitting point to the receiving point, according to which the generation in the same code phase of generation is also stopped at the receiving point, and the generated letter is read to form a complete message, then the next letter of the message is generated similarly until it is completely transmitted, as well as the fact that each current letter is generated at the transmitting and receiving points on each X generators having different source codes, while the entire code space of the alphabet is divided by X parts, moreover, when searching for the next current letter, all X generators, competing with each other "who used to", compare their letters differing on this beat with the same current transmitted letter, if the transmitting point on one of the generators coincides after the generation process is stopped from it, a service signal corresponding to this generator is issued to the receiving point, stopping the generation process at the receiving point and indicating on which of the X generators of the receiving point, which worked in phase with the code from the operation by the current transmitting station generator, the current transmitted letter is formed, which is then read to compose a complete message.

In FIG. 1 is a structural diagram explaining the essence of the claimed method for X = 2.

In FIG. Figure 1 shows the transmitting point 1 with the first generator (Gper 1) 1.1, the second generator (Gper 2) 1.2, the first comparison circuit (Cxcr 1) 1.3, the second comparison circuit (Cxcr 2) 1.4, the register of the current letter (Rgtek) 1.5, the storage device (Zuper) 1.6, control unit (BUper) 1.7, receiving station 2 with the first generator (GPR 1) 2.1, the second generator (GPR 2) 2.2, ZUPr 2.3, BUPR 2.4, as well as communication channel 3.

In FIG. 1, the elements and connections of synchronization, initial settings, discharges, accesses to the memory and the formation of the address, which are not of fundamental importance in the framework of the considered method, are shown.

The method of transmitting information without broadcasting it over communication channel 3 is characterized by synchronous parallel generation at transmitting 1 (on Gper 1.1 and 1.2) and receiving 2 (on GPR 2.1 and 2.2) points of each next letter of the transmitted message, and generation at points 1 and 2 is carried out according to one and the same law (for example, using pseudo-random sequence generators or using counters) by sorting the alphabet used and comparing each letter of the alphabet with the current transmitted letter, if the letter of the alphabet matches the current with the transmitted letter, the generation process at the sending 1 and receiving 2 points is terminated and a stop signal is transmitted from the transmitting point 1 to the receiving 2, according to which generation is also stopped at the receiving point in the same code phase of generation, and the generated letter is read to form a complete message , then in the same way the next letters of the message are generated until it is completely transmitted, each current letter is generated at the transmitting and receiving points on each X generators having different source codes s, while the entire code space of the alphabet is divided into X parts.

The method is as follows. Let, for example, from transmitting point 1 to receiving point 2, for the case X = 2 (see Fig. 2), it is necessary to transfer the current letter corresponding to the binary code 100000, and let for simplicity as all generators 1.1, 1.2, 2.1 and 2.2 use ordinary binary counters. Let also the initial state of Gper 1 and GPR 1 be zero, and Gper 2 and GPR 2 010000. In this case, the initial settings, clocking, generation of signals “stop 1”, “stop 2” and other control are carried out by BUper 1.7 and BUpr 2.4.

Then, after selecting from Zuper 1.6, the current letter is transferred to the register Рртек 1.5 and the modifications are started (for counters this is +1) Gper 1.1 and Gper 1.2 (simultaneously synchronously GPR 2.1 and GPR 2.2). In the prototype, if there was only one pair of Gper 1.1 and GPR 2.1, before comparing the value of Gper 1.1 with the code of the current letter 100000, 32 synchrotacts would be required. But in accordance with the method under consideration, their modification of Gper 1.2 and GPR 2.2 will start from their initial state of 010000 and the code of the current letter 100000 will be reached through 16 synchrotacts. After that, with the help of BU 1.6, the modification of Gper 1.1 and Gper 1.2 is stopped, the “stop 2” signal is generated, which is transmitted through channel 3 to reception point 2, where the modification of GPR 2.1 and GPR 2.2 also stops. At the same time, on GPR 2.2, the code of the current letter 100000 is fixed, which then with the help of БУпр 2.4 is recorded in ЗПр 2.3 as the corresponding part of the transmitted message. There is a win 2 times. Other letters are transmitted similarly. Moreover, with their values less than 010000 code, Gper 1.1 will respond faster.

Claims (1)

A method of transmitting hidden information, characterized by synchronous parallel generation at the transmitting and receiving points of each regular letter of the transmitted message, and the generation at the points is carried out according to the same law by sorting the alphabet used and comparing each letter of the alphabet with the current transmitted letter, if the letter of the alphabet matches with the current transmitted letter, the generation process at the transmitting and receiving points is terminated, and the service signal “st op ”, according to which generation in the same code phase of generation is also stopped at the receiving point, and the generated letter is read to form a complete message, then the next letters of the message are generated similarly until it is completely transmitted, characterized in that each current letter is generated on the transmitting and receiving points are carried out on each on X generators having different source codes, while the entire code space of the alphabet is divided into X parts, and when searching for the next current letter, all X generators are competitive comparing with each other “who used to be”, they compare their letters that differ on a given clock cycle with the same current transmitted letter, if the transmitting point coincides on one of the generators after the generation process stops, the service signal corresponding to this generator is issued from it, stopping the generation process at the receiving point and indicating on which of the X generators of the receiving point, which worked in phase with the code with the generated generator of the transmitting point, the current transmitted ukva, which is then read out to produce a solid message.

Images