RU2595491C2 - Method of transmitting information inaccessible to third party - Google Patents

Abstract

FIELD: computer engineering.

SUBSTANCE: invention relates to computer engineering, communication and informatics and can be used for transmitting confidential information. For this purpose in the method of transmitting information inaccessible to third party transmitting and receiving subscribers use the same cyclic generators (CG) allowing mode of operation change, wherein information transmission and reception stations are mobile phones, in which a microchip is inserted containing specific CG with the possibilities of its operation modes switching and corresponding control circuit and additional coding of transmitted information is performed, and channel decoding and decoding of CG is performed at the receiving station.

EFFECT: providing security of transmitted information due to additional coding.

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Description

The invention relates to the fields of computer engineering, communications and computer science and can be used to transmit confidential information.

A known method of transmitting information from a transmitting point to a receiving [patent No. 2416873 for the invention “A method of transmitting information from a transmitting point to a receiving and device for its implementation" according to IPC HO4B 1/66 of 11/09/2009], characterized by the use at the transmitting and receiving points identical cyclic binary code generators, with the help of which the transmitted information is encoded in a certain pattern communicated to the receiving point, and this information is reproduced at the receiving point using the known th regularity of generation.

The known method, oriented for automatic procedures for transmitting digital information via wired communication channels, does not provide the ability to exchange information to two subscribers (Ab) over the air with the obligatory provision of convenient prompt notification of each other before transmitting information about changes in the used information encoding mode.

The closest in technical essence to the claimed method is a method of transmitting binary information [patent No. 2453906 for the invention "Method for transmitting binary information and a device for its implementation" according to IPC G06F 13/00 of 03/15/2011], characterized by the use of transmitting and receiving subscribers ( Abper and Abr) of the same cyclic generators (CG), allowing changes in their operating mode, and before transmitting a message from Abper to Abr, the first informs the second of the specified operation mode, which is set on the transmitting and receiving CG points, the entire message is transmitted in portions corresponding to the letters of the alphabet used, while on the CG on each sync clock change its binary code in the established mode and compare the resulting binary code with the binary code of the transmitted alphabet letters until they match, counting the number of spent sync cycles, which is transmitted instead of the corresponding letters of the alphabet over the communication channel from the transmitting point to the receiving one, in which on the same CG in the same mode the current letter of the alphabet is reproduced, making the number of modifications on the CG th its binary code, equal to the number sinhrotaktov spent on that item, similarly act on each next letter you send a message.

This known method, like the analogue, is oriented for automatic procedures for transmitting digital information via wired communication channels with relatively complex technical support and does not provide the ability to exchange closed information over the air with any two subscribers located in any and changing place with the obligatory provision of convenient operational notifying each other before transmitting information about a change in the information encoding mode used so that it is not available to any third parties.

Meanwhile, today, on the one hand, the relevance is growing in a simple and reliable way of confidential information exchange between two ABs, mainly by individuals, and on the other hand, there are already great opportunities for various mass communication networks (cellular mobile telephone networks, Internet, wire telephone networks and satellite communications), the use of which in combination with an effective adapted known method of encoding information allows you to create a simple, reliable and operational method of confidentiality nogo information exchange Ab any two of these networks.

The technical result of this invention is to ensure the confidentiality of the transmitted information due to its additional coding.

The specified technical result is achieved by the fact that the method of transmitting information inaccessible to third parties, characterized by the use by transmitting and receiving subscribers (Abper and APR) of the same cyclic generators (TG), allowing the change of their operating mode, and the first informs before transmitting the message from Abper to APR the second specified operating mode, which is set on the transmitting and receiving points CG, the message is transmitted in portions corresponding to the letters of the alphabet used, while on the CG at each sync do not change its binary code in the established mode and compare the received binary code with the binary code of the transmitted alphabet letter until they match, counting the number of synchro-tacts spent, which is transmitted instead of the corresponding letter of the alphabet through the communication channel from the transmitting point to the receiving one, in which in the same mode, the current letter of the alphabet is reproduced, having implemented on the CG the number of modifications of its binary code equal to the number of synchroacts spent on the transmitting point, they act similarly for each regular bu During the transmitted message, Abper and Abpr subscribers use mobile phones as information transfer and reception points, and a specific network of cellular mobile phones as the communication channel, while providing technical support in advance of the method by incorporating Abper and Abr of a microcircuit containing a specific CG with the ability to switch its operating modes and the corresponding control circuit and by introducing additional “code” options into this model ’”, according to which the binary codes of message letters are converted to coded binary codes on the Abper CG for subsequent transmission via the radio channel of the cellular mobile telephone network used, and “decoding”, by which the opposite is performed on the “Coding” AGR with respect to the “coding” option, except In addition, in advance, Abper and Abpr number and register in the random access memory of their mobile phones the possible operating modes of the CG, immediately before the transmission of the encoded message Abper us he sets the “coding” option and the number of the CG operation mode on his mobile phone and informs by voice this is Abr, which sets the “decoding” option and the CG operation mode number on his mobile phone, then Upper dials a message on his mobile phone that is converted to The CG alternately for each letter and accumulates in the output buffer of the mobile phone, whence, according to the standard option “READY”, the message in the form of a modulated radio signal is issued entirely over the radio channel of the network, having received modulated the aforementioned radio signal from the network, APR performs the reverse operations of demodulation and decoding of the channel, including - decoding on AH of the Abr mobile phone, which is a conversion by each letter of the corresponding binary code of the number of clock cycles of the CG into the binary code of the message letter, which is ultimately displayed on the screen of the Abr mobile phone, with messages in the opposite direction when Abr becomes Abper carried out similarly.

Figures 1 and 2 respectively show a table of binary codes that are generated sequentially on a shift register (CP) presented there, tact after each shift, and a fragment of a table of possible interpretation of the letters of the Russian alphabet in binary code.

The binary code table in FIG. 1 is formed by the 6-bit CP 1 and 3-input adder modulo two (∑m2) 2 with two feedbacks (OS) of 1 and 6 bits of CP 1 on two inputs and a logical unit taken for simplicity of example at the third entrance.

A fragment of the table of possible interpretation of the letters of the Russian alphabet in binary code for the simplicity of the example is limited to the letters used in the example below.

The method is as follows. Let, for example, a subscriber transmitting information a subscriber of any mobile cellular telephone network (Apert) and receive information on the same network (Abr) use cell phone models with the options “encoding” and “decoding”. In this case, before sending a dialed message (CMC) in the "coding" mode using the encoder built into this model, for example, which is a cyclic binary code generator, on the basis of the shift register 1 and the adder modulo two 2 covered by feedbacks are converted (encoded ) CMC according to a certain rule known only to Abper and Abr. Before displaying on a mobile phone, Abr do the inverse conversion of the received encoded information, using the exact same cyclic binary code generator, which allows you to do both direct and inverse binary code conversion.

And let, for example, use 6-bit CP 1 and 3-input (∑m2) 2 as cyclic binary code generators, one of the inputs of which is constantly supplied with a logic level 1a for the other two - OS from the first and sixth bits of CP 1 ( figure 1), and let the shifts in CP 1 are carried out from the lowest order of CP 1 to the highest. Then after each shift (synchrotact) the contents of CP 1 will be unique on each of 64 measures, and then it will repeat cyclically. The generated chain of binary codes with a power of 2 ⁶ (this is enough to confidentially interpret 32 letters of the Russian alphabet with numbers and the necessary characters of a full text) for the example taken in strict sequence is shown in Fig. 1. Changes to the combination of OS or the initial CP 1 code (changes to the encoding mode) - change the interpretation of the alphabet. Let also the binary interpretation used in the ROM of a mobile phone, letters and other characters of the Russian alphabet be fragmented, for example, presented in FIG. 2, in the used model of the mobile phone and in the used mobile cellular telephone network. Suppose now, for example, that Abper intends to transmit to Abr the simplest confidential instruction "Wait."

In the usual transmission of this CMC (not confidential without additional encoding), Abper types three letters in sequence on the screen of his mobile phone, and then sends the Abr, which reads them, on his mobile phone according to the well-known standard procedure. It should be noted that after the Abper dials the specified message in his mobile phone, it is subjected to channel coding alternately for each letter (for example, in accordance with the table of Figure 2), and then modulated in accordance with the accepted technical discipline, the network used and the mobile model phone (in the Abr mobile phone, reverse demodulation and decoding procedures are carried out) to ensure reliable and reliable transmission of information over the radio channel used by the network. At the same time, for the technical services and numerous listening tools, the information transmitted from Abper to Abpr is absolutely accessible.

To ensure the confidentiality of the transmitted information from Abper to Abbr (and vice versa), additional confidential encoding of this information is applied according to a rule known only to Abper and Abpr.

The method itself, in the simplified assumptions mentioned above, is carried out as follows.

Abper, intending to transmit the CMC “ZHDI” Abr, informs the latter about the intention and coding mode (the conditional number of the pre-agreed modes corresponding to, for example, the use of bits 1 and 6 of the CP 1 operating system and the initial state CP 1-ZERO, in accordance with figure 1). To do this, Abper and (Abr) on their mobile phones set the option “encoding” (“decoding”) and the corresponding mode “encoding” (“decoding”). Next, Abper dials, as usual, CMC “Wait”, but at the same time, under the “encoding” option, before sending a message from Abper, it undergoes conversion using the cyclic generator included in the Abper mobile phone in the specified encoding mode. In this case, the following technical implementation of the method is possible in addition to CP 1 and (∑m2) 2. Using the comparison scheme, the binary code for interpreting the letter Ж (001000 according to Table 2), recorded in the register of the current letter, is compared after each shift with the binary code CP until they coincide, and simultaneously, the CP shifts are counted on the clock counter until they coincide. In accordance with the table of FIG. 1, the comparison will occur after the 17th shift, on the basis of which the number 17 is stored as the encoded value of the letter G. For the letters D and I, the numbers 3 and 4 are similarly determined.

Thus, the modulated numbers 17, 3 and 4 will be sent over the radio channel of the used mobile cellular network, which, after demodulation in the Abr mobile phone, will require the corresponding number of shifts on the cyclic generator (the same as in the Abper mobile phone) operating in the specified mode. That is, after the 17th shift (FIG. 1), the binary code 001000 is obtained, then again, starting from the initial state CP 1, on the third measure - code 000101 and on the fourth measure - code 001011, i.e. in accordance with table. Figure 2 message ID.

When using computers as transmitting and receiving points in them, the CGs are implemented programmatically and after receiving messages by email with the CG operating mode, the message is decoded with it, and when using city phones for encoding and decoding, subscribers manually use tables (such as those shown in FIG. 1), replacing the work of the TF.

Claims (3)

1. A method of transmitting information inaccessible to third parties, characterized by the use by transmitting and receiving subscribers (Ab per and Ab pr) of the same cyclic generators (TG) that allow changes in their operating mode, and the first informs the second before transmitting the message from Ab per to Ab pr the specified operating mode, which is set on the transmitting and receiving points of the CG, the entire message is transmitted in portions corresponding to the letters of the alphabet used, while on the CG on each sync clock change its binary code in the set p press and compare the resulting binary code with the binary code of the transmitted letter of the alphabet until they match, counting the number of synchro-tacts spent, which is transmitted instead of the corresponding letter of the alphabet via the communication channel from the transmitting point to the receiving one, in which the current alphabet letter is reproduced in the same mode in the same mode having carried out on the Central Executive Board the number of modifications of its binary code equal to the number of spent sync clocks at the transmitting point, they act similarly for each regular letter of the transmitted message, differing in m, that as the points of transmission and reception of information using cellular mobile phones of subscribers Abper and Ab pr, and as a communication channel - a specific network of cellular mobile phones, while providing advance technical support for the method by embedding in the selected model of cellular mobile phones for Ab per and Ab pr microcircuit containing a specific CG with the ability to switch its operating modes, and the corresponding control circuit and by introducing into this model additional options “coding”, by which alternately binary codes of message letters are converted to coded binary codes on CG Ab for subsequent transmission over the radio channel of the cellular mobile telephone network used, and “decoding”, by which the opposite is performed on the CG Ab pr with respect to the “coding” option, in addition, Ab per and Ab number and register in the random access memory of their mobile phones the possible operating modes of the CG, immediately before transmitting the encoded message Ab per sets on their mobile phone to Lefone, the option “coding” and the number of the operation mode of the CG and informs by voice this is Ab Pr, which sets the option “decoding” and the number of the operation mode of the CG on his mobile phone, then Abper dials a message on his mobile phone, which is converted to the CG alternately for each letter and is accumulated in the output buffer of a mobile phone, from where, according to the standard “ready” option, a message in the form of a modulated radio signal is issued entirely over the radio channel of the network, having received a modulated radio signal from the network, Ab pr there are inverse operations — channel decoding and decoding to the mobile phone central bank of the AB Pr, which is a conversion by each letter of the corresponding binary code of the number of clock cycles of the central bank into the binary code of the message letter that is displayed on the mobile phone screen of Ab pr, with the message reversed side, when Ab pr becomes Ab per, carried out similarly. 2. The method according to p. 1, characterized in that personal computers are used as points of transmission and reception of information, and the Internet is used as a communication channel, while CGs, their operating modes and process control are implemented programmatically. 3. The method according to p. 1, characterized in that stationary landline telephones are used as information transfer and reception points, and a city landline telephone network is used as a communication channel, while the message is encoded and decoded by Abper and Ab pr manually, using tables, and encoding modes and encoded messages are transmitted over the phone by voice.

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