WO2014126503A1 - System for transmitting and receiving information - Google Patents

Abstract

The invention relates to systems for transmitting and receiving data by means of a digital connection. The technical result is an increase in the efficiency of information transfer between two transmit and receive sides. One of the transmit and receive sides may transmit initial information by means of a control subsystem, and the other side may receive initial information by means of a control subsystem. The transmit side comprises: a unit for representing initial information as a corresponding sequentially and consecutively numbered set of whole numbers, units for transforming this set of numbers with elements of the proposed transform which are known only on the transmit side, and units for transforming the received set of numbers with elements of the proposed transform which are known only on the transmit side and for enabling the transmission of the set of numbers to the receive side. The receive side comprises: units for transforming the received set of numbers with elements of the proposed transform which are known only on the receive side and which enable transmission of the set of numbers to the transmit side, and units for transforming the received set of numbers with elements of the proposed transform which are known only on the receive side, said units being capable of recovering the representation of the initial information as a corresponding set of whole numbers and recovering the initial information in accordance with the set of numbers.

Description

 Title of invention:

 Information Transmission and Reception System

 Technical field

 The invention relates to communication technology, and more specifically to a system for transmitting and receiving information (SPPI) through digital communication. The problem of increasing the technical and economic efficiency of information transmission and reception systems, taking into account all the components that affect their cost and technical indicators, including confidentiality, is relevant, which, in turn, requires the development and improvement of SPS.

 State of the art

Foreign and Russian technical solutions are known, which are analogues of the proposed SPPI. So, SPPI [Radio Engineering: Encyclopedia / Ed. Yu.L. Mazora et al. - M.: Dodeka-XXI Publishing House, 2002, p.63-64] contains functionally sequentially connected information source, physicoelectric information converter, encoder, transmitting device, communication channel, receiving device, decoder, electrophysical information converter, information consumer. The features of this SISP are implemented, in essence, in all relevant systems. Another SPPI [Sklyar Bernard. Digital communication. Theoretical foundations and practical application. Ed. 2nd fix : per. from English - M.: Publishing House "Williams", 2004. - 1104 p. 32-36] contains a sequentially functionally related information source, a subsystem for generating a digital binary bit stream, and optionally including a formatting unit, a compression unit and a compression unit, a digital stream to signal converter, a transmitter, a communication channel, a receiver, a signal flow converter into a digital stream, a conversion subsystem whose functions are inverse to the functions of the subsystem information consumer and functionally related subsystem synchronization. There are also well-known SPPIs in which digital information is converted in their respective blocks, which ensures increased confidentiality of transmission (Panov V.P., Prikhodko V.V. Patents 5 J RU 2J42 2327283, 2327284, 2336644, 2336645, 2340097, 2340098, 2340107, 2340097, 2341026, etc.).

 Disclosure of invention

 The objective of the claimed system is to increase the technical and economic efficiency of the SISP between two transceiver parties due to the fact that the transmitting side contains a unit for presenting the initial information corresponding to it in an orderly sequentially numbered set of integers, conversion blocks of this set of numbers with elements of the proposed conversion, known only on the party transmitting the source information, and ensuring its transfer to the receiving-

15 side source information. The receiving side contains conversion blocks of the received set of numbers with elements of the proposed conversion known only on this side and ensuring its transmission to the transmitting side. In addition, the transmitting side contains blocks for converting the received set of numbers with elements of the proposed

20 transformation, known only on this side, and ensuring its transfer to the receiving side. The receiving side also contains conversion blocks of the received set of numbers with elements of the proposed conversion known only on this side, and configured to restore the presentation of the source information accordingly

25 by the totality of integers and recovery from this totality of numbers of the source information.

To achieve the specified technical result, a system of transmitting and receiving information between two transceiver parties, at least one of which can be transmitting the source information and containing a control subsystem that provides the transfer of the source information the formation, respectively, which receives the initial information and contains a control subsystem that provides the reception of the initial information (and, if necessary, the other way around as well), contains on the side transmitting the initial information the unit for connecting to the source of information functionally connected with the presentation unit initial information, performed with the possibility of presenting information by one of the known methods of corresponding to it an orderly sequentially numbered set of integers xl _k , where the index k varies from 1 to a given value K ₀ , and the numbers xl ^ take values from a given set of numbers, the unit for presenting the initial information is functionally connected with the block for generating elements D., made with the possibility of forming elements from numbers xl _k a rectangular matrix [d.] with dimension Μχ Ν, where M and Ν are given natural numbers known on both transceiver sides, and in this and in the following matrices the index r corresponds to the row number, the index j corresponds to the column number, for each value I, the index k, varying from 1 to Κ ₀ <Μ ^χ Ν, and if necessary, when Μ = Ν for each value of the index k, varying from 1 to K _Q <Ν ² - 2Ν, determined in accordance with the expression y \ .. = x \ _k , while the values of the indices i and j are mainly determined sequentially in accordance with the expressions i = {k - \) divN + \, where A divB is the integer part when dividing the integer

And by an integer B, and j = k - (i - \) N, and in the case of incomplete filling of the matrix

[] as each of the missing elements is used, for example, an integer χθ given and known also on the side receiving the initial information, which is not included in the set of numbers used for the numbers xl _k , the element forming unit is functionally connected with the element forming unit zl . made with the possibility of forming elements zl. mate

rits [zl _y ] with dimension Μ ^χ Ν in accordance with the expression zl. = ^ a _lr yl _rj . , in this case, the unit for forming elements zl _{v is} functionally connected with the unit for preparing and storing the given elements a \ ^, b \ _and , made with the possibility of forming mainly from integer numbers of elements a \ _{jJ of a} square matrix [a ₍ ,] with dimension Мх M defined in such a way that its determinant det [al, _y ] is not equal to zero, and the elements, the transposed matrix of algebraic complements of the elements a \ _h in the said determinant of the matrix [al _y ], in addition, the unit for generating elements zl. is made with the possibility mainly through contact e detachable connection of connection to a removable unit for writing, storing and reading elements z \ _y , which is made with the possibility of its connection mainly through a contact detachable connection to the unit for generating a set of numbers x2 _k , made with the possibility through formed and read elements zl. determining the corresponding ordering of a sequentially numbered set of integers x2 _k in accordance with the expression x2 _k = z \ _tJ , where the values of the index k are determined in accordance with the expression k = (i-l) N + j by enumerating for each index value from 1 to M the values of index j from 1 to N, the unit for generating a set of numbers x2 _{k is} functionally connected with the unit for converting a set of numbers x2 _to one of the known methods and for transmitting, including, if necessary, signals, compatible with the communication channel, on the side receiving the initial information through the receiver-transmitter of the side transmitting the initial information, and on the side receiving the source information, the system contains the receiver-transmitter of the source information tion side operatively connected through a communication channel with the receiver-transmitter of the transmitting side of the initial information and identification unit of the received signals corresponding _{to the} set of numbers x2, which is operatively associated with the recovery unit _to aggregate numbers x2 configured to restore known in source party in the opposite way to the mentioned ordered set of numbers x2 _k , where the values of the index k vary from 1 to K _x - Μ ^χ Ν, and the block for reconstructing the set of numbers x2 _{k is} functionally connected with the unit for forming elements y2 _y , which is configured to form the numbers x2 _{k of the} elements y2y of a rectangular matrix [> 2, _y ] with dimension Μ ^χ Ν for each value of the index k, varying from 1 to .K, defined in accordance with the expression y2 _q = x2 _k , while the values of the indices and / are determined sequentially in accordance with the expression iyami i = (k - l) divN + l and j = k - (i -l) N, besides forming unit elements y2 _v configured to advantageously che Res detachable connection pin connecting the removable unit to record, save and reading elements y2 _c , which is made with the possibility of its connection mainly through a contact detachable connection to the unit of formation of elements z2 _tJ , made with the possibility of through the formed and read elements of y2 of the formation of elements z2 _{y of the} matrix

 N

[ ^r2 ,] ^with dimension Μ ^χ Ν in accordance with the expression z2 _iJ = ^ _i y2 _lr a2 _rJ , for r = 1

this is a block forming elements z2. functionally associated with the unit for the preparation and storage of the given elements a2, b2 ₀ , configured to form mainly from integer numbers a2 _{tj of the} square matrix [2 2 _(J ] with dimension Ν ^χ Ν defined in such a way that the determinant det [tf2 ,] is non-zero, and the elements 62 ^ of the transposed matrix of algebraic complements of the elements α2 _ν in the mentioned determinant of the matrix

с размерностью Μχ Ν для каждого значения индекса к , изменяющегося от 1 до^ , определяемых в соответствии с выражени- ем у3₀ = хЗ_к , при этом значения индексов / и j определяются последовательно в соответствии с выражениями i = (k -\)divN + \ и j = k - (i - \) N , кроме того, блок формирования элементов уЗ_у выполнен с возможностью преимущественно че- рез контактное разъёмное соединение подключения к съёмному блоку записи, сохранения и считывания элементов уЗ , который выполнен с возможностью его подключения преимущественно через контактное разъёмное соединение к бло- ку формирования элементов z3 , выполненному с возможностью через сформи- рованные и считанные элементы 3 формирования элементов z3 матрицы [o2. ], in addition, the element formation unit z2 _i} is configured to connect mainly to the removable unit for writing, storing and reading elements ζ2 _ν , which is configured to connect it mainly through the contact connector to the aggregate unit numbers x3 _k performed with the possibility, through the generated and read elements z2, _{y, of} determining the corresponding orderly sequentially numbered set of integers x3 _k in accordance with the expression x3 _k = ζ2. , where the values of the index k are determined in accordance with the expression k = (i - \) N + j by enumerating for each value of the index i from 1 to M the values of the index j from 1 to N, the block of forming the set of numbers x3 _{k is} functionally connected with a unit for converting a set of numbers x3 _k made with the possibility of converting a set of numbers x3 _to one of the known methods and providing transmission, including, if necessary, signals compatible with the communication channel, to the side transmitting the initial information through the transceiver the source information side, and on the side transmitting the source information, the system comprises a unit for identifying received signals corresponding to the set of numbers x3 _k , functionally associated with a transmitter-receiver of the side transmitting the initial information and with a block for recovering the set of numbers x3 _k , made with possibly - Stu recovery known on the transmitting side means the original information, the inverse of said ordered set of numbers xs _k, where the index value to vary from 1 to K _x = Μ ^χ Ν, and bl The aggregate of the recovery numbers xb _functionally linked to elements forming unit U3, which is configured to generate the numbers of Xs _to a rectangular matrix of elements y3

with dimension Μχ Ν for each value of the index k, varying from 1 to ^, determined in accordance with the expression y3 ₀ = x3 _k , and the values of the indices / and j are determined sequentially in accordance with the expressions i = (k - \) divN + \ and j = k - (i - \ ) N, furthermore, the block forming elements _at ultrasonic configured to advantageously che Res detachable connection pin connecting the removable unit to record, save and ultrasonic sensing elements, which is adapted for its connection mainly through a contact plug to block the formation of elements z3 made with the possibility through the formed and read elements 3 of the formation of elements of the matrix z3

 m

23 _& ] with dimension Μχ Ν in accordance with the expression z3 _fJ = ^ _1г уЗ ₎ п and under the condition that the above det ^ l ^] is equal to unity, otherwise, in accordance with the expression 3 _1} = \ ^ B \ _1g y3 ^ / det [al, _y ], while the unit for forming elements z3 _{y is} functionally connected with the unit for preparing and storing given elements a \ ₀ , b. in addition, the unit for forming elements g _and is configured to connect mainly to the removable unit for recording, storing and reading elements z3 _y via a contact detachable unit, which is configured to connect it primarily through a contact detachable unit to the unit for generating a set of numbers x4 _k , adapted to be formed through the element and a few cops Σ3 determining their corresponding numbered sequentially ordered set of integers x4 _to acc obstacle with expression x4 _to = ζ3, wherein the index value to be determined according to the equation k = {i - \) N + j by sorting for each value i of the index from 1 to M of the index j is 1 to iV, forming unit set of numbers x4 _{k is} functionally connected with the block of converting the set of numbers x4 _to one of the known methods and for transmitting, including, if necessary, signals compatible with the communication channel, to the side receiving the initial information through the transmitter-receiver side transmitting the initial information, and when The system that contains the source information contains a unit for identifying the received signals corresponding to the set of numbers x4 _k , functionally connected with the receiver-transmitter of the side receiving the initial information and with the recovery unit of the set of numbers xL _k , which can be restored to the side known on the source of the information in the opposite way to the above-ordered of a set of numbers x4 _k , where the values of the index k vary from 1 to L, and the block for reconstructing a set of numbers x4 _{k is} functionally connected with the block for generating elements y4 _(J , which is made with the possibility of forming from numbers x4 _{k the} elements y4 of a rectangular matrix [y 4 ^ with dimension Μ Ν for each value of the index k, varying from 1 to ^, determined in accordance with the expression _y = x4 _k , while the values of the indices / and j are determined sequentially in accordance with the expressions i = {k - \) divN + \ and j = k - (i - \) N, in addition, the formation block _n elements y is configured to advantageously detachable connection via a contact connecting the removable unit to record, save and reading elements y4 _and koto- ing configured to connect it through a preferably detachable connection to a contact block forming elements z4 _y, made with the possibility through the generated and read elements y4 of forming elements z4 _{y of the} matrix [z4 ₍ ] with dimension Μχ Ν in accordance with

 Ν

by the expression z4 ₀ = ^ y _ir b2 _rj provided that the above det [a2 _(/ ] is equal to one, otherwise in accordance with the expression z4 ₍ = ^ 4 _ir 62 _fy / det [tf2,], and the block the formation of elements z4 _{tj is} also functionally connected with the unit for preparing and storing the given elements al _i bl _i; in addition, the unit for forming elements z4 _{i is} functionally connected with the unit for generating a set of numbers x5 _k , configured to determine the corresponding elements in order z4 _v in sequence numbered integer x5 _k in accordance with the expression x5 _k = z4 _tj , where the values of the index k are determined in accordance with the expression k = (i - \) N + j by enumerating for each index value / from 1 to M the values of the index j from 1 to N, block the formation of a set of numbers x5 _{k is} functionally connected with the recovery unit the accumulation of numbers x \ _k , which is made possible after eliminating the indicated numbers xO from the set of integers x5 _to restore the specified set of integers xl _k , where the index values k vary from 1 to the given value K ₀ , and the recovery unit of the set of numbers x \ _to functionally linked to restore the original information unit configured to aggregate received by numbers x \ _to restore original information known at the receiving side the original information a way, the inverse mentioned th initial information presentation method for transmitting original information side, moreover, the transmission and receiving system information comprises a control subsystem her work.

 In the current level of technology, no sources of information have been identified that would contain information about objects of the same purpose with the indicated set of distinctive features, which allows us to consider the SPPI according to the present invention as new and having an inventive step.

 The implementation of the invention

The SISP of the present invention can be embodied in a digital communication system with the appropriate organization of its work and known signal processing methods. Below the invention is described in more detail with reference to the figure. The figure shows the inventive system. It contains the source information transmitting and containing the control subsystem that provides the source information transfer, side 1 and the source information receiving and the control subsystem that provides the source information reception, side 2. On the side 1 the system contains functionally connected block 3 connection to the source of information, block 4 of the presentation of the source information, block 5 of the formation of elements y \ _y , block

7 preparation and storage of the given elements a \ _q , b ₀ . , a removable unit 8 for recording, storing and reading elements z \ _tJ , a unit 9 for generating a set of numbers x2 _k , a unit 10 for converting a set of numbers x2 _k and ensuring their transmission, a transmitter-receiver 11 of side 1, a communication channel 12. On side 2 of the system The ma contains sequentially functionally connected receiver-transmitter 13, a block 14 for identifying received signals corresponding to a set of numbers & l x2 _k , a block 15 for recovering a set of numbers x2 _k , a block 16 for generating elements of y2 _y , a removable block 17 for recording, saving and reading elements of y2 _c , block 18 for forming elements g2 _and , block 19 for preparing and storing predetermined elements a2 _y , b2 _y , removable block 20 for writing, storing and reading elements z2 _y , block 21 for generating a set of numbers x3 _k , block 22 for converting a set of numbers x Z _to and ensuring their transfer. On the side of the system 1 also comprises in sequence operably linked identification unit 23 of the received signals corresponding _{to the} set of numbers xb unit 24 regenerate an aggregate numbers HZ _to block 25 forming the ultrasonic elements _have, ny som- recording unit 26, and saving ultrasonic sensing elements _y , block 27 of forming elements z3 _tj , removable block 28 of writing, saving and reading elements z3 _y , block 29 of forming a set of numbers x4 _k , block 30 of converting a set of numbers x4 _k and ensuring their transmission. On the side 2, the system also contains sequentially functionally connected unit 31 for identifying received signals corresponding to a set of numbers x4 _k , block 32 for recovering a set of numbers x4 _k , block 33 for generating elements y4 _v , a removable unit 34 for writing, saving and reading elements y4 _y , block 35 for generating elements ζ4 _ν , block 36 for generating a set of numbers x5 _k , block 37 for recovering a set of numbers x _k , block 38 for restoring the original information. In addition, the system contains a subsystem 39 for controlling its operation.

The proposed system works as follows. On the transmitting side 1 in block 3, the system is connected to a source of information, which in block 4, using one of the known methods, is represented by the corresponding orderly sequentially numbered set of integers x \ _k , where the index values k vary from 1 to a given value K ₀ , and the numbers xl _{k take} values from a given set of numbers. In block 5 of these numbers, respectively Together with the expression 1 ₀ = x \ _k , the elements y \ _{tj of the} rectangular matrix [ _y ] with dimension Μ Ν are formed for each value of the index k, varying from 1 to Κ ₀ <Μ ^χ Ν, and if necessary, with M = N for each value of the index k, varying from 1 to K ₀ <N ² - 2N. Moreover, the values of the indices i and j are mainly determined sequentially in accordance with the expressions i = (k - \) divN + \, where A divB is the integer part when dividing the integer A by the integer B, and j = k - (i - \) N. In the case of incomplete filling of the matrix [Ί _{5 ·} ], each of the missing elements is used, for example, the integer JCO given and known also on the second side, which is not included in the set of numbers used for the numbers xl _k . In block 6, the elements z \ _{u of the} matrix are formed

 m

[zl _{i; /} ] with dimension Μ ^χ Ν in accordance with the expression zl _v = ^ al _ir yl _rJ , while in block 6 the values of the elements y1 _y and ol. come respectively from blocks

5 and 7. In order to exclude, if necessary, direct connection of the listed blocks with the transmitter-receiver 11, the block 6 is connected mainly via a contact detachable connection to a removable block 8 for recording, storing and reading elements, and block 8, in turn, is configured to connecting to the mains through the contact preferably detachable connection to the block 9, which defines an ordered sequentially numbered The aggregate x2 integers _k in accordance with the expression _for x2 = z \ _tJ, where the index values to be determined acc Corollary to the expression k = (i -i) N + j posredst- vom iterate for each value of the index / 1 to M values of the index j from 1 to N. Block 9 is functionally connected with block 10, in which the set of numbers x2 _{k is} transformed by one of the known methods and provide transmission, including, if necessary, signals compatible with the communication channel, to side 2 through the transmitter-receiver 11 of side 1. On the side 2, the transceiver 13 receives the transmitted signals, identifies them in block 14 according to the combination of numbers x2 _k , and in block 15, made with the possibility of recovery known in side 2 by the opposite method. After that, restore an ordered set of numbers x2 _k , where the values of the index k vary from 1 to Κ _λ = Μ ^χ Ν.

с размерностью Μ Ν для каждого значения индекса к , изменяющегося от 1 до К^ , при этом значения индексов и j определяются последовательно в соответствии с выражениями i = (k - l) divN+ l и j = k - (i- l) N .In block 16 of these numbers, in accordance with the expression y2 = x2 _k , matrix elements are formed

with dimension Μ Ν for each value of the index k, varying from 1 to K ^, while the values of the indices and j are determined sequentially in accordance with the expressions i = (k - l) divN + l and j = k - (i-l) N.

To exclude, if necessary, direct connection of subsequent blocks with the transmitter-receiver 13, block 16 is connected mainly via a contact plug-in connection to a removable block 17 for recording, storing and reading elements y2 _v , and block 17, in turn, is configured to switching mainly through a contact detachable connection to block 18. In block 18, the elements g2 _{c of the} matrix [z2 ₍ ] with dimension Μχ Ν are formed in accordance with the expression z2 _v = ^ 2 _jr a2 _rJ , while in block 18 the values of the elements ^ 2 . and a2. come respectively from the block 17 and 19. In order to exclude, if necessary, the direct connection of block 18 with the transmitter-receiver 13, block 18 is connected mainly via a removable contact connection to a removable block 20 for writing, saving and reading elements z2 _y , and block 20, in turn, is made with the ability to connect via the contact preferably detachable connection to the block 21, which determines an ordered set of sequentially numbered integers _to xs in accordance with the expression hz _to = z2 _y, where the index values to be determined in accordance expression k = (i - l) N + j iterate through the index values for each / 1 to M values of the index j from 1 to N. Block 21 is functionally connected to block 22, in which the set of numbers xb _{k is} transformed by one of the known methods and provide transmission, including, if necessary, signals compatible with the communication channel, to side 1 through the side transceiver 13 2. On side 1, the transceiver 11 receives these signals, they are identified in block 23 by the correspondence of the set of numbers x3 _k , and in block 24, configured to be restored by the method opposite to the one known on side 1, the ordered set of numbers x3 _{k is} restored, where the values of the index k vary from 1 to K _j = MxN. In block 25 of these numbers in accordance with an expression _q = kt HZ _to form elements of the matrix [3] with dimension Μ Ν for each value of index k varying from 1 to I ^, and the values of the indices / and j op- are sequentially distributed in accordance with the expressions i = (k-l) divN + 1 and j = k - (i - \) N. To exclude if necessary direct communication of subsequent blocks transceiving transmitter 1 1 block 25 is connected preferably via a contact detachable connection to the removable unit 26 record, save and reading elements ultrasonic _y, and the block 26, in turn, is adapted to connect it mainly through contact detachable connection to block 27. In block 27, the elements z3 _{y of the} matrix [g3 _(/ ] with the dimension

 m

Μχ Ν in accordance with the expression z3. = ^ bl _ir y _rJ provided that the said r = 1

det [al ₉ . J is equal to one; otherwise, in accordance with the expression,

step respectively from blocks 26 and 7.

To exclude, if necessary, direct connection of block 27 with the transceiver 1 1, block 27 is connected mainly via a contact plug-in connection to a removable block 28 for writing, saving and reading elements z3 _j . and block 28, in turn, is configured to connect it primarily through a plug-in connector to block 29, in which the ordering is determined by a sequentially numbered set of integers x _k in accordance with the expression x4 _k = ζ3. , where the values of the index k are determined in accordance with the expression £ = (; ^' - l) N + j by enumerating for each index value from 1 to M the values of the index j from 1 to N. Block 29 is functionally connected to block 30, in which the set of numbers x4 _{k is} transformed by one of the known methods and provide transmission, including, if necessary, signals compatible with the communication channel to side 2 through the transmitter-receiver 11 of side 1. On the side 2, the transceiver 13 receives the transmitted signals, identifies them in block 31 for matching the set of numbers x4 _k , and in block 32, configured to be restored in a manner known in reverse to the other side 2, the ordered set is restored l numbers x4 _k , where the values of the index k vary from 1 to Κ ^ Μ ^χ Ν. In block 33 of these numbers in accordance with the expression y ₀ .

с размерностью Μ Ν для каждо- го значения индекса к , изменяющегося от 1 до£, , при этом значения индексов ί и j определяются последовательно в соответствии с выражениями г = ( к - 1) divN + 1 и j = k - (i - l)N . Для исключения при необходимости прямой свя- зи последующих блоков с приёмо-передатчиком 13 блок 33 подключён преиму- щественно через контактное разъёмное соединение к съёмному блоку 34 записи, сохранения и считывания элементов у . , а блок 34, в свою очередь, выполнен с возможностью его подключения преимущественно через контактное разъёмное соединение к блоку 35. В блоке 35 формируют элементы z4_v матрицы [z4,..] с

with dimension Μ Ν for each value of the index k, varying from 1 to £, and the values of the indices ί and j are determined sequentially in accordance with the expressions r = (k - 1) divN + 1 and j = k - (i - l) N. To exclude, if necessary, direct connection of subsequent blocks with the transmitter-receiver 13, the block 33 is connected mainly via a contact detachable connection to a removable block 34 for writing, storing and reading elements y. , and block 34, in turn, is configured to connect it mainly through a contact plug connection to block 35. In block 35, elements z4 _{v of the} matrix [z4, ..] are formed with

 N

dimension Μ ^χ Ν in accordance with the expression z4 _j = ^' T y4 _ir b2 _rJ provided that the above det [a2. ] is equal to one, otherwise in accordance with

 f N λ

expression z4 _y . = ^ y4 _ir b2 _rJ / det [a2 _{i /} ], while in block 35 the values of the elements y4 and 62, ^ come from blocks 34 and 19, respectively, Block 35 is connected to block 36, in which the order is numbered sequentially numbered the set of integers x5 _k in accordance with the expression x5 _k = z4 _i} , where the values of the index k are determined in accordance with the expression k = (ii) N + j by enumerating for each index i from 1 to M index values y from 1 to N. Block 36 is connected to block 37, in which the indicated numbers xO are excluded from the set of integers x5 _k and the presentation of the source information is restored by the corresponding set of integers x \ _k , where the values of the index k vary from 1 to a given value of K ₀ , and in block 38, the original information is restored in a manner known on the side 2 inverse to the above-mentioned method of presenting the initial information on the side 1.

We illustrate the implementation of the inventive system with two examples of transmission and reception of a text message - the word PANOV. In the first example, we use the 6-bit ASCII encoding [Sklyar Bernard. Cit. p. 90]: P - 000010, A - 100000, N - 01 1100, O - 111100, V - 011010. The initial information transmitted by the first side in block 4 is represented by the corresponding orderly sequentially numbered set consisting of 30 integers xl _k from a set of numbers 0 and 1 (index k varies from 1 to ϋ ₀ = 30): 000010100000011100111100011010. Of these numbers, elements of a rectangular matrix [,] with dimension Μχ Ν, are formed in block 5, Where

M and Ν are given natural numbers known on the first and second sides (in this example, M = 8, Ν = 4) for each value of the index k, determined in accordance with the expression = x \ _k , while the values of the indices r and j are determined - are divided sequentially in accordance with the expressions i = {k - \) div4 + 1 and

 0 0 0 0

 1 0 1 0

 0 0 0 0

 0 1 1 1

j = k - {i - l) 4: [yl _f ] = 0 0 1 1 The number of elements in the matrix is 32, and the number is 1 1 0 0

 0 1 1 0

 1 0 2 2

the number of numbers is 30. Therefore, the last row of the matrix is supplemented by two missing elements, for which we use the number x0 - 2, also known on the second side and not included in the set of numbers 0 and 1 used for the numbers x \ _k . On the first side, in block 7, the elements α \ _{ν of the} square matrix [al _(y ] with dimension 8x8, det ^ l ^] are formed from integers the swarm is equal to unity, and the elements s. the transposed matrix of algebraic complements of the elements αΐ .. of the determinant of the matrix, which in the case of the diagonal matrix coincides with the inverse. In the example, this is done quite simply using the lower and upper triangular matrices whose diagonal elements are equal to unity. The determinants of such matrices, as well as products of their arbitrary number, are equal to unity. Their inverse matrices are simply determined. The determinant of the inverse matrix is also equal to unity. Given lower AM and upper A \ 2 triangular matrices and certain corresponding inverse matrices A1 ^{1 1} and A12 ^'1 have the form:

The matrices formed in them in block 7 and> l _iy ] have the form:

, . Далее в соответствии с

выражением z\_fJ = ^ a\_iryl_rJ в блоке 6 с использованием блока 7 сформированы г=1 On the second side, in block 19, the lower and upper triangular matrices and the inverse matrices [o2. ] and [ζ> 2 ..], which have the form:

, . Further in accordance with

the expression z \ _fJ = ^ a \ _ir yl _rJ in block 6 using block 7 formed r = 1

 1 1 3 3

 2 2 5 4

 1 1 2 1

elements z \ _{y of the} matrix 1 2 1 1

 1 2 2 2 with dimension 8x 4 and in block 9 define 1 1 1 1

 2 3 4 3

 2 3 4 3

to the corresponding orderly sequentially numbered set of integers x2 _k in accordance with the expression x2 _k = z \ _{: J} , where the values of the index k are determined in accordance with the expression k = (/ -1) 4 + j by enumeration for each value of index i from 1 to 8 values of index j from 1 to 4: 11332254112112111222111123432343.

The set of integers x2 _k in block 10 is transformed by one of the known methods and transmitted, including, if necessary, by signals compatible with communication channel 12, to the second side using transceivers 11 and 13 and the method known to it inverse to the aforementioned , in block 14, they are identified, and in block 15, the ordered set of integers x2 _{k is} restored, where the values of the index k vary from 1 to K _x - 32. Elements of y2 _{and a} rectangular matrix formed in block 16 of these numbers [j> _{2) y]} with dimension 4 8x for each value of The index k izmenyayusche- Gosia from 1 to 32, are determined according to the equation x2 y2 = _k, wherein the values of the indices i and j are determined sequentially in accordance with the expressions i = (k - l) div4 + l and j = k - i- 1) 4 (that is, the matrix [^ 2, ..] will have the form

four

rits [zl ^]). On the second side, in accordance with the expression z2 _y = ^ 2 _ir 2 _rj in

r = l block 18 using block 19 form the elements ζ2 _υ matrix with dimension 8x 4 and in block 21 determine the appropriate

which he orderly sequentially numbered the whole number of xZ _k in accordance with the expression x3 _k = ζ2 _υ , where the values of the index k are determined in accordance with the expression k = (/ -1) 4 + j by enumerating for each index value / from 1 up to 8 index values from 1 to 4: 8 9 And 1 1 13 15 18 17 5 6 7 6 5 7 6 6 7 9 9 9 4 5 5 5 12 15 16 15 12 15 16 15. The specified set of integers x3 is converted _to a block 22 in a known manner and transmitted, including the signals necessary sovmestimy- E to the communication channel on a first side and a known thereon od th inverse mentioned are identified in block 23 and block 24 is reduced in an ordered set of integers _to xs, where the index values to vary from

с раз- мерностью 8x4 для каждого значения индекса к , изменяющегося от 1 до 32 , определяемые в соответствии с выражением уЗ_у = хЗ_к , при этом значения ин- дексов / и j определяются последовательно в соответствии с выражениями i = (k - l)div4 + \ и у^' = А; - (/ -1)4 (эта матрица будет иметь вид матрицы [z2,_y] ). На 1 to A, = 32. Form the elements of the matrix in block 25 similarly

with dimension 8x4 for each value of the index k, varying from 1 to 32, determined in accordance with the expression уЗ _у = хЗ _к , while the values of the indices / and j are determined sequentially in accordance with the expressions i = (k - l) div4 + \ and y ^' = A; - (/ -1) 4 (this matrix will look like the matrix [z2, _y ]). On

 8

the first side in accordance with the expression z3 _i} = 'b \ _lr y3 _l} form in the block

0 0 0 0

 2 2 3 2

 0 0 0 0

 27 using block 7 elements 3 4 4 4

z3 _{; j} matrices [ζ3 _& ·] = 2 2 3 3 with size 2 3 2 2

 2 3 3 2

 5 5 7 7

8 4 and in block 29 determine the corresponding orderly sequentially numbered set of integers x4 _k in accordance with the expression x4 _k = z3 _tj , where the values of the index k are determined in accordance with the expression k = (/ -1) 4 + j by iterating over each index value i from 1 to 8 values of the index y from 1 to 4: 00002232000034442233232223325577. The specified set of integers x4 _k in block 30 is converted using one of the known methods and transmitted, including, if necessary, by signals compatible with the communication channel, to the second side and in a manner known opposite to it, is identified on it in block 31 and the ordered set of integers x4 _{k is} restored in block 32, where the index values k vary from 1 to K = 32. Elements of a matrix with dimension 8 are formed in block 33 in the same way x 4 for each index k, of enyayuschegosya from 1 to 32 determined according to the equation _y = x4 y4 _to, the values of the indices j and determined sequentially in accordance with by expressions / ^'= (k - 1) div4 + 1 and j = k - ( d - 1) 4 (this matrix will have the form of the matrix [z3 _y ]).

On the second side in block 35 using block 19 in accordance with

z4 _tJ

dimension 8x 4. This matrix completely coincides with the matrix [y] · From it, in block 36, the corresponding orderly sequentially numbered set of integers x5 _k is determined in accordance with the expression x5 _k = ζ, where the values of the index k are determined in accordance with the expression k = (i -1) 4 + j by enumerating for each index value from 1 to 8 index values y from 1 to 4: 00001010000001110011110001 101022. After excluding the numbers x0 = 2 from the specified set of integers x5 _k in block 37, the set of numbers is restored xl _k (00001010000001110011 110001 1010) and according to the obtained set x \ _to the method known on the second side, the inverse of the above method of presenting information, in block 38, the original information (PANOV) is restored. We also consider the second example with the same initial information transmitted by the first side as in the first example, and use the mentioned representation in block 4 as an ordered sequentially numbered collection consisting of 30 integers from the set of numbers 0 and 1 ( 000010100000011100 111100011010 000010100000011100111 100011010). Imagine this collection as another orderly sequence numbered as x \ _{k of} ten integers 0240347432 from a set of numbers

с размерностью0,1,2, ..., 7, obtained by dividing the first population into groups of three numbers and considering each group as an octal number, which corresponds to an integer from the set of numbers 0,1,2 7. Further, from these numbers in block 5 formed the elements of a rectangular matrix

with dimension

Μχ Ν, where M and Ν are given natural numbers known on the first and second sides (in this example, M - 4, N = 3) for each value of the index k, determined in accordance with the expression y \ _fJ = x \ _k , while the values of indices and j are determined sequentially in accordance with the expressions

/ = (* -l) Av3 + l and / = £ - (/ - 1) 3: [yl _tj ^~ . The last line uses the number x0 = 8 as the missing two elements, which is not included in the set of numbers used for the numbers x \ _k . On the first and second sides in blocks 7 and 19 also form

[a2 _y ] =

дополнений элементов a2_v определителя матрицы [<з2. ] в виде [b2_v ^~ Далее в соответствии в блоке 6 с использование блока 7 с выражением в блоке 6 с использование блока 7 формируют элементы zl. мат-

complement of elements a \ _{tj of the} determinant of the matrix [l _y ] in the form of a transposed matrix of algebraic

complements of the elements a2 _{v of the} determinant of the matrix [<s2. ] in the form [b2 _v ^~ Further, in accordance with block 6 s, use block 7 with the expression in block 6 using block 7 form elements zl. mat-

 (23 22 gL

RITZA [r \ _y = 9 17 19

 11 28 31 and in block 9 determine the corresponding ordered

\ 2 10 12)

с размерностью 4x3 для каждого значения индекса к , изменяющегося от 1 до 12 , определяются в соответствии с выраже- нием y2_v = х2_к , при этом значения индексов / и j определяются последова- тельно в соответствии с выражениями i = (k - \) div3 + l и _/ ^' = £ - (/-1)3 (т.е. матрица будет иметь вид матрицы [zl₍. ] ). На второй стороне в соответствии с вы- з but a sequentially numbered set of integers x2 _k in accordance with the expression x2 _k = z \ _y , where the values of the index k are determined in accordance with the expression = = (* ^' - 1) 3 + y by enumerating for each value index / from 1 to 4 values of index j from 1 to 3: 23 22 21 9 17 19 1 1 28 31 2 10 12. The set of integers x2 _k in block 10 is transformed by one of the known methods and transmitted, including when the need for signals, compatible with the communication channel, to the second side and in a manner known in it on the opposite side, are identified in the block 14 and restore in block 15 an ordered set of integers x2 _k , where the values of the index k vary from 1 to K _x = 12. The elements y2y of the rectangular matrix formed in block 16 of these numbers

with a dimension of 4x3 for each value of the index k, varying from 1 to 12, are determined in accordance with the expression y2 _v = x2 _k , while the values of the indices / and j are determined sequentially in accordance with the expressions i = (k - \) div3 + l and _/ ^' = £ - (/ -1) 3 (that is, the matrix will have the form of the matrix [zl ₍ .]). On the second side, in accordance with the call

by z2 _fJ = ^ y2 _tr a2 _rJ in block 18 using block 19 form an

108 PO 134

cops z2 _tJ matrix 83 73 80

 132 112 120 and in block 21 determine the appropriate

48 38 38

с размерно- стью 4 x 3 для каждого значения индекса к , изменяющегося от 1 до 12 , опреде- ляются в соответствии с выражением y3_t] = хЗ_к . При этом значения индексов i и j определяются последовательно в соответствии с выражениями i = (k - \)div3 + \ и j = k -(i -\)3 (эта матрица будет иметь вид матрицы [г2,_у ] ). На he ordered a sequentially numbered set of integers x3 _k in accordance with the expression x3 _k = z2 .., where the values of the index k are determined in accordance with the expression k = (i - l) 3 + j by enumerating for each index value / from 1 to 4 values of index j from 1 to 3: 108 PO 134 83 73 80 132 112 120 48 38 38. The set of integers x3 _k in the block ke 22 is transformed by one of the known methods and transmitted, including, if necessary, by signals compatible with the communication channel, to the first side and the method known in it opposite to that mentioned, in block 23, they are identified and in block 24 the ordered set of integers x3 is restored _k , where the values of the index k vary from 1 to K _x = 12. Elements y3 _{v of the} rectangular matrix formed in block 25 of these numbers

with a dimension of 4 x 3 for each value of the index k, varying from 1 to 12, are determined in accordance with the expression y3 _t] = x3 _k . Moreover, the values of the indices i and j are determined sequentially in accordance with the expressions i = (k - \) div3 + \ and j = k - (i - \) 3 (this matrix will have the form of the matrix [r2, _y ]). On

 4 Λ

the first side according to the expression z3 _v = ^ b _ir y _rJ / det [al. ] form in block 27 using block 7 the elements z3 _{v of the} matrix [z3, _y ] =

в блоке 29 определяют соответствующую им упорядоченно последовательно пронумерованную совокупность целых чисел х4_к в соответствии с выражением х4_к = ζ3_ν , где значения индекса к определяются в соответствии с выражением Λ = (г— 1)3 + у посредством перебора для каждого значения индекса от 1 до 4 значений индекса j от 1 до 3 : 14 10 8 15 1 1 10 20 24 32 34 28 30. Совокупность чисел х4_к в блоке 30 преобразуют одним из известных способов и передают, в том числе при необходимости сигналами, совместимыми с каналом связи, на вторую сторону и известным на ней способом, обратным упомянутому, в блоке 3 1 идентифицируют и в блоке 32 восстанавливают упорядоченную совокуп- ность чисел х4_к , где значения индекса к изменяются от 1 до 12 . Сформирован- ные в блоке 33 из этих чисел элементы у4_у прямоугольной матрицы [^ . ] с размерностью 4 x3 для каждого значения индекса к , изменяющегося от 1 до 12 , определяются в соответствии с выражением у4_у = х4_к , при этом значения ин- дексов / и j определяются последовательно в соответствии с выражениями - \) div3 + \ и j = к -(/-1)3. На второй стороне в соответствии с выражением ^ 4_irb2_rj /det[a2_j; ] формируют в блоке 35 с использование блока 19 эле- менты z4₀ матрицы с размерностью 4x 3 . Эта матрица полностью

in block 29, the corresponding orderly sequentially numbered set of integers x4 _k is determined in accordance with the expression x4 _k = ζ3 _ν , where the values of the index k are determined in accordance with the expression Λ = (r - 1) 3 + y by enumerating for each index value from 1 to 4 values of the index j from 1 to 3: 14 10 8 15 1 1 10 20 24 32 34 28 30. The set of numbers x4 _k in block 30 is converted using one of the known methods and transmitted, including, if necessary, by signals compatible with the channel communication, to the second side and in a manner known per se, nym mentioned, in block 3 and 1 are identified in block 32 is reduced ordered aggregate of numbers _to x4, where the index value to vary from 1 to 12. The elements y4 formed in block 33 of these numbers _{for a} rectangular matrix [^. ] with dimension 4 x3 for each value of the index k, varying from 1 to 12, are determined in accordance with the expression y4 _y = x4 _k , while the values of the indices / and j are determined sequentially in accordance with the expressions - \) div3 + \ and j = k - (/ - 1) 3. On the second side, in accordance with the expression ^ 4 _ir b2 _rj / det [a2 _j; ] form in block 35 using block 19 the elements z4 _{0 of the} matrix with dimension 4x 3. This matrix is completely

coincides with the matrix [> 1, _y ]. From it, in block 36, the sequence corresponding to them is determined by the sequentially numbered set of integers x5 _k in accordance with the expression x5 _k = ζ4. , where the values of the index k are determined in accordance with the expression k = (/ -1) 3 + j by enumerating for each index value / from 1 to 4 index values from 1 to 3: 0 2 4 0 3 4 7 4 3 2 8 8 After eliminating the numbers x0 = 8 from the indicated set of integers x5 _k, in block 37 the set of numbers x \ _k (0 2 4 0 3 4 7 4 3 2) is restored and, based on the resulting set x \ _{k, are} known on the second side in the opposite way to the information presentation method, in block 38, the original information (PANOV) is restored. Note that all the transformations performed in the elements of the proposed SPPI, despite the presence of integer division, are performed on integers absolutely precisely.

 Industrial applicability

The proposed SPPI is quite simply implemented using a modern elemental base. The present invention can be applied to the development and improvement of existing and promising communication systems. The analysis made it possible to establish: there are no analogues with a set of features identical to all the features of the claimed technical solution, which indicates the conformity of the claimed system to the “novelty” condition. The results of the search for known solutions in the field of API for the purpose of identifying features that match the distinctive features of the claimed system from the prototype showed that they do not follow explicitly from the prior art.

Claims

 Claim A system for transmitting and receiving information between two transceiver parties, at least one of which can be transmitting source information and containing a control subsystem that provides for the transfer of source information, respectively, another that receives the source information and contains a control subsystem for receiving source information containing, on the side transmitting the source information, the unit for connecting to the source of information functionally associated with the unit for presenting the source information, you complete with the possibility of presenting information in one of the known ways corresponding to it in an orderly sequentially numbered set of integers x \ _k , where the index values k vary from 1 to a given value K ₀ , and the numbers x \ _k take values from a given set of numbers , the unit for presenting the initial information is functionally connected with the unit for generating elements y \ _y , configured to form from the numbers x \ _{k the} elements yl _{tJ of a} rectangular matrix

with dimension Μ ^χ Ν, where M and Ν are the given natural numbers known on both transceiver sides, and in this and in the following matrices the index / corresponds to the row number, the index j corresponds to the column number, for each index value k, varying from 1 to Κ ₀ <Μ Ν, and if necessary when Μ = Ν for each value of the index k, varying from 1 to K _Q <Ν ¹ - 2Ν, determined in accordance with the expression >> 1. = x \ _k , while the values of the indices and j are mainly determined sequentially in accordance with the expressions i = (k - l) divN + \, where A divB is the integer part when dividing the integer A by the integer b, and j = k - {i - \) N, and in the case of incomplete filling of the matrix [], each of the missing elements is used, for example, an integer xO given and known also on the side receiving the initial information, not included in the set of numbers used for numbers x \ _k , the block forming ele copies yl _{u is} functionally connected with the element forming unit z \ _u , configured to form elements

matrices [zl, _y ] with size dimension Μχ Ν in accordance with the expression z \ _fJ = ^ _J a \ _lr y \ _rj , while the block r = 1 the formation of the elements ζ \ _{ν is} functionally connected with the unit for preparing and storing the given elements a \ _jj , b \ _iJ , made with the possibility of forming mainly from the integer numbers of the elements a \ of _the square matrix [αΐ. ] with dimension Mx M defined in such a way that its determinant det [al,] is not equal to zero, and the elements Ы _{0 of the} transposed matrix of algebraic complements of the elements a \ _and in the said determinant of the matrix [al, _y ], in addition, the block the formation of elements zl. made with the possibility mainly through a contact detachable connection to a removable unit for recording, saving and reading elements ζΐ ,. which is made with the possibility of its connection mainly through a contact detachable connection to the unit for forming the set of numbers x2 _k , made with the possibility through the generated and read elements z \ _{tJ of} determining the corresponding orderly sequentially numbered set of integers x2 _k in accordance with the expression 2 _to = z \ _tj , where the values of the index k are determined in accordance with the expression k = (i- \) N + j by enumerating for each index value from 1 to M the values of the index j from 1 to N, the block of forms of generating a set of numbers x2 _{k is} functionally connected with a unit for converting a set of numbers x2 _to one of the known methods and providing transmission, including, if necessary, signals compatible with a communication channel, to the side receiving source information through a transmitter-receiver transmitting source information the side, and on the side receiving the initial information, the system contains a transceiver of the side receiving the initial information, functionally connected through a communication channel with the transceiver transmitting the outcome side information and with the unit identical fictions of the received signals corresponding to the set of numbers x2 _k , which is functionally connected to the unit for recovering the set of numbers x2 _k , configured _to restore, in a manner known to the source of the input information, the opposite of the ordered set of numbers x2 _k , where the values index k varies from 1 to Κ = ΜχΝ, a plurality of block numbers x2 recovery _to svya- operably coupled to block forming elements v2, which is configured to generate the numbers of elements _to x2 y2 _v rectangular matrix y2 ..] with dimension Μ Ν for each value of the index k, varying from 1 to _ £, defined in accordance with the expression y2 _and = x2 _k , and the values of the indices / and j are determined sequentially in accordance with by the expressions / ^' = (k-l) divN + 1 and j = k - {i - \) N, in addition, the unit of formation of elements y2 is made with the possibility mainly through a contact plug-in connection to connect to a removable unit for writing, saving and reading ele - cops y2 _tJ , which is made with the possibility of its connection mainly through contact detachable connection to the element forming unit z2 _y , configured to form elements ζ2 _{ν of the} matrix [z2, _y ] with dimension Μ ^χ Ν in through the generated and read elements 2у  Ν in accordance with the expression z2 _y = ^ y2 _ir a2 _rJ , while the unit for forming the elements ζ2 _{υ is} functionally connected with the unit for preparing and storing the given elements 2., * 2. made with the possibility of predominantly forming from the integer numbers of elements α2 _{ν a} square matrix [l2, _y ] with dimension Νχ Ν defined in such a way that the determinant det [2 _<y ] is not equal to zero, and the elements b2 _{трансп of the} transposed matrix of algebraic complements elements a2 _tJ in said determinant of the matrix [l2, _y ], in addition, the unit for forming elements z2 is made with the possibility mainly through contact detachable connection to a removable unit for writing, storing and reading elements r2 _{1> 5} which is made with the possibility of its connection mainly through contact detachable connection to the unit for forming a set of numbers x3 _k , made with the possibility through the formed and read elements z2 _y determining the corresponding orderly sequentially numbered set of integers x3 _k in accordance with the expression x3 _k = ζ2 ₀ , where the values of the index k are determined in accordance with the expression By k = (i - \) N + j by enumerating for each index value / from 1 to M the values of index j from 1 to N, the block of forming the set of numbers x3 _{k is} functionally connected with the block of converting the set of numbers x3 _k made with the possibility of converting the set of x3 numbers _to one of the known methods and providing transmission, including, if necessary, signals compatible with the communication channel, to the side that transmits the initial information through the transmitter-receiver of the side that receives the initial information, and on the transmitter Exodus th information of the system comprises a identification received signals The respective aggregate numbers of Xs _to operably associated with the transmitter transponder transmitting the initial information to the block side and regenerate an aggregate of numbers _to xs adapted to reconstructing the original known for transmitting information side, in the reverse way _{to the} above, an ordered set of numbers x3 _k , where the values of the index k vary from 1 to K = Μ ^χ Ν, and the recovery block of the set of numbers x3 _{k is} functional о is connected with the block of formation of elements у> 3 ₀ -, which is made with the possibility of forming from the numbers xЗ _to elements of the ultrasound _{of a} rectangular matrix

with dimension Μ ^χ Ν for each index value k , varying from 1 to ^ _{1 5} determined in accordance with the expression y3 _and = x3 _k , while the values of the indices / and j are determined sequentially in accordance with the expressions i = (k - \) divN + 1 and j = k - (i - l) N, in addition, the block the formation of the elements y3 _{tj is} made possible mainly through a contact detachable connection to a removable recording unit for storing and reading elements of ultrasound, which is configured to connect it mainly through a contact detachable connection to the block for the formation of elements z3 _y , made through formed and read elements of ultrasound _{and the} formation of elements z3 _{fj of the} matrix I r Л with dimension Μ ^χ Ν in accordance with the expression z3 _f = ^ M _(ri y3. under the condition that the above det [ol _(/ ] is equal to e unit, otherwise, in accordance with the expression z3 ^ = V ^! b _if y3 _rj / det ^ l ^], while the formation unit  r = \ J of the elements ζ3 _{ν is} functionally connected with the unit for preparing and storing the specified elements a1 ₀ , уy, in addition, the unit for forming the elements z3 _tJ is configured to connect mainly to the removable contact connection unit to the removable unit for writing, saving and reading elements z3 _i} , which made with the possibility of its connection mainly through a contact detachable connection to the block forming the set of numbers x4 _to , made with the possibility through the generated and read elements z3 definitions correspond corresponding to them in an orderly sequentially numbered set of integers x4 _k in accordance with the expression x4 _k = z3 _y , where the values of the index k are determined in accordance with the expression £ = (/ -l) N + j by enumerating for each index value / from 1 to M the index j is 1 to N, together forming a block of numbers _to x4 operatively associated with the block transform x4 set of numbers _to one of the known methods and to ensure transmission, including the necessary signals compatible with a communication channel, for receiving the original yn or- mation side through the receiver-transmitter transmitting the initial information side and on the receiving side the original information system comprises a identification of the received signals corresponding to the set of numbers x4 _k , functionally connected with the transceiver of the party receiving the source information and with the unit for recovering the set of numbers x4 _k , configured to restore in a manner known to the party receiving the source information the opposite of the ordered ordered set of numbers x4 _k , where the values of the index k vary from 1 to ^, and the unit for reconstructing the totality of numbers x4 _{k is} functionally connected with the unit for generating elements y4 _y , which is configured to form elements _from y44 _k elements y ol matrix [^ 4, _y ] with dimension Μχ Ν for each value of the index k, varying from 1 to ^ -Ί, determined in accordance with the expression ₉ = x4 _k , and the values of the indices / and j are determined sequentially in accordance with the expressions i = (k - \) divN + \ and j = £ - (/ - l) N, in addition, the unit for forming elements of y4 _{y is} made mainly with the help of a contact detachable connection to the removable unit for writing, storing and reading elements of y4 _y , which is made with the ability to connect it mainly through a contact plug-in connection to the block ation elements ζ4, vypolnen- Nome, with and formed through few elements in _y of formation of the matrix elements z4 _tj [z4 _iy] with dimension Μ ^χ Ν in accordance with  Ν by the expression z4 = ^ y4 _lr b2 _rJ provided that the aforementioned det a2 ₍ J is equal to the unit case in accordance with the expression this unit of formation of elements ζ4. also

functionally connected with the unit for preparing and storing the specified elements a2y, b2 ₉ , in addition, the unit for generating elements z4 _{tJ is} functionally connected with the unit for generating a set of numbers x5 _k , made possible through the formed elements ζ4 _{0 to} determine the corresponding orderly sequentially numbered set of integers x5 _to v in accordance with the expression x5 _k = z4, where the values of the index k are determined in accordance with the expression k = (i - \) N + j by enumerating for each index value / from 1 to M the values of the index j from 1 to N, the block forms the combination of the set of numbers gi5 ^ is functionally connected with the block of reconstructing the set of numbers xl _k , which is configured to, after excluding the indicated numbers xO from the set of integers x5 _, restore the specified set of integers x \ _k , where the values of the index k vary from 1 to - a given value of K ₀ , and the block the formation of the set of numbers x \ _{k is} functionally connected with the initial information recovery unit, configured to recover the initial information from the received set of numbers x \ _k on the side receiving the initial information in a way that is inverse to the above-mentioned method of representing the original information on the source information side, in addition, the system for transmitting and receiving information contains a subsystem for managing its work.