SU1100738A1 - System for transmitting and receiving signals with adaptive dlifferential pulse-code modulation - Google Patents

Description

2. The system of claim 1, wherein the control unit comprises in series the first element, the first CK trigger and the first element, whose output is the first output of the control unit, the second the input of the first element is AND, the input of the first element is NOT, the input of the second element is NOT and the first input of the second element is AND is combined and connected to the output of the analyzer of the subscriber set state, the input of which is combined with the third input of the first element AND and the first input of the third element AND is supplied by the first, control input its block, the output of the second element NOT through the second R5 trigger is connected to the second input of the second element AND, the output of which is connected to the first input of the fourth element AND and the second input of the second element AND, and the outputs of the second and fourth elements AND are respectively the second and third the outputs of the control unit, the second input of the fourth element And and the first input of the signaling unit are combined and are the second input of the control unit, the second inputs of the first and second RS triggers and the second input of the signaling unit are combined and with the third 1–8 input of the control unit. 3. The system of claim 1, wherein the automatic verification unit comprises a three-unit comparison unit, a storage unit, a series-connected adder with weighting factors, a decision unit, and an element whose output is the first output of the automatic verification unit, as well as an intensity measurement unit, a basic tone pickup unit and a linear predictor, whose inputs are combined and are the third input of the automatic verification unit, and whose outputs are connected to the input through appropriate comparison units meters of the adder with weighting factors, the second inputs of the comparison units are connected to the corresponding information outputs of the storage unit, the first control output of which is the second output of the automatic verification unit, and the second control output is connected to the second input of the AND element, and the input of the storage unit is the second input of the automatic verification block, and the output of the block decider is the third IMPORTANT. The output of the automatic verification block;

The invention relates to radio engineering and can be used to form digital telephone channels in communication systems. The systems of transmission and reception of signals with adaptive differential pulse-code modulation with compression of the excitation function are known, which contain the transmitter and receiver ij. However, the naturalness of the synthesized speech is low and eliminates the speaker's recognition by voice and allows unauthorized access to the system. The closest technical solution to the present invention is a transmission and reception system with adaptive differential pulse-code modulation, consisting of a subscriber transmission set, as well as a series-connected transmitter, receiver and subscriber reception set 2. However, in these systems, the naturalness of the synthesized speech is not high enough to practically exclude the speaker’s recognition by voice and allows for the possibility of unauthorized access. The purpose of the invention is to reduce the likelihood of unauthorized access to the system. The goal is achieved by the fact that a control unit, an automatic verification unit and an OR element are introduced into the transmission and reception system with adaptive differential pulse-code modulation, consisting of a subscriber transmission set, as well as serially connected transmitter, receiver and subscriber reception kit. the output of the subscriber's transmission set is connected to the first input of the control unit, the first output of which through the OR element is connected to the transmitter, the second and third outputs of the control unit and through the automatic verification block it is connected to the second input of the OR element, and the second and third outputs of the automatic verification block are connected to the second and third inputs of the control block, the control unit contains the first HE element, the first RS trigger and the first AND element, which output is the first output of the control unit, the second input of the first element AND, the input of the first element NOT, the input of the second element NOT and the first input of the second element AND are combined and connected to the output of the state analyzer Bonent kit, the input of which is combined with the third input of the first element AND and the first input of the third element AND, is the first input of the control block and the output of the second element NOT through the second R5 trigger connected to the second input of the third, element AND whose output is connected to the first input the fourth element And the second input of the second element And, the outputs of the second and fourth elements And are respectively the second and third outputs of the control unit, the second input of the fourth element And and the first input of the signaling unit The two inputs are combined and are the second input of the control unit, the second inputs of the first and second R5-triggers and the second input of the signaling unit are combined and are the third input of the control unit. The automatic verification block contains three comparison blocks, storing a block, an adder with weighting factors connected in series, a decisive block, the AND element, the output of which is the first output of the automatic verification block, as well as an intensity measurement block, a main current block and a linear the predictor, whose ports are combined and are the third input of the automatic verification unit, and whose outputs through the corresponding comparison blocks are connected to the inputs of the adder with weighting coefficients The second inputs of the comparison units are connected to the corresponding information outputs of the storage unit, the first control output of which is the second output of the automatic verification unit, and the second output output is connected to the second input of the AND element, and the input of the storage unit is the second input of the unit automatic verification, and the output of the decision block is the third output of the automatic verification block. The drawing shows the structural electrical circuit of the proposed systek. The transmission and reception system with adaptive differential pulse code modulation contains the subscriber: transmission cue set li, transmitter 2, receiver 3L subscriber set 4. receiving control unit 5, automatic verification unit 6, element OR 7. Control unit 5 contains the first element NOT 8, the first RS-trigger 9, the first element AND 10, the second element NOT 11, the second element And 12, the analyzer 13 no subscriber set, the second i S-trigger 14, the third element And 15, the fourth element And 16, block 17 alarm. The automatic verification block 6 contains an adder 18 with weight coefficients, a decisive block 19, an AND element 20, an intensity measurement block 21, a pitch block 22,; linear predictor 23, comparison blocks 24-26, storage unit 27. The system works as follows. In the initial state, when the system is not used, the subscriber set of transmission 1 is not occupied and the analyzer 13 of the state of the subscriber set accumulates a constant level O at its output. At the same time, the first element And 10, the second element And 12 and the fourth element And 16 are closed , the third element AND 15 is open (by using the inverse output of the second RS flip-flop 14) and the transmitter 2 is disconnected from the subscriber transmission set t. When a service request arrives (for example, removing the tube of a telephone set connected to the input of subscriber set of transmission 1), the analyzer 13 of the subscriber set produces a constant level 1 on its output and opens the second element 12 And 15 does not change). The verification process of the caller in this device is carried out in two stages: by personal code, by voice. The first verification phase begins with the caller dialing a personal code (assigned to each sanctioned subscriber), which through the second element 12 and the third element are opened. And 15 enters the storage unit 27. If the received code does not belong to the set of personal codes of all authorized users, the decision about this from the first output of the storage unit 27 is transmitted to the signaling unit 17. At the same time, an alarm is triggered, notifying you of an attempt of unauthorized access to this device. If the received code coincides with the personal code of one of the authorized subscribers, then in accordance with it, a set of reference speech parameters is prepared in the storage unit 27 (for each of those authorized in the storage unit 27, such data are recorded according to the analysis of a special password phrase) comparison and a decision is made on admitting the subscriber to the second step of certification. This decision is transmitted from the first output of the memory unit 27 to the alarm block 17, informing the subscriber about the decision to pronounce the password phrase, and opens the fourth element AND 16 (the open state is held for the time required for the second. verification step). The first step ends. At the second stage of verification, the subscriber, having received permission from the signaling unit 7, utters the password phrase, which through the second element 12 and the third element 15 enters the storage unit 27. At the same time, the reference speech parameters (intensity, mainly the tone and linear prediction coefficients are applied to the comparison blocks 24, 25, and 26. In addition, the passphrase is uttered by the subscriber through the open third element 15 and the fourth element 16 and enters the inputs of the intensity measurement block 21 The pitch division block 22 and the linear predictor 23, where the contours of intensity, pitch and linear prediction are calculated, respectively. Following the analysis in Comparison Blocks 24-26, the process of calculating the discrepancies of the respective contours is proceeding. The discrepancy across all contours obtained in adder 18 with weights is compared in decision block 19 with the threshold, and as a result, it is decided to confirm the identity of the identifiable subscriber or reject it. In the first case, the solution of the type Yes opens element I 20, and from the second control output of the storage unit 27 the information about the call and the caller’s number enters the receiver 3 via the logical element OR 7. At the same time, level 1 goes to the second inputs (inputs S) RS- flip-flops 9 and 14, closing the third element 15 and disconnecting the automatic verification block 6, opening the first element i to (by using the direct output of the r5-trigger 9) and connecting the transmitter 2 to the subscriber (the signal about this is generated by the alarm block 17 after receiving resh Yeni from the decision block 19). In, In the second case, a no-type solution from the decision unit 19 enters the signaling unit 17 and notifies of an attempted unauthorized access to the system (transmitter 2 is not provided to the subscriber, since the first element AND 10 Remains closed). After a similar verification of the subscriber, a message exchange may occur. Upon completion of the message exchange, the subscriber is disconnected from transmitter 2 (manual reset) or the subscriber set condition analyzer 13 allocates a pause with a Duration exceeding the allowable (automatic reset). In both cases, the analyzer of the subscriber set status 13 terminates the constant level O, closing the first element 10 and the second element 12 and opening the third element 15.

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By this, the subscriber is disconnected from the transmitting unauthorized subscribers of Verifier 2, the device is given in the test. running condition. Re-exchange

messages are possible only after the pro- Thus, in this system of verification, which eliminates the possibility of a non-repeated use of the device of unauthorized access is reduced.

Claims (3)

1. SYSTEM OF TRANSMISSION AND RECEIVING OF SIGNALS WITH ADAPTIVE DIFFERENTIAL PULSE-CODE MODULATION, consisting of a subscriber transmission kit, as well as series-connected transmitter receiver and subscriber reception kit, so that I can do so In order to reduce the likelihood of unauthorized access to the system, a control unit, an automatic verification unit and an OR element are introduced into it, and the output of the subscriber transmission set is connected to the first input of the control unit, the first output of which is through the element OR is connected to the transmitter, the second and third outputs of the control unit through the automatic verification unit are connected to the second input of the OR element, and the second and third outputs of the automatic verification unit are connected to the second and third inputs of the control unit. 8810011 ^σο 7Ι§ · “ 2. The system by π. 1, characterized in that the control unit contains the first element NOT connected in series, the first RS-trigger and the first element AND, the output of which is the first output of the control unit, the second input of the first element AND, the input of the first element NOT, the input of the second element NOT and the first the input of the second AND element is combined and connected to the output of the subscriber kit state analyzer, the input of which is combined with the third input of the first AND element and the first input of the third AND element and is the first, the input of the control unit, the output is second of the first element NOT through the second R5, the trigger is connected to the second input of the second element And, the output of which is connected to the first input of the fourth element And and the second input of the second element And, the outputs of the second and fourth elements And are respectively the second and third outputs of the control unit, the second input of the fourth element And the first input of the signaling unit is combined and is the second input of the control unit, the second inputs of the first and second RS-triggers and the second input of the signaling unit are combined and are the third control input barking block. 3. The system according to π. 1, characterized in that the automatic verification unit contains three · comparison units, a storage unit, a series adder with weighting coefficients, a deciding unit and an I element, the output of which is the first output of the automatic verification unit, as well as an intensity measuring unit, a pitch extraction unit and a linear predictor, the inputs of which are combined and are the third input of the automatic verification block, and whose outputs are connected to the inputs of the adder with coefficients, and the second inputs of the comparison blocks are connected to the corresponding information outputs of the storage unit, the first control output of which is the second output of the automatic verification unit, and the second control output is connected to the second input of the AND element, the input of the storage unit being the second input of the automatic verification unit, and the output of the decisive block is the third — it — the output of the automatic verification block;