SU455504A1 - A confidence measurement device for an incoherent digital communication system - Google Patents

Description

one

The invention relates to the field of digital information transmission systems using multipositional signals and can be used in various transmission systems for processing digital information to quantitatively measure its reliability.

A confidence measurement device for an incoherent digital communication system is known; it contains its l-channel demodulation scheme associated with a pedestrian 1.1 m block 1 m, and a merptel sent spgnal / n1u.1.

The known device assumes the issuance of certainty stubs in the form of double digits, which significantly limits the possibility of 1) the differentiation of the estimate and reduces its accuracy.

When character-by-digit assessment of each recorded information, it is necessary to register a group of characters, characterizing it reliably (TOST1), which is practically incompetent.

Whole inventions are aimed at accurately measuring the accuracy of digital information.

This is achieved by the fact that, in the proposed device, to each output of the demodulation circuit there are connected a series-connected multiplication circuit and a multiplier, the output of which is connected to the input of the 1ON1 unit, its block and two signal converting branches connected to a common adder and the output of the control unit, while the output of the decision unit is directly connected to the subtractive circuit and, through another multiplier, to the control unit and the linear four-port network connected to one of the signal conversion branches The driver has a signal-to-noise ratio connected to both multipliers. In this way, the signal transform branches consist of 113 sequentially connected keys, a functional transducer and a subtractive circuit, and the other from a key of the functional transducer, the keys of both branches being connected to the control unit, and the other subtractive circuit input is connected to a linear four-way link. The control unit consists of a series-connected non-linear element and a comparison circuit.

Figure 1 shows a block diagram of a proposed reliability measurement device.

The proposed device contains a n-channel demodulation circuit 1 and a meter 2 ratio C1 gnal / sound, connected to multipliers 3 and 4. The outputs of the decision block 5 and one input of the subtracting circuit of the 6th confidence measurement channel are connected to the outputs of the demodulation circuit. The other input of this circuit is connected with the output of the 7th renderer

unit 5, and its output with multiplier 3, connected to two branches 8 and 9 of the signal and the control device K), consisting of a nonlinear element 11 and the comparison circuit 12. One of the branches of the signal conversion is the sequential connection of the key 13 , the functional driver 14 and the subtractor 1, it has the circuits 15, and a friend has the key 16 and () is unionally H) the converter 17. The clock inputs of the keys 13 and 16 are connected with the comparison circuit 12, and the outputs of the transform branches are with the total sum 18 on 2 hectares. The output 7 of the decision block 5 is also connected to the multiplier 4, which is directly connected to the comparison circuit 12, and through the linear quadrupole 19 with the subtractive circuit 15.

The proposed device works as follows.

When each specific implementation is received, the signal from the output of the k -th channel of the demodulation as a subtracted points to the subtraction circuit 6. The signal from the receiver's decisive device is decremented. The result of the subtraction multiplied by an amount proportional to the signal-to-noise ratio, which characterizes the German – German communication environment, goes to the nonlinear element of the control device 10 and to the keys of the signal conversion branches. In the control unit, the signal from the output of the nonlinear element II is compared by the comparison circuit with the output signal of the decision block multiplied by an amount equal to the signal / noise ratio. If the first of these is large, the comparison circuit opens the key 13, otherwise the key 16 connects the transform branches 8 or 9, respectively. The first of these branches performs the functional conversion of the input signal and the calculation;: this is the result of the conversion of the signal from the output of the linear quadripole, and the second, only the functional conversion. The signals from the branch outputs of the transducers of all channels of the confidence meter are summed up by 11 common adders, the output of sig) 1al of which, representing a quantitative measure of reliability, is received for registration.

Ire d m and 3 about b) about t about and and

1. Us1) cs1 () confidence measurement for an incoherent digital communication system, containing a " channel demodulation scheme associated with the decision unit, and a signal-to-noise ratio meter, which is

In order to increase the accuracy of measuring the reliability of digital information transmitted using a multi-point signal, serially connected subtractive circuit and multiplier are connected to each output of the demodulation circuit and the output of which is connected to the input of the control unit and two signal transducer branches connected with the common adder and the output of the control unit, while the output of the decisive unit is directly connected to the subtractive circuit and through another multiplier to the control unit and the linear clock yrehpolyusniku, zannomu communication with one of the branches of the signal conversion and the yield meter ratio signal / noise is connected to both by multipliers, iri that one of the branches comprises a signal converting serially connected pz key functional transducer and vych1ggayuschey

circuits, and the friend is from the key and the function of the converter, with the keys of both HOTBeii subcomponents to the control unit, and the other input of the extracting circuit is connected to the linear quadrupole.

2. A device according to claim 1, characterized in that the winding unit consists of a successively included non-linear element and a comparison circuit.