SU782169A2 - Information transmitting and receiving device - Google Patents

Description

The statement relates to telecommunications and can be used in systems for transmitting and receiving signals from the enemy in turbid media. According to the main author. St. No. 557489, a device for transmitting and receiving information is known, which contains on its input side a signal source, the output of which is connected via a predistortion filter to the communication channel, and on the receiving side corrective filter connected between the output of the communication channel and the input of the information receiver, as well as a spectrum analyzer and a control channel, while the output of the predistortion filter is connected via a spectrum analyzer to the control input of the predistortion filter and the input of the control channel, the output of which is connected to the control input Editin filter ll. However, the known device has a low quality of transmission and reception of information. The purpose of the invention /; - improving the quality of transmission and reception of image signals in turbid media. This goal is achieved by the fact that in a device for transmitting and receiving information, containing on the transmit side, a signal source, the output of which is connected via a predistortion filter to the communication channel, and on the receiving side, a correction filter connected between the output of the communication channel formations, as well as a spectrum analyzer and a control channel, while the output of the predistortion filter is connected via a spectrum analyzer to the control input of the predistortion filter and the input of the control channel whose output is connected the control input of the correction filter, the frequency-contrast characteristic analyzer, the control unit and the subtraction unit are entered, the output of the control channel is connected to the control input of the correction filter through the subtraction unit, the second input of which is connected through the serial analyzer of the frequency-contrast characteristic and the control unit is connected with the output of the signal source. The drawing shows a structural electrical circuit of the proposed device. Device for transmitting and receiving. information contains on transfer

source 1 signal source and predistortion filter 2, communication channel 3, at the receiving side - co-adjusting filter 4 and information receiver 5, spectrum analyzer b, control channel 7, frequency contrast characteristic analyzer 8, control unit 9, subtraction unit 10 and the object 11 observations.

A device for transmitting and receiving information operates as follows.

The image from object 11, distorted by the influence of the turbid medium, goes to source 1, from the output of which the signal is simultaneously fed to analyzer 8 and to channel 3 via an adjustable predistortion filter 2, and from the output of predistortion filter 2, the signal goes through a spectrum analyzer 6 The channel 7 input and input, while the channel 7 output is connected to the control input of the correction filter 4 via block 10. To the receiver 5, the image signal is supplied from channel 3 via the adjustable correction filter 4.

Spectrum analyzer 6 generates a signal proportional to the deviation of the instantaneous pre-distorted energy spectrum. signal from the front of the Dissolved energy spectrum of the optimally predistorted signal. In accordance with this signal, the transfer functions of the locating filter 2 and the corrective filter 4 are changed.

Simultaneously at the output of the analyzer. 8, a signal is generated that is proportional to the instantaneous change in the frequency-contrast characteristic of the medium, which carries information about the distortions of the spectrum of the image signal caused by the effects of scattering AND absorption of the turbid medium.

The instantaneous medium-contrast characteristic of the medium e leads to a change in the correction signal at the output of the analyzer 8, which through block 9 is fed to block 10, where the correction signal is subtracted from the signal of the control channel 7 by the transfer function of the correction filter 4, so that the correction filter 4 depending now on the control difference signal, not only restored the original 5 signal, but also compensated for the distortions introduced by the turbid medium.

Claims (1)

1. USSR author's certificate 557489, cl. H 04 B 1/62, 1975.