SU974598A2 - Method of synchronization of m-sequence - Google Patents

Description

(5) SYNCHRONIZATION METHOD P1-SEQUENCE

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The invention relates to communications and can be used in transmission systems for the non-retrieval of information transmitted by inverse modulation of the t-sequence.

According to the main author. St. No. a method is known for synchronizing the t-sequence when receiving information transmitted by inverse modulation of the t-sequence, which consists in transforming the received sequence by summing together the two corresponding symbols of the received sequence, separating J | 1 synchronization pulses over the period of the t-sequence, by means of which phasing of synchronization pulses is carried out. according to the symbols of the received information, as well as character-by-symbol comparison of the received sequence with the reference signal, integration of the received signal within a time interval equal to the period of synchronization pulses over the received information symbols, in making a decision about the meaning of the symbols of the received information, compensating the phase the shift that occurs when converting the received sequence and using the transformed received sequence as a reference signal, from which the sync pulses are extracted 10 nizatsii on the period. t-sequences by matched filtering l.

However, the known method does not provide high noise immunity,

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The purpose of the invention is to improve noise immunity.

To do this, according to the t-sequence synchronization method, upon receipt of information transmitted by inverse modulation of the t-sequence, involving the transformation of the received sequence by adding together the modulo two corresponding symbols of the received sequence, separating the synchronization pulses over the t-sequence, by means of which phasing of synchronization pulses is carried out according to the symbols of the received information, as well as in character-by-character comparison with the same sequence with the reference signal, the integration of the received signal within a time interval equal to the period of synchronization pulses by the symbols of the received information, in deciding the value of the scientific research institute of the symbols of the received information, compensation of the phase shift occurring during the transformation of the received sequence, and used as a reference signal of the converted received sequence. from which period synchronization pulses are extracted, the t-sequences, by matched filtering before integration, the signal obtained by comparing the delayed and transformed received 35 series, is analyzed and, in the case of distortion, a correction signal is formed, in which the corresponding delayed signal symbols are inverted, obtained by comparing the delayed and transformed received sequences. The drawing shows a structural electrical circuit of the device that implements the proposed method. The device contains a converter 1, a delay line 2, a comparison block 3 matched filter k, a block 5 for calculating the difference between the number of matched and unmatched characters, an analysis block 6 including the delay line 7, decoders 8-11 and two separators 12, 13 (correction block H including the signal conditioners 15, 16; the correction signals, the separator 17 and the half adder 18, the distributor 19 - The outputs 20-22 of the device are the outputs of the matched filter k, the distributor 19 and the block 5, respectively. The device works as follows. The information modulated by the t-sequence is fed to the input of converter 1 and input-delay line 2. Converter 1 is invariant to the inversion of the original t-sequence and provides a modulo 2 even number of symbols of the received signal. cyclical phase shift by the amount of tTj arising during the transformation, and distorted elements due to the transition from the inverted to the non-inverted coordinate or vice versa Emulated symbols in the received signal. The converted signal is a reference for extracting information. To compensate for the phase shift that occurs during conversion, the received signal is delayed in delay line 2 on time T. The matched filter 4 generates a synchronization pulse for the period of the 1t-sequence converter arriving at its input, which is used for phasing the distributor 19. pulses of the local clock sequence with a period equal to the duration of the discharge of the received information. the phase of which, with an accuracy of fractions of the symbol duration of the received signal, coincides with the moments of switching the values of the bits of the transmitted information. The reference and delayed signals from the outputs of the converter 1 and the delay line 2 are fed to the comparison unit 3; where the comparison of the symbols of the reference and received signals in mod 2 is made. The signal from the output of the comparison block 3 is fed to the analysis block 6, where it is delayed in the delay line 7 for the time Z q required for the analysis, (the outputs of the delay line 7 are connected to the decoders 8-11, each the pair of which is tuned to antiphase combinations selected on the basis of specific manifestations of various types of distortions present in the signal. The outputs of each pair of decoders 8, 9 and 10, 11 are connected to the inputs of the separators 12, 13, respectively. The signals from the separators 12, 13 post go to correction block 14 on drivers 15, 16. They produce correction signals, the duration of which corresponds to the type of distortion selected by decryptors 8 to 11. The outputs of drivers 15, 16 are connected to input of half accumulator 18 through the separator 17, the second input of which receives a signal from the delay line 7 analysis block 6 / Half-adder 18 inverts the signal elements that match the correction signals, thus providing correction of some types of distortion. The output signal of the half-adder 18 of the correction unit 14 is fed to the input 5 of the block 5, which decodes the received information. In order for unit 5 to work properly, the temporary position of the pulses of the distributor 19 arriving at its clock input must be delayed by fg,

The decoded information is fed to the output 22 of the device. At the output 20, synchronization pulses are generated over the period of the t-sequence, at 15 output 21 there are pulses, the period of which is equal to the duration of the discharge of the received information.

The proposed method, due to the selection and correction of distortions, allows -20 em to significantly increase the noise immunity of non-searchable reception of information transmitted by inverse modulation of the t-sequence.

Claims (1)

1. USSR author's certificate ff, cl. H OA L 7/02, 1976 (prototype).