RU2002100255A - The method of quasi-coherent reception of a multipath signal and a device that implements it - Google Patents

Claims (5)

1. The method of quasi-coherent reception of a multipath signal, which consists in detecting a multipath signal, when receiving a signal of each beam, form a sequence of complex correlation responses of information and pilot symbols, determining the correlation of the input signal with a known pseudorandom sequence at intervals of each symbol duration, form estimates of the complex envelope of information symbols for each ray, form soft decisions about information symbols, multiplying the multiplex correlation responses of information symbols to complex conjugate estimates of the complex envelope of information symbols combine soft decisions about information symbols of all rays, obtaining a combined soft decision about information symbols, characterized in that, using complex correlation responses of pilot ray symbols, form decorrelated responses of pilot symbols, eliminating the mutual influence of the rays of the input signal, the formation of an estimate of the complex envelope of information symbols about uschestvlyayut responses of decorrelated pilot symbols. 2. The method according to claim 1, characterized in that the decorrelated responses of the pilot symbols are formed by weighted summation of the complex correlation responses of the pilot symbols of the beam signals. 3. The method according to claim 2, characterized in that the weight coefficients of each beam are formed in the form of elements of the corresponding columns of the matrix, an inverse cross-correlation matrix determined by the relative temporal positions of the components of the multipath signal, and also the width of the signal spectrum. 4. The method according to claim 1, characterized in that the estimates of the complex envelope of the information symbols are generated by interpolating the decorrelated responses of the pilot symbols for each beam. 5. A device for the quasicoherent reception of a multipath signal containing N single-beam quasicoherent receivers, a control unit, a first and second adder, each of N single-beam quasi-coherent receivers, contains a complex multiplier, the first and second inputs of which are the signal inputs of the quasicoherent receiver and the fourth input, and the third, multipliers are connected to the reference outputs of the pseudo-random sequence generator, the state control input of the pseudo-random generator each quasi-coherent receiver is connected to the fifth synchronizing output of the control unit, the first and second outputs of the complex multiplier are the outputs of the in-phase and quadrature components of the complex signal and are connected respectively to the first and second adders with reset, the reset signal inputs of which in each single-beam quasi-coherent control receiver are connected to the first the output of the control unit, the outputs of the first and second adders with reset are the in-phase and quadrature outputs component of the complex correlation responses of the symbols and are connected to the first and second inputs of the first delay node, the third input of which is the delay time control input and connected to the fourth synchronizing output of the control unit, the first and second outputs of the first delay node are connected to the first and second inputs of the pilot symbol selection node and with the first and second inputs of the second delay node, the third input of the pilot selection symbol node is the control and connected to the second control output of the control unit, the second inputs with the phase and quadrature nodes of the complex envelope estimation are control and connected to the third synchronizing output of the control unit, the outputs of the in-phase and quadrature nodes of the complex envelope estimation are connected respectively to the first and second inputs of the decision node, which are inputs of the estimation of the in-phase and quadrature components of the complex envelope of information symbols, the third and the fourth inputs of the decision node are the inputs of the in-phase and quadrature components of the complex correlation responses symbols and are connected to the first and second outputs of the second delay node, the first and second outputs of the decision nodes of all N single-beam quasi-coherent receivers are outputs of soft decisions about the information symbols of each beam and are connected to the inputs of the first and second adders having N inputs each, the outputs of the first and of the second adders and are the outputs of the combined soft decisions about information symbols, characterized in that in-phase and quadrature decorrelation blocks are additionally introduced, the first and second outputs pilot symbol selection halls, which are the outputs of the common-mode and quadrature component responses of the pilot symbols of all N single-beam quasi-coherent receivers, are connected to the corresponding signal inputs of the in-phase and quadrature decorrelation units, the inputs of the weight coefficients of the decorrelation units are connected to the sixth control output of the control unit, the outputs of the decorrelation units are outputs decorrelated in-phase and quadrature components of the responses of the pilot symbols and connected to in-phase and quadrature evaluation nodes of the complex envelope of all single-beam quasicoherent receivers.