В. Н. Тяпкин scite author profile

Modern GNSS navigation equipment has a significant drawback -low noise immunity. To solve this problem, they are based on phased array antennas using adaptive signal processing algorithms. The final effect of such processing is determined by the level and completeness of using the existing differences, as well as the quality of accounting for each of them, depending on the degree of fame of the statistical characteristics of signals and interference. The article discusses the theory of synthesis of an algorithm for measuring the parameters of radio navigation signals received on spaced antennas under the influence of interference.

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Hardware Architectures of the QR-Decomposition Based on a Givens Rotation Technique

Sokolovskiy

Вейсов

Tyapkin

et al. 2019

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The fixed-point hardware architecture of the QR decomposition is constrained by a several issues that leads to decrease of a compute accuracy depending on a matrix size. In this article described the hardware architectures based on CORDIC algorithm and approximation functions. As a basis technique is used a Givens rotation technique, because it is a most suitable technique for hardware implementation

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Probability-time Characteristics of GLONASS Navigation Signal Search

Tyapkin¹,

Дмитриев²,

Korovin³

et al. 2017

J. Sib. Fed. Univ., Math. phys.

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The article presents the results of calculations of probability-time characteristics of the signal in search of radio navigation equipment. Particular attention is paid to the calculation of the search time for given probabilities of correct detection and false alarm. The case of re-capturing the signal for tracking by radio navigation equipment after breaks due to antenna shading, interference effects, etc. is considered.

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A Recursive Algorithm for Estimating the Correlation Matrix of the Interference Based on the QR Decomposition

Tyapkin

Дмитриев

Gladyshev

et al. 2020

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Many tasks of digital signal processing require the implementation of matrix operations in real time. These are operations of matrix inversion or solving systems of linear algebraic or dif- ferential equations (Kalman filter). The transition to the implementation of digital signal processing on programmable logic device (FPGAs), as a rule, involves calculations based on the representation of numbers with a fixed point. This makes solving spatio-temporal processing problems practically im- possible based on conventional computational methods. The article discusses the implementation of spatial-temporal signal processing algorithms in satellite broadband systems using QR decomposition. The technologies of CORDIC computations required for recurrent QR decomposition when used together in systolic algorithms are presented

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