Compressed sensing PIE (Pulse Interference Elimination) system based on space-frequency coding

A technology of space-frequency coding and compressed sensing, which is applied in multi-frequency code systems, modulated carrier systems, transmission systems, etc., can solve the problems of poor orthogonal projection interference suppression performance, low signal power, and difficult determination of the position of pulse interference signals, etc.

Inactive Publication Date: 2015-12-30
CIVIL AVIATION UNIV OF CHINA
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Problems solved by technology

In practical applications, this method has the following two problems: the location of the pulse interference signal is not easy to determine, and the inter-subcarrier interference is caused after the pulse is extinguished.
In practical application, this method has disadvantages: when the rangefinder int

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  • Compressed sensing PIE (Pulse Interference Elimination) system based on space-frequency coding
  • Compressed sensing PIE (Pulse Interference Elimination) system based on space-frequency coding
  • Compressed sensing PIE (Pulse Interference Elimination) system based on space-frequency coding

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Embodiment Construction

[0079] A space-frequency coding-based compressed sensing impulse interference suppression system of the present invention will be described in detail below with reference to the embodiments and drawings.

[0080] A compressed sensing impulse interference suppression system based on space frequency coding of the present invention includes an OFDM transmitter based on space frequency coding and a compressed sensing impulse interference suppression receiver based on space frequency decoding.

[0081] like figure 1As shown, the OFDM transmitter based on space-frequency coding in the present invention includes: a channel encoder 11 sequentially connected in series for encoding the received source signal, and a channel encoder 11 for encoding the encoded source signal A modulator 12 for modulating a signal into a quadrature phase modulation symbol, an orthogonal transformer 13 for performing orthogonal transformation on the quadrature phase modulation symbol, a symbol interleaver 14...

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Abstract

The invention relates to a compressed sensing PIE system based on space-frequency coding. In a transmitter, a channel encoder, a modulator, an orthogonal converter, a symbol interleaver, a serial-to-parallel converter and a space-frequency encoder are successively connected in series, the space-frequency encoder is connected with two subcarrier mapping devices of the same structure, and each subcarrier mapping device is successively connected with an up sampler, a reverse discrete Fourier transformer, a cyclic prefix adder, a parallel-to-serial converter, a D/A conversion and RF emitter and an emission antenna. A receiver comprises a reception antenna, an RF front-end converter, an A/D converter, a Doppler frequency offset estimator, a Doppler frequency offset compensator, a cyclic prefix remover, a discrete Fourier transformer, a compressed sensing interference eliminator, a frequency-domain down sampler, a channel estimator, a space-frequency decoder, a symbolic solution interleaver, a reverse orthogonal converter and a channel decoder successively in serial connection. The compressed sensing algorithm can be directly utilized to reconstruct pulse signals of a range finder and converts the pulse signals to the frequency domain for elimination, and thus, the pulse signals of the range finder are effectively inhibited.

Description

technical field [0001] The invention relates to an interference suppression method. In particular, it relates to a compressed sensing impulse interference suppression system based on space-frequency coding. Background technique [0002] The L-band digital aviation communication system is an air-to-ground cellular mobile communication system deployed by civil aviation along land routes in the future. The system mainly provides data communication services for air traffic control and airline operation management for aircraft on land routes, terminal areas and airports. It is one of the main technical means of the future aviation mobile communication system of civil aviation. According to the plan of the International Civil Aviation Organization, the L-band digital aviation communication system will be deployed in an embedded manner between the channels of the L-band range finder, occupying a transmission bandwidth of 500KHz. Due to the partial overlap between the rangefinder ...

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Application Information

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IPC IPC(8): H04L27/26
CPCH04L27/2691H04L27/2695
Inventor 刘海涛刘亚洲张学军
Owner CIVIL AVIATION UNIV OF CHINA
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