Low-complexity super-Nyquist transmission method

A transmission method and low-complexity technology, applied in the field of waveform design problems, can solve the problems of hindering the commercial application of FTN technology, slow sinc pulse sidelobe attenuation, and high signal detection complexity, so as to reduce the signal detection complexity and network network. The number of lattice states, the effect of improving bit error performance

Active Publication Date: 2016-09-07
PLA UNIV OF SCI & TECH
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Problems solved by technology

Since the sinc pulse sidelobe attenuation is too slow, it is not suitable for practical communication systems, so the current research on super-Nyquist transmission systems is mainly based on root-raised cosine pulses, and McGuire and Sima in December 2010 in IEEE Global Telecommunications In the article "DiscreteTime Faster-Than-Nyquist Signaling" on pages 1-5 of the Conference, it is pointed out that one of the main problems hindering the commercialization of FTN technology is the high complexity of signal detection.

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  • Low-complexity super-Nyquist transmission method
  • Low-complexity super-Nyquist transmission method
  • Low-complexity super-Nyquist transmission method

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Embodiment Construction

[0021] The present invention will be described in further detail below in conjunction with the accompanying drawings.

[0022] The invention is a low-complexity super-Nyquist transmission method based on Gaussian pulses. First, Gaussian pulses are used to perform pulse shaping on the coded, interleaved and modulated data symbols at super-Nyquist symbol intervals to obtain transmitted signals. Secondly, the receiving end uses Gaussian pulses consistent with the sending end to perform matched filtering, and samples the output of the matched filtering at a super-Nyquist transmission interval, and then performs MLSE equalization to obtain soft output information, which is passed to the channel decoder, and then Iterative equalization and decoding are performed between the FTN equalizer and the channel decoder. This method can not only reduce the complexity of signal detection, but also obtain good bit error performance.

[0023] figure 1 It is a schematic diagram comparing the ...

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Abstract

The invention discloses a low-complexity super-Nyquist transmission method. Information sequence is Gaussian pulse shaped and performs super-Nyquist code element speed transmission, a receiving end uses a gaussian pulse shaping filter matched with a transmitting end to perform matching filter on a received signal, and the receiving end performs sampling on output of a matching filter with the same super-Nyquist sampling rate with the transmitting end. The maximum likelihood sequence estimation (MLSE) is performed on a sampling signal to compensate the intersymbol interference (ISI) of the receiving signal, soft value output information is obtained, and the system bit error rate (BER) performance can be further improved through performing iteration exchange on prior soft value information between a channel decoder and a FTN equalizer. The adopted gaussian shaping pulse can make the FTN transmission system ISI tap energy to rapidly decay, the MLSE equalization algorithm is adopted, only less ISI tap amount can acquire quasi-optimal BER performance, and the system realization complexity is greatly reduced.

Description

technical field [0001] The invention belongs to wireless communication technology, and specifically relates to a waveform design problem under the low-complexity signal detection condition of a super-Nyquist transmission system. Background technique [0002] Faster-than-Nyquist (FTN) transmission is a wireless communication technology that efficiently utilizes spectrum resources. Under the same bandwidth conditions, it can obtain a high transmission rate that breaks through the traditional Nyquist transmission limit without causing the loss of system bit error performance. Extensive research and concerns in the field of communication. Banelli and Buzzi et al. mentioned in "Modulation Formats and Waveforms for 5GNetworks: Who Will Be the Heir of OFDM?" in IEEE Signal Processing Magazine Vol. One of the candidate core technologies for 5G is taken into consideration. However, since the symbol interval in the super-Nyquist transmission system is smaller than the traditional N...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04L25/03H04L1/00
CPCH04L1/0054H04L1/0057H04L1/0071H04L25/03146H04L25/03318
Inventor 刘爱军彭斯明潘小飞程鹏梁小虎
Owner PLA UNIV OF SCI & TECH
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