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A large-scale multi-antenna channel estimation method based on deep convolutional neural network

A deep convolution and neural network technology, applied in channel estimation, baseband system, baseband system components, etc., can solve problems such as difficult to meet low-latency scenarios and limited accuracy, and achieve improved channel estimation accuracy and accurate estimation , the effect of improving the estimation accuracy

Active Publication Date: 2021-08-24
XIAMEN UNIV
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Problems solved by technology

The existing channel estimation method based on compressed sensing utilizes the sparse characteristics of the wireless channel, and uses compressed sensing to restore the channel, which can reduce the overhead of the required training sequence and improve the estimation accuracy to a certain extent, such as the Chinese patent application publication number CN104052691A A MIMO-OFDM system channel estimation method based on compressed sensing is proposed. Chinese patent application publication number CN105681232A proposes a MIMO channel estimation method based on shared channel and compressed sensing; however, in the case of strong background noise, lack of sampling data, and In severe and complex scenarios such as high sparsity, the accuracy of the channel estimation method based on compressed sensing is limited, and the high computational complexity of compressed sensing and a large number of iterative processes cause large delays, making it difficult to meet the needs of low-latency scenarios

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  • A large-scale multi-antenna channel estimation method based on deep convolutional neural network
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[0026] In order to understand the technical content of the present invention more clearly, the following embodiments will further illustrate the present invention in conjunction with the accompanying drawings.

[0027] The present invention comprises the following steps:

[0028] Step 1: After having N t transmitting antennas, N r In a large-scale multi-antenna system with multiple receiving antennas, the OFDM data block of length N sent from the t-th transmitting antenna to the r-th receiving antenna is x (t) , the channel impulse response of the corresponding subchannel is h (t) , the maximum delay spread length of the channel is L. After the OFDM data block is propagated through the wireless multipath channel, the N received on the r receiving antenna corresponding to the t transmitting antenna p A normalized pilot signal is u (t) . The pilot position of the t-th transmit antenna is set by the pilot position Given, any one of the pilot subscripts is Randomly distrib...

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Abstract

A large-scale multi-antenna channel estimation method based on a deep convolutional neural network belongs to the field of wireless communication technology. The transmitting antenna sends OFDM data blocks to the receiving antenna, and after the wireless multipath channel propagates, the corresponding normalized pilot signal is received, and a large-scale multi-antenna channel estimation model is stacked by rows; a deep convolutional neural network is constructed and weighted After training, estimate the stacked channel impulse response to obtain the estimated stacked channel impulse response; select the subchannel vector corresponding to the transmitting antenna in the estimated stacking channel impulse response to form an estimated sparse support set; optimize the estimation corresponding to each transmitting antenna The sparse support set is obtained to obtain the joint estimation sparse support set, and further obtain the refined channel estimation of large-scale multi-antenna. In the case of high noise intensity, the large-scale multi-antenna channel can be accurately estimated, the estimation accuracy of the large-scale multi-antenna channel can be effectively improved, and the channel estimation delay can be effectively reduced.

Description

technical field [0001] The invention belongs to the technical field of wireless communication, and in particular relates to a large-scale multi-antenna channel estimation method based on a deep convolutional neural network. Background technique [0002] Since it can significantly improve the data transmission rate and spectral efficiency, massive multi-antenna technology has been widely used in 5G communication systems. However, with the increasing number of antennas, the difficulty of large-scale multi-antenna channel estimation is also increasing. At the same time, in low-latency communication scenarios, the complex time-varying characteristics of the channel are not conducive to real-time channel estimation using traditional complex methods or iterative channel estimation algorithms. Therefore, it is necessary to design a method that can accurately estimate large-scale multi-antenna channels with low estimation delay to meet the growing communication needs in the future....

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04L25/02
CPCH04L25/0204H04L25/0212H04L25/0228H04L25/0254
Inventor 刘思聪黄潇
Owner XIAMEN UNIV
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