Learned Conjugate Gradient Descent Network for Massive MIMO Detection
June 10, 2019 Β· Declared Dead Β· π ICC 2020 - 2020 IEEE International Conference on Communications (ICC)
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Authors
Yi Wei, Ming-Min Zhao, Mingyi Hong, Min-jian Zhao, Ming Lei
arXiv ID
1906.03814
Category
eess.SP: Signal Processing
Cross-listed
cs.IT,
cs.LG,
stat.ML
Citations
88
Venue
ICC 2020 - 2020 IEEE International Conference on Communications (ICC)
Last Checked
4 months ago
Abstract
In this work, we consider the use of model-driven deep learning techniques for massive multiple-input multiple-output (MIMO) detection. Compared with conventional MIMO systems, massive MIMO promises improved spectral efficiency, coverage and range. Unfortunately, these benefits are coming at the cost of significantly increased computational complexity. To reduce the complexity of signal detection and guarantee the performance, we present a learned conjugate gradient descent network (LcgNet), which is constructed by unfolding the iterative conjugate gradient descent (CG) detector. In the proposed network, instead of calculating the exact values of the scalar step-sizes, we explicitly learn their universal values. Also, we can enhance the proposed network by augmenting the dimensions of these step-sizes. Furthermore, in order to reduce the memory costs, a novel quantized LcgNet is proposed, where a low-resolution nonuniform quantizer is integrated into the LcgNet to smartly quantize the aforementioned step-sizes. The quantizer is based on a specially designed soft staircase function with learnable parameters to adjust its shape. Meanwhile, due to fact that the number of learnable parameters is limited, the proposed networks are easy and fast to train. Numerical results demonstrate that the proposed network can achieve promising performance with much lower complexity.
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