Intelligent Reflecting Surface with Discrete Phase Shifts: Channel Estimation and Passive Beamforming
November 10, 2019 Β· Declared Dead Β· π ICC 2020 - 2020 IEEE International Conference on Communications (ICC)
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Authors
Changsheng You, Beixiong Zheng, Rui Zhang
arXiv ID
1911.03916
Category
cs.IT: Information Theory
Cross-listed
cs.NI
Citations
117
Venue
ICC 2020 - 2020 IEEE International Conference on Communications (ICC)
Last Checked
4 months ago
Abstract
In this paper, we consider an intelligent reflecting surface (IRS)-aided single-user system where an IRS with discrete phase shifts is deployed to assist the uplink communication. A practical transmission protocol is proposed to execute channel estimation and passive beamforming successively. To minimize the mean square error (MSE) of channel estimation, we first formulate an optimization problem for designing the IRS reflection pattern in the training phase under the constraints of unit-modulus, discrete phase, and full rank. This problem, however, is NP-hard and thus difficult to solve in general. As such, we propose a low-complexity yet efficient method to solve it sub-optimally, by constructing a near-orthogonal reflection pattern based on either discrete Fourier transform (DFT)-matrix quantization or Hadamard-matrix truncation. Based on the estimated channel, we then formulate an optimization problem to maximize the achievable rate by designing the discrete-phase passive beamforming at the IRS with the training overhead and channel estimation error taken into account. To reduce the computational complexity of exhaustive search, we further propose a low-complexity successive refinement algorithm with a properly-designed initialization to obtain a high-quality suboptimal solution. Numerical results are presented to show the significant rate improvement of our proposed IRS training reflection pattern and passive beamforming designs as compared to other benchmark schemes.
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