Low-Complexity LSQR-Based Linear Precoding for Massive MIMO Systems
Massive multiple-input multiple-output (MIMO) using a large number of antennas at the base station (BS) is a promising technique for the next-generation 5G wireless communications. It has been shown that linear precoding schemes can achieve near-optimal performance in massive MIMO systems. However,...
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| Vydáno v: | 2015 IEEE 82nd Vehicular Technology Conference (VTC2015-Fall) s. 1 - 5 |
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IEEE
01.09.2015
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| Abstract | Massive multiple-input multiple-output (MIMO) using a large number of antennas at the base station (BS) is a promising technique for the next-generation 5G wireless communications. It has been shown that linear precoding schemes can achieve near-optimal performance in massive MIMO systems. However, classical linear precoding schemes such as zero- forcing (ZF) precoding suffer from high complexity due to the fact they require the matrix inversion of a large size. In this paper, we propose a low-complexity precoding scheme based on the least square QR (LSQR) method to realize the near-optimal performance of ZF precoding without matrix inversion. We show that the proposed LSQR-based precoding can reduce the complexity of ZF precoding by about one order of magnitude. Simulation results verify that the proposed LSQR-based precoding can provide a better tradeoff between complexity and performance than the recently proposed Neumann-based precoding. |
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| AbstractList | Massive multiple-input multiple-output (MIMO) using a large number of antennas at the base station (BS) is a promising technique for the next-generation 5G wireless communications. It has been shown that linear precoding schemes can achieve near-optimal performance in massive MIMO systems. However, classical linear precoding schemes such as zero- forcing (ZF) precoding suffer from high complexity due to the fact they require the matrix inversion of a large size. In this paper, we propose a low-complexity precoding scheme based on the least square QR (LSQR) method to realize the near-optimal performance of ZF precoding without matrix inversion. We show that the proposed LSQR-based precoding can reduce the complexity of ZF precoding by about one order of magnitude. Simulation results verify that the proposed LSQR-based precoding can provide a better tradeoff between complexity and performance than the recently proposed Neumann-based precoding. |
| Author | Zhaohua Lu Tian Xie Qian Han Bichai Wang Jinguo Quan |
| Author_xml | – sequence: 1 surname: Tian Xie fullname: Tian Xie email: xiet11@mails.tsinghua.edu.cn organization: Dept. of Electron. Eng., Tsinghua Univ., Beijing, China – sequence: 2 surname: Zhaohua Lu fullname: Zhaohua Lu organization: ZTE Cooperation, Shenzhen, China – sequence: 3 surname: Qian Han fullname: Qian Han organization: Dept. of Electron. Eng., Tsinghua Univ., Beijing, China – sequence: 4 surname: Jinguo Quan fullname: Jinguo Quan organization: Shenzhen Grad. Sch., Tsinghua Univ., Shenzhen, China – sequence: 5 surname: Bichai Wang fullname: Bichai Wang organization: Dept. of Electron. Eng., Tsinghua Univ., Beijing, China |
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| Snippet | Massive multiple-input multiple-output (MIMO) using a large number of antennas at the base station (BS) is a promising technique for the next-generation 5G... |
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| SubjectTerms | Antennas Computational complexity MIMO Signal to noise ratio Simulation |
| Title | Low-Complexity LSQR-Based Linear Precoding for Massive MIMO Systems |
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