Efficient Channel Estimation Techniques for MIMO Systems with 1-Bit ADC  被引量:5

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作  者:Hany SHussein Shaimaa Hussein Ehab Mahmoud Mohamed 

机构地区:[1]Electrical Engineering Dept.,College of Engineering,King Khalid University,Abha 61411,King of Saudi Arabia [2]Electrical Engineering Dept.,Faculty of Engineering,Aswan University,Aswan 81542,Egypt [3]Electrical Engineering Dept.,College of Engineering,Prince Sattam Bin Abdulaziz University,Wadi Addwasir 11991,King of Saudi Arabia

出  处:《China Communications》2020年第5期50-64,共15页中国通信(英文版)

摘  要:With a low resolution 1-bit ADC on its receiver(RX) side, MIMO with 1-bit ADC took a considerable step in the fulfillment of the hardware complexity constrains of the internet of things(IoT) PHY layer design. However, applying 1-bit ADC at MIMO RX results in severe nonlinear quantization error. By which, almost all received signal amplitude information is completely distorted. Thus, MIMO channel estimation is considered as a major barrier towards practical realization of 1-bit ADC MIMO system. In this paper, two efficient sparsity-based channel estimation techniques are proposed for 1-bit ADC MIMO systems, namely the low complexity sparsity-based channel estimation(LCSCE), and the iterative adaptive sparsity channel estimation(IASCE). In these techniques, the sparsity of the 1-bit ADC MIMO channel is exploited to propose a new adaptive and iterative compressive sensing(CS) recovery algorithm to handle the 1-bit ADC quantization effect. The proposed algorithms are tested with the state-of-the-art 1-bit ADC MIMO constant envelope modulation(MIMO-CEM). The 1-bit ADC MIMO-CEM system is chosen as it fulfills both energy and hardware complexity constraints of the IoT PHY layer. Simulation results reveal the high effectiveness of the proposed algorithms in terms of spectral efficiency(SE) and computational complexity. The proposed LCSCE reduces the computational complexity of the 1-bit ADC MIMO-CEM channel estimation by 86%, while the IASCE reduces it by 96% compared to the recent techniques of MIMO-CEM channel estimation. Moreover, the proposed LCSCE and IASCE improve the spectrum efficiency by 76 % and 73 %, respectively, compared to the recent techniques.

关 键 词:channel estimation 1-bit ADC MIMO sparsity recovery compressive sensing Internet of things 

分 类 号:TN929.5[电子电信—通信与信息系统] TP391.44[电子电信—信息与通信工程]

 

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