[Oral Presentation]Improved sparse error recovery approach for detecting QAM signals in overloaded massive MIMO systems - THE ELEVENTH IEEE SENSOR ARRAY AND MULTICHANNEL SIGNAL PROCESSING WORKSHOP (IEEE SAM2020)

Improved sparse error recovery approach for detecting QAM signals in overloaded massive MIMO systems

ID：138 Submission ID：125 View Protection：ATTENDEE Updated Time：2020-08-05 10:17:28 Hits：349 Oral Presentation

Start Time：2020-06-08 14:40 （Asia/Shanghai）

Duration：20min

Session：[S] Special Session » [SS14] Dependent Source Separation

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Abstract

With a convenient concatenation of a convex relaxation-based detector and a simple greedy algorithm, we propose an improved Sparse error Recovery Detection approach (PDSR) for massive Multiple Input Multiple Output (m-MIMO) systems that, in particular, transmit QAM signals. The proposed PDSR approach can perform well in situations, where the classical one, either acts poorly or completely fails. We further propose an Alternating Direction Method of Multipliers (ADMM)-based solver for the convex detector, which is advantageous in maintaining an affordable complexity to the overall proposed detection scheme. Numerical experiments show the efficiency of our approach, especially when applied to overloaded m-MIMO systems.

Keywords

Massive MIMO (m-MIMO); Signal detection; Convex optimization; ADMM; Greedy algorithms; Compressive sensing

Speaker

Yacine Meslem

Ecole Militaire Polytechnique, Algeria

Submission Author

Yacine Meslem Ecole Militaire Polytechnique, Algeria

Abdeldjalil A飐sa-El-Bey IMT Atlantique, France

Mustapha Djeddou Military Polytechnic School, Algeria