Reference : Energy-Efficient Hybrid Precoding for mmWave Multi-User Systems
Scientific congresses, symposiums and conference proceedings : Paper published in a book
Engineering, computing & technology : Electrical & electronics engineering
Security, Reliability and Trust
http://hdl.handle.net/10993/47079
Energy-Efficient Hybrid Precoding for mmWave Multi-User Systems
English
Ha, Vu Nguyen mailto [University of Luxembourg > Interdisciplinary Centre for Security, Reliability and Trust (SNT) > SigCom >]
Nguyen, Duy H. N. []
Frigon, Jean-Francois []
20-May-2018
2018 IEEE International Conference on Communications (ICC) Proceedings
IEEE
6
Yes
International
978-1-5386-3180-5
Kansas, MO
USA
2018 IEEE International Conference on Communications (ICC)
from 20-05-2018 to 24-05-2018
[en] energy-efficiency maximization ; hybrid precoding design ; MM-wave multiuser systems
[en] This paper aims to study an energy-efficiency (EE) maximization hybrid precoding (HP) design for mmWave multi-user (MU) systems where the analog precoding (AP) matrix is realized by a number of switches and phase shifters so that a connection between an RF chain and a transmit antenna can be switched off for energy saving. By explicitly considering the effect of each connection on the required power of digital precoding (DP) and AP design process, we describe the total power consumption as a sparsity form of the AP matrix. Together with the novel sparsity-modulus constraints of AP matrix, these sparsity terms make our system EE maximization (SEEM) problem be non-convex and challenging to solve. To tackle the SEEM problem, we first transform it into a subtractive-form weighted sum rate and power (WSRP) problem. We then exploit an alternating minimization of the mean-squared error algorithm to solve the WSRP problem where the DP vectors and AP matrix are updated alternatively, and a compressed sensing-based re-weighted quadratic- form relaxation method is employed to deal with the sparsity parts and the sparsity-modulus constraints.
http://hdl.handle.net/10993/47079

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