@CHAPTER{ iet:/content/books/10.1049/pbte074e_ch3, author = {Nassar Ksairi}, affiliation = {Mathematical and Algorithmic Sciences Laboratory, Huawei Technologies France}, author = {Marco Maso}, affiliation = {Mathematical and Algorithmic Sciences Laboratory, Huawei Technologies France}, author = {Beatrice Tomasi}, affiliation = {Mathematical and Algorithmic Sciences Laboratory, Huawei Technologies France}, keywords = {linear precoding scheme;antenna elements;cellular network;network layer;BS array;base station;additive white Gaussian noise effect;high spatial multiplexing gain;spatial resolution;CSI;intracell interference leakage;signal processing;multicell interference leakage;MM-wave communication;uplink-downlink channel state information acquisition;receiver;fifth generation access network;physical layer;network spectral efficiency;AWGN effect;linear detection scheme;access layer;massive MIMO technique;millimeter wave communications;access mechanisms;massive multiple input multiple output technique;wireless connections;5G access network;}, title = {The role of massive MIMO in 5G access networks: potentials, challenges, and solutions}, booktitle = Access, Fronthaul and Backhaul Networks for 5G & Beyond, publisher = {Institution of Engineering and Technology}, year = {2017}, pages = {47-77}, series = {Telecommunications}, doi = {10.1049/PBTE074E_ch3}, url = {https://digital-library.theiet.org/;jsessionid=1dbjkh1tewwi1.x-iet-live-01content/books/10.1049/pbte074e_ch3} }