Design Challenges of Millimeter Wave Communications: A MAC Layer Perspective

TL;DR

This paper reviews the unique MAC layer challenges of millimeter wave communications for 5G, emphasizing the need for adaptive protocols tailored to mmW characteristics due to high attenuation, blockage, and directionality.

Contribution

It highlights the gaps in current standards for cellular mmW networks and proposes the necessity for specialized MAC layer adaptation mechanisms for 5G.

Findings

Current standards address some issues for personal and local networks

mmW MAC layer design requires new adaptation mechanisms

Much work remains to develop efficient mmW access control techniques

Abstract

As the spectrum is becoming more scarce due to exponential demand of formidable data quantities, the new millimiterwave (mmW) band is considered as an enabling player of 5G communications to provide multi-gigabits wireless acccess. MmW communications exhibit high attenuation and blockage, directionality due to massive beamforming, deafness, low-interference, and may need micro waves networks for coordination and fallback support. The current mmW standardizations are challenged by the overwhelming complexity given by such heterogeneous communication systems and mmW band characteristics. This demands new substantial protocol developments at all layers. In this paper, the medium access control issues for mmW communications are reviewed. It is discussed that while existing standards address some of these issues for personal and local area networks, little has been done for cellular networks. It is argued that the medium access control layer should be equipped with adaptation mechanisms that are aware of the special mmW characteristics. Recommendations for mmW medium access control design in 5G are provided. It is concluded that the design of efficient access control techniques for mmW is in its infancy and much work still has to be done.