Litcius/Paper detail

Understanding Operational 5G

Shaoqing Xu, Anfu Zhou, Xinyu Zhang, Guixian Wang, Xi Liu, Congkai An, Yiming Shi, Liang Liu, Huadóng Ma

2020264 citationsDOI

Abstract

5G, as a monumental shift in cellular communication technology, holds tremendous potential for spurring innovations across many vertical industries, with its promised multi-Gbps speed, sub-10 ms low latency, and massive connectivity. On the other hand, as 5G has been deployed for only a few months, it is unclear how well and whether 5G can eventually meet its prospects. In this paper, we demystify operational 5G networks through a first-of-its-kind cross-layer measurement study. Our measurement focuses on four major perspectives: (i) Physical layer signal quality, coverage and hand-off performance; (ii) End-to-end throughput and latency; (iii) Quality of experience of 5G's niche applications (e.g., 4K/5.7K panoramic video telephony); (iv) Energy consumption on smartphones. The results reveal that the 5G link itself can approach Gbps throughput, but legacy TCP leads to surprisingly low capacity utilization (< 32%), latency remains too high to support tactile applications and power consumption escalates to 2 - 3x over 4G. Our analysis suggests that the wireline paths, upper-layer protocols, computing and radio hardware architecture need to co-evolve with 5G to form an ecosystem, in order to fully unleash its potential.

Topics & Concepts

Computer scienceLatency (audio)ThroughputPower consumptionComputer networkEnergy consumptionPhysical layerLow latency (capital markets)Application layerTransport layerArchitectureQuality of serviceWirelineEfficient energy useWirelessTelecommunicationsLayer (electronics)Power (physics)EngineeringElectrical engineeringOperating systemSoftware deploymentVisual artsArtQuantum mechanicsChemistryOrganic chemistryPhysicsAdvanced MIMO Systems OptimizationImage and Video Quality AssessmentAdvanced Wireless Network Optimization