Design and measurement-based evaluations of coherent JT CoMP: a study of precoding, user grouping and resource allocation using predicted CSI

• Published in: EURASIP journal on wireless communications and networking Vol. 2014; no. 1; pp. 1 - 20
• Main Authors: Apelfröjd, Rikke, Sternad, Mikael
• Format: Journal Article
• Language: English
• Published: Cham Springer International Publishing 18.06.2014; BioMed Central Ltd
• Subjects: channel predictions; Channels; Coherence; Communications Engineering; Coordinated Multipoint; Delay; Design engineering; Electrical Engineering with specialization in Signal Processing; Elektroteknik med inriktning mot signalbehandling; Engineering; Gain; Information Systems Applications (incl.Internet); Interference; Networks; Resource allocation; robust precoding; Searching; Signal,Image and Speech Processing; user grouping; Coordinated multipoint; User grouping; Channel predictions; Robust precoding; Resource allocation
• ISSN: 1687-1499; 1687-1472; 1687-1499
• DOI: 10.1186/1687-1499-2014-100

Coordinated multipoint (CoMP) transmission provides high theoretic gains in spectral efficiency with coherent joint transmission (JT) to multiple users. However, this requires accurate channel state information at the transmitter (CSIT) and also user groups with spatially compatible users. The aim of this paper is to use measured channels to investigate if significant CoMP gains can still be obtained with channel estimation errors. This turns out to be the case, but requires the combination of several techniques. We here focus on coherent downlink JT CoMP to multiple users within a cluster of cooperating base stations. The use of Kalman predictors is investigated to estimate the complex channel gains at the moment of transmission. It is shown that this can provide sufficient CSIT quality for JT CoMP even for long (>20 ms) system delays at 2.66 GHz at pedestrian velocities or, for lower delays, at 500 MHz, at vehicular velocities. A user grouping and resource allocation scheme that provides appropriate groups for CoMP is also suggested. It provides performance close to that obtained by exhaustive search at very low complexity, low feedback cost and very low backhaul cost. Finally, a robust linear precoder that takes channel uncertainties into account when designing the precoding matrix is considered. We show that, in challenging scenarios, this provides large gains compared with zero-forcing precoding. Evaluations of these design elements are based on measured channels with realistic noise and intercluster interference assumptions. These show that high JT CoMP gains can be expected, on average over large sets of user positions, when the above techniques are combined - especially in severely intracluster interference limited scenarios.