English

Spatial Interference Cancellation for Multi-Antenna Mobile Ad Hoc Networks

Information Theory 2012-08-27 v2 math.IT

Abstract

Interference between nodes is a critical impairment in mobile ad hoc networks (MANETs). This paper studies the role of multiple antennas in mitigating such interference. Specifically, a network is studied in which receivers apply zero-forcing beamforming to cancel the strongest interferers. Assuming a network with Poisson distributed transmitters and independent Rayleigh fading channels, the transmission capacity is derived, which gives the maximum number of successful transmissions per unit area. Mathematical tools from stochastic geometry are applied to obtain the asymptotic transmission capacity scaling and characterize the impact of inaccurate channel state information (CSI). It is shown that, if each node cancels L interferers, the transmission capacity decreases as the outage probability to the power of 1/(L+1) as the outage probability vanishes. For fixed outage probability, as L grows, the transmission capacity increases as L to the power of (1-2/alpha) where alpha is the path-loss exponent. Moreover, CSI inaccuracy is shown to have no effect on the transmission capacity scaling as the outage probability vanishes, provided that the CSI training sequence has an appropriate length, which we derived. Numerical results suggest that canceling merely one interferer by each node increases the transmission capacity by an order of magnitude or more, even when the CSI is imperfect.

Keywords

Cite

@article{arxiv.0807.1773,
  title  = {Spatial Interference Cancellation for Multi-Antenna Mobile Ad Hoc Networks},
  author = {Kaibin Huang and Jeffrey G. Andrews and Dongning Guo and Robert W. Heath, and Randall A. Berry},
  journal= {arXiv preprint arXiv:0807.1773},
  year   = {2012}
}

Comments

28 pages; submitted to IEEE Trans. on Information Theory

R2 v1 2026-06-21T10:59:30.941Z