posted on 2017-11-08, 14:00authored byYe Liu, Chung Shue Chen, Chi Wan Sung, Chandramani Singh
To obtain good network performance in Long Term
Evolution-Advanced (LTE-A) heterogeneous networks (HetNets),
enhanced inter-cell interference coordination (eICIC) and further
eICIC (FeICIC) have been proposed by LTE standardization
bodies to address the entangled inter-cell interference and the
user association problems. We propose the distributed algorithms
based on the exact potential game framework for both eICIC
and FeICIC optimizations. We demonstrate via simulations a
64% gain on energy efficiency (EE) achieved by eICIC and
another 17% gain on EE achieved by FeICIC. We also show
that FeICIC can bring other significant gains in terms of
cell-edge throughput, spectral efficiency, and fairness among
user throughputs. Moreover, we propose a downlink scheduler
based on a cake-cutting algorithm that can further improve
the performance of the optimization algorithms compared with
conventional schedulers.
Funding
This work has been partially supported by ANR project IDEFIX under grant
number ANR-13-INFR-0006, a grant from the Research Grants Council of
the Hong Kong Special Administrative Region, China, under Project CityU
121713, and by the Engineering and Physical Science Research Council of
the UK, EPSRC, under the grant EP/M015475.
History
School
Mechanical, Electrical and Manufacturing Engineering
Published in
IEEE/ACM Transactions on Networking
Citation
LIU, Y. ... et al., 2017. A game theoretic distributed algorithm for FeICIC optimization in LTE-A HetNets. IEEE/ACM Transactions on Networking, 25(6), pp. 3500-3513.