Affiliation:
1. PLA University of Science and Technology, China
2. Nanjing University of Aeronautics and Astronautics, China
Abstract
Small-cell technologies are seen as one of the most promising solutions for the rapid growth of wireless data services and 5G requirements. However, because most SBSs are deployed with minimum intervention from the end users and the service providers, it is hard to mitigate co-tiered interference. It is significant to study the self-organized distributed co-tiered interference mitigation and resource allocation. Game theory is an effective distributed approach towards handling the distributed co-tiered interference mitigation problem without a central controller. This chapter is to address the application of game theory and distributed learning solutions for distributed co-tiered interference mitigation. Two potential game models for static and dynamic co-tiered interference mitigation are presented and discussed for small-cell networks with fixed loads and dynamic loads separately. In addition, two distributed learning algorithms are presented and results are discussed. Finally, some future research directions are given.
Reference34 articles.
1. Clustering and resource allocation for dense femtocells in a two-tier cellular OFDMA network.;A.Abdelnasser;IEEE Transactions on Communications,2014
2. Game Theoretic Approaches for Multiple Access in Wireless Networks: A Survey
3. Uplink capacity and interference avoidance for two-tier femtocell networks
4. Spectrum allocation in tiered cellular networks
5. Lotus: Location-aware online truthful double auction for dynamic spectrum access.;Y.Chen;IEEE Transactions on Wireless Communications,2014