A Simulation Framework for Evaluating Interference Mitigation Techniques in Heterogeneous Cellular Environments

Femtocells present an attractive solution for the improvement of a mobile network’s services providing better data rates and coverage. Since their deployment results to a heterogeneous network where two layers must utilize the available spectrum, issues of interference arise. A method to address this challenge, is investigating the locations of the newly installedFBS, and enforcing apower controlled transmissionof all FBSs that achieves optimal and fair overall performance. Another option that becomes available in inter-cell interference cancellation (ICIC) macrocell environments, is utilizing the available spectrum to complete or partly avoid co-channel operation. In this work, we provide a simulation framework that allows the creation of custom, high configurable, user defined topologies of femtocells with power control and frequency allocation capabilities. It allows the investigation of the margin of improvement in interference when these methods are applied and may work as a decision tool for planning and evaluating heterogeneous networks. To showcase the framework’s capabilities, we evaluate and study the behaviour of custom deployed femtocells/macrocells networks and examine the cross-tier interference issues. Facilitated by the framework, we enforce and evaluate each interference mitigation technique for different femtocells’ deployment densities. Finally, we compare the results of each method in terms of total throughput, spectral efficiency and cell-edge users’ performance. C. Bouras (B) · V. Kokkinos · A. Papazois Computer Technology Institute and Press “Diophantus”, N. Kazantzaki, 26504 Patras, Greece e-mail: [email protected] V. Kokkinos e-mail: [email protected] A. Papazois e-mail: [email protected] C. Bouras · G. Diles · V. Kokkinos · K. Kontodimas · A. Papazois Computer Engineering and Informatics Department, University of Patras, 26504 Patras, Greece e-mail: [email protected] K. Kontodimas e-mail: [email protected]