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Projects > COMPUTER > 2017 > IEEE > WIRELESS COMMUNICATION
In heterogeneous networks, a dense deployment of base stations (BSs) leads to increased total energy consumption, and consequently increased co-channel interference (CCI). In this paper, to deal with this problem, self-organizing mechanisms are proposed for joint channel and power allocation procedures which are performed in a fully distributed manner. A dynamic channel allocation mechanism is proposed, in which the problem is modeled as a non cooperative game, and a no-regret learning algorithm is applied for solving the game. In order to improve the accuracy and reduce the effect of shadowing, we propose another channel allocation algorithm executed at each user equipment (UE). In this algorithm, each UE reports the channel with minimum CCI to its associated BS. Then, the BS selects its channel based on these received reports. To combat the energy consumption problem, BSs choose their transmission power by employing an ON-OFF switching scheme. Simulation results show that the proposed mechanism, which is based on the second proposed channel allocation algorithm and combined with the ONOFF Switching scheme, balances load among BSs. Furthermore, it yields significant performance gains up to about 40:3%, 44:8%, and 70:6% in terms of average energy consumption, UE’s rate, and BS’s load, respectively, compared to a benchmark based on an interference-aware dynamic channel allocation algorithm.