Energy-efficient radio resource management for next generation dense HetNet

5th International Conference on Energy Aware Computing Systems & Applications Pub Date : 2015-12-10 DOI:10.1109/ICEAC.2015.7352211

A. Mehbodniya, W. Saad, F. Adachi, Rintaro Yoneya, Ismail Güvenç

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引用次数: 3

Abstract

Designing high-speed, energy-efficient heterogeneous wireless networks has recently emerged as a key research challenge. A novel approach for radio resource management at the base station (BS) level is introduced with the objective of improving the spectral-efficiency, while keeping the energy-efficiency (EE) at an acceptable level. In this paper, a hybrid opportunistic ON/OFF switching (OOFS) and dynamic channel allocation (DCA) mechanism is proposed. The problem is formulated as a non-cooperative game between the BSs who seek to decide on their transmission mode and channel allocation parameters. To solve this game, a two-step algorithm is proposed. At first, a mixed-strategy game is used, so the BSs may decide independently about their power management strategy. In the second step, the BS selects its downlink channel using a fully distributed channel segregation approach. In dense heterogeneous environments, the DCA algorithm shows a significant improvement in terms of BS throughput over OOFS algorithm, while keeping an acceptable EE level comparable to OOFS.

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面向下一代密集网络的节能无线电资源管理

设计高速、节能的异构无线网络已成为近年来研究的一个重要挑战。提出了一种新的基站级无线电资源管理方法，旨在提高频谱效率，同时将能量效率保持在可接受的水平。本文提出了一种混合机会开/关开关(OOFS)和动态信道分配(DCA)机制。该问题被表述为寻求决定其传输模式和信道分配参数的基站之间的非合作博弈。为了求解这一博弈，提出了一种两步算法。首先，使用混合策略博弈，因此BSs可以独立决定其电源管理策略。在第二步中，BS使用完全分布式信道隔离方法选择其下行信道。在密集的异构环境中，DCA算法在BS吞吐量方面比OOFS算法有显著改善，同时保持与OOFS相当的可接受的EE水平。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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5th International Conference on Energy Aware Computing Systems & Applications

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