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Energy Efficient Cooperative Sleep Control Using Small Cell for Wireless Networks

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  • Yuan Gao
  • Yi Li
  • Hongyi Yu
  • Xianfeng Wang
  • Shihai Gao
  • Peng Xue

Abstract

The demand for higher throughput and more reliable quality of service (QoS) explosive increases the number of base stations in future wireless networks, which causes severe energy waste problems in wireless networks, especially when base stations are in low traffic load status. This paper has two main contributions: first of all, we propose a semistatic energy efficient method to find out the optimal on-off pattern considering the interference from adjacent base stations using integer convex optimization, from which the optimal on-off proportion of base stations could be obtained; then we propose a novel energy efficient cooperative heuristic algorithm in dynamic scenario, by separating the waiting time into two independent Markov processes using the new method; the total power consumption could be reduced significantly by adopting the novel method. Compared with reference method, simulation results indicate that in semistatic scenario, the total system power consumption could be reduced up to 26%, and, in dynamic scenario, the system power consumption could be reduced up to 40%.

Suggested Citation

  • Yuan Gao & Yi Li & Hongyi Yu & Xianfeng Wang & Shihai Gao & Peng Xue, 2015. "Energy Efficient Cooperative Sleep Control Using Small Cell for Wireless Networks," International Journal of Distributed Sensor Networks, , vol. 11(8), pages 903853-9038, August.
    • Handle: RePEc:sae:intdis:v:11:y:2015:i:8:p:903853
    DOI: 10.1155/2015/903853
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