Fundamental trade-offs on green wireless networks
TLDR
In this paper, the authors propose a framework for green radio research and integrate the fundamental issues that are currently scattered, which consists of four fundamental tradeoffs: deployment efficiency, energy efficiency, spectrum efficiency and delay power.Abstract:
Traditional mobile wireless network mainly design focuses on ubiquitous access and large capacity. However, as energy saving and environmental protection become global demands and inevitable trends, wireless researchers and engineers need to shift their focus to energy-efficiency-oriented design, that is, green radio. In this article, we propose a framework for green radio research and integrate the fundamental issues that are currently scattered. The skeleton of the framework consists of four fundamental tradeoffs: deployment efficiency-energy efficiency, spectrum efficiency-energy efficiency, bandwidth-power, and delay-power. With the help of the four fundamental trade-offs, we demonstrate that key network performance/cost indicators are all strung together.read more
Citations
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Energy-efficient scheduling with individual packet delay constraints and non-ideal circuit power
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Energy-efficient transmission for MIMO interference channels
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Energy efficiency and deployment efficiency tradeoff for heterogeneous wireless networks
TL;DR: This paper characterize the energy efficiency (EE) and deployment efficiency (DE) for heterogenous wireless networks, taking into account realistic network power consumption model and dynamic network configuration and provides useful insights for the modeling and deployment of future green wireless networks.
Proceedings ArticleDOI
Energy-efficient best-select relaying in wireless cooperative networks
Gubong Lim,Leonard J. Cimini +1 more
TL;DR: To improve the energy efficiency of best-select relaying, the optimal constellation size and transmission bandwidth are studied and it is shown that significant performance gain is possible compared to a direct communication scheme.
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Traffic-aware power adaptation and base station sleep control for energy-delay tradeoffs in green cellular networks
TL;DR: This paper considers the control problem of how to adapt transmit power according to flow-level traffic variations, which leverages the tradeoff between energy consumption and delay performance and investigates two power adaptation strategies: load-aware and queue-aware.
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