On Optimizing Energy Efficiency in Multi-Radio Multi-Channel Wireless Networks

TL;DR

This paper investigates how to optimize energy efficiency in multi-radio multi-channel wireless networks by analyzing the trade-offs between capacity and energy consumption, providing theoretical bounds and solution methods.

Contribution

It introduces a detailed problem formulation for energy efficiency optimization in MR-MC networks and derives a theoretical upper bound for homogeneous networks.

Findings

Optimal energy efficiency is close to the theoretical upper bound.

Increasing radios and channels does not always improve energy efficiency.

Conditions for achieving optimal energy efficiency are identified.

Abstract

Multi-radio multi-channel (MR-MC) networks contribute significant enhancement in the network throughput by exploiting multiple radio interfaces and non-overlapping channels. While throughput optimization is one of the main targets in allocating resource in MR-MC networks, recently, the network energy efficiency is becoming a more and more important concern. Although turning on more radios and exploiting more channels for communication is always beneficial to network capacity, they may not be necessarily desirable from an energy efficiency perspective. The relationship between these two often conflicting objectives has not been well-studied in many existing works. In this paper, we investigate the problem of optimizing energy efficiency under full capacity operation in MR-MC networks and analyze the optimal choices of numbers of radios and channels. We provide detailed problem formulation and solution procedures. In particular, for homogeneous commodity networks, we derive a theoretical upper bound of the optimal energy efficiency and analyze the conditions under which such optimality can be achieved. Numerical results demonstrate that the achieved optimal energy efficiency is close to the theoretical upper bound.