On Energy Efficiency and Delay Minimization in Reactive Protocols in Wireless Multi-hop Networks

TL;DR

This paper develops Linear Programming models to improve energy efficiency and reduce delay in reactive routing protocols for wireless multi-hop networks, and validates enhancements through simulations.

Contribution

It introduces LP_models for assessing reactive protocols and proposes enhancements to AODV and DSR to optimize delay and energy use.

Findings

Enhanced protocols reduce routing latency.

Optimizations lead to better energy utilization.

Simulation confirms improved performance.

Abstract

In Wireless Multi-hop Networks (WMhNs), routing protocols with energy efficient and delay reduction techniques are needed to fulfill users demands. In this paper, we present Linear Programming models (LP_models) to assess and enhance reactive routing protocols. To practically examine constraints of respective LP_models over reactive protocols, we select AODV, DSR and DYMO. It is deduced from analytical simulations of LP_models in MATLAB that quick route repair reduces routing latency and optimizations of retransmission attempts results efficient energy utilization. To provide quick repair, we enhance AODV and DSR. To practically examine the efficiency of enhanced protocols in different scenarios of WMhNs, we conduct simulations using NS- 2. From simulation results, enhanced DSR and AODV achieve efficient output by optimizing routing latencies and routing load in terms of retransmission attempts.