Comparative Investigation for Energy Consumption of Different Chipsets Based on Scheduling for Wireless Sensor Networks

TL;DR

This paper compares the energy consumption of various chipsets used in wireless sensor networks under different scheduling and deployment strategies through simulation.

Contribution

It provides a comparative analysis of energy efficiency among specific chipsets in WSNs using simulation-based experiments.

Findings

TR1001 consumes less energy than CC1000 and CC1010 under certain conditions

Scheduling methods significantly impact energy consumption in WSNs

Deployment strategies influence the overall energy efficiency

Abstract

Rapid progress in microelectromechanical system (MEMS) and radio frequency (RF) design has enabled the development of low-power, inexpensive, and network-enabled microsensors. These sensor nodes are capable of capturing various physical information, such as temperature, pressure, motion of an object, etc as well as mapping such physical characteristics of the environment to quantitative measurements. A typical wireless sensor network (WSN) consists of hundreds to thousands of such sensor nodes linked by a wireless medium. In this paper, we present a comparative investigation of energy consumption for few commercially available chipsets such as TR1001, CC1000 and CC1010 based on different scheduling methods for two types of deployment strategies. We conducted our experiment within the OMNeT++ simulator.