Nodal Biomedical Communication Scenario Based On Wireless Body Area Sensors Network with Parameteric Correlation

Abstract

In this work, different simulations of Wireless body area sensors network explains random behavior of energy consumption at different nodes, also erratic distribution of energy helps to explore new models on energy, path loss which helps in reduction of energy consumption per node so that the battery life can be expanded. Amount of energy consumed per node helps researcher to reduce efficient cost of complete network. Introduction of a new simulator Castalia for WBASN’s which works for low power devices is the novelty of this work. This simulator works on OMNET++ Platform. Further to lower down the consumption of energy at different nodes an innumerable definitive topology designs and furnishing approach for Wireless Body Area Sensors Network is proposed. Different topology designs that takes into account are well designed so that the consumption of energy can be minimized and guaranteeing a reliable and fast data delivery which supports various health applications. So the literature first proposed a 3D coordinate system that is used to calculate the distance between the different nodes in different body postures and movements. System uses a model of a standard human body and some meticulous set of node positions. Next, scrutinize the superlative nodes by calculating the distance between them, and the author try to compare energy, path loss, Probability density Function along with other performance metrics like node degree, diameter, link capacity and bisection width.