A robust energy efficient MAC protocol design for Underwater sensor network

Abstract

In this examination work, a vigorous and vitality proficient Bidirectional Multi-Flow MAC convention (BMF-MAC) for Underwater Sensor Network is proposed to deal with multi-bounce multi-stream information trails so that numerous floods of data transmission proceed at the same time while modifying with changing traffic condition. The proposed MAC improves channel usage by presenting an information transmission strategy utilizing the bidirectional multi-stream parcel technique for sending different information bundles of a similar stream in the turn around course. So as to decrease of idleness, this convention is meant to plan more information transmission over different multi-jump streams for quick circulation of information. So as to complete the presentation investigation of the proposed BMF-MAC convention, a scientific model is inferred which incorporates the condition of vitality utilization, throughput and start to finish delay. At long last, execution examination between the proposed BMF-MAC convention and contemporary CMRT convention is appeared. Our correlation demonstrates that proposed convention outflanks the contemporary Cascading Multi-jump Reservation and Transmission (CMRT) convention as far as throughput, start to finish deferral and vitality utilization.