Novel Channel Fuzzy Logic System Modeling for Aquatic Acoustic Wireless Communication Within a Tank

Novel Channel Fuzzy Logic System Modeling for Aquatic Acoustic Wireless Communication Within a Tank

연구 분야: Networking

학회: International Conference on Soft Computing and its Engineering Applications

This research explores underwater wireless communication in confined spaces, specifically water tanks, departing from the common focus on seawater in 5G networks. The study employs a unique system model using fuzzy logic techniques to analyze the impact of underwater applications. Unlike traditional sonar models, the approach emphasizes secured data transmission based on constraint statements, addressing signal attenuation in sodium chloride-saturated tanks. A tailored attenuation model and a multipath propagation model are developed to counter challenges like inter-symbol interference and protocol latency. Considering the tank’s properties, a channel propagation model is designed for reliable communication. The study introduces a Wireless Channel propagation model to calculate signal coverage area. Using the Fuzzy Logic tool in MATLAB, simulations evaluate attenuation, multipath components, and coverage area for acoustic signals in the underwater frequency range. Fuzzy logic analysis provides comprehensive insights into underwater communication dynamics, specifically assessing the attenuation of acoustic frequency signals.