Study of performance factors of Underwater Wi-Fi optical communication link

Abstract

Not long ago, the significance of underwater wireless optical communication has been developed for utilization of submerged investigation and ocean audit arrangements. This Undersea Wi-Fi visual connection technology is normal to play a predominant act in inspecting climate changes, prediction of natural crashes, and discovery of natural resources, marine biology, sea, and ocean environment. This underwater modulation & demodulation system have long been the default Wi-Fi communication method for acoustic applications due to their long distance range, the need for rapid communication inspire the expedition of non-acoustic approaches that have been already neglected due to their distance bar. UWOC has been recommended as the finest different scheme, in order to take the limitations in acoustic underwater communication. In this paper, four parameters of underwater optical wireless communication have been studied in theoretical and mathematical aspects. These are: 1) BER 2) Bandwidth 3) FOV4) UWOC ISI channel capacity. The above parameters are calculated by simple and closed form expression like Monte Carlo simulations using various link ranges in different water types. This provides a complete and easy way to calculate the system performance such as BER and bandwidth based on this model of signal response. Equalizer designed based on the advanced modeling function has been adopted in high speed UWOC system.