ENHANCING FANET RELIABILITY AND CONGESTION CONTROL WITH AN IMMACULATE AND DEXTEROUS EFCCC ROUTING PROTOCOL

Abstract

In FANET’s both link failure and node failure can result in packet loss, additionally, the methods for choosing the bypass route and avoiding traffic are rarely used. In order to address congestion and route errors utilizing bypass route selection in FANETs, we offer an adaptive reliable, and congestion control routing protocol in this study. Our proposed protocol gives finer results as compared to the distinguished Protocols corresponding to Congestion control. Numerous routes are built. For effective data transfer, the shortest pathways are found among them. Based on link and route capacity and utilization, congestion is identified. When a source node notices congestion on a connection along the path, it splits traffic using a traffic-splitting function while taking the path availability threshold into account. Using the congestion indicator bit, a node alerts its neighbours if it is unable to resolve the congestion. We demonstrate through simulation that the proposed protocol is dependable and increases throughput while reducing overhead and packet losses.