K. Ganesan and A. P. Preethi. Efficient Multi-Hop Communication Using Fast Dynamic Fault Detection Algorithm In Vanet
Neural Parallel and Scientific Computations 29 (2021), No. 4, 199-210

https://doi.org/10.46719/npsc20212943

ABSTRACT.
As vehicle self-organizing networks (in VANETs) know, this has to be an essential area of research in recent years. As the most advanced VANET in this country, this research will introduce the issue of relationship. Reliable transport protocols are offered based on arbitrary unicast routes. The method with route optimization request response is minimized to control the overhead of the proposed contract—the fall detection system. A task is to predict the energy from the nodes of the data transmission path to the near-robust destination and use the algorithmic process traffic detection and avoidance to improve packet transmission. Crash Detection Defect-Free Algorithm (CDFA) Consumption Cost is not a data metric that achieves communication speed. The route optimization request-response method is minimized to control the overhead of the proposed protocol. Fast routing protocols use the fast dynamic communication algorithm (FDCA), which is intended to guarantee multi-hop wireless links between sources and destinations. At the peer node, use a multi-hop routing method for the urgent forwarding of data packets to the recipient. To avoid hitting the Fast Dynamic Obstacle Detection Algorithm (FDFDA), the long delay of the vehicle is due to unknown traffic conditions or the possibility of traffic congestion. This method has proven to be very fast with reliable and efficient multi-hop established by supervisors: high-speed packet loss message distribution and the consequences of routing protocols to reduce redundancy need to be cut.

Keywords: VANET, protocol, Crash Detection Faultless, Dynamic Communication, multi-hop, traffic congestions.