Lightweight Cryptography Model for Overhead and Delay Reduction in the Network

Mobile Ad hoc Network (MANET) refers to a group of multi-hop wireless networks that can configure themselves. The success of MANET-based applications hinges on a number of criteria, with reliability being a key one. While many security procedures already exist, the new characteristics and vulnerabilities of this networking paradigm may make the old ones obsolete. The ability of a network to scale up in size without sacrificing performance is known as scalability. Proactive routing algorithms in mobile wireless networks face a significant scalability difficulty due to the frequent need to send and receive control signals. The key to fixing the scalability issue is cutting down on overhead. In order to lessen the burden of data transmission, a overhead and delay reduction model is designed in this research. The suggested technique is based on a weight function that integrates the node's connection and battery life. In this research, MANET network latency and traffic load reduction model is designed. The proposed technique is based on the idea of only transmitting certain, predetermined packets avoiding loss. Congestion in the network can be avoided by first ensuring that all neighbor nodes are valid before sending a packet. When it comes to the evolution of MANET, Quality of Service (QoS) is a crucial factor. This research proposes a Trusted Node Feedback based Node Authentication Model with Node Transmission Analysis (NAM-NTA) model for decreasing the network overhead and delay levels in the MANET. The emphasis of this research is on constraints based on latency and neighbor connectivity. This technique is able to detect superfluous connections and eliminate them from the network structure. The proposed achieved 98.3% accuracy in network delay reduction. The proposed model is compared with the traditional model and the results show that the proposed model performance in overhead and delay reduction is high.