A guaranteed data transmission system for wireless ad hoc networks

Wireless ad hoc networks are highly used in the current network environment in spite of its effectiveness, reliable, minimum cost utilization, and non‐static infrastructure. To achieve the Quality of Service (QoS) in the wireless ad hoc network, resources in the network should be used properly. Here the QoS to be ensured is edge to edge latency, uneasiness, and packet loss. During information passing in a multi‐hop edge to edge interaction, the nodes in between the sender and receiver may intrude or monitor or listen to the information without the consent of the sender and receiver. To overcome these disadvantages, an assured and flexible information transmission should take place between the sender and receiver. In this regard, an optimal model called CQASS has been proposed to attain better performance by assuring the edge to edge interaction in wireless ad hoc networks. The edge to edge interaction is assured and protected by authentication. An optimistic connection identity from the pool of delivery connection is used to maintain the QoS. Flexible symmetric encryption using the secret key is implemented for node communication. The proposed model CQASS will not allow any malevolent nodes to interact with the legal in between nodes for the information transmission even the proposed will not allow the malevolent nodes to enter the legal path between the sender and receiver. The proposed model results are compared with the existing systems and the proposed model increases the performance of the network through resulting in reduced packet lose, handling of uneasiness and minimizes the latency in edge to edge communication. Optimal key generation, better ciphering, minimized pricing, and effective storage and interaction are other features of the proposed model. Proposed approach Performance of Destination Sequence Distance Vector (Edge to Edge Latency, uneasiness, packet loss).