ENHANCED SECURE ROUTING WITH ENERGY EFFICIENT LINK ESTABLISHMENT AND DISTRIBUTED TIME SEQUENCE ROUTING (DTSR) IN MOBILE ADHOC NETWORKS [ READ ]
A.Ayubkhan, A.R.Mohamed Shanavas Ph.D., Dr. Khalid Idrissi, A. Mohamed Ashar Ali
The ability of mobile adhoc networks in co-operative routing has more chance of getting variety of attacks. To overcome the problem of routing attacks , there are many approaches has been discussed and we propose a novel distributed time sequence routing (DTSR) approach with energy efficient link management for mobile adhoc networks. In this approach, the nodes uses the secret key generated by Diffie-Hellman approach and shares between them. We are also growing the DTSR routing with both network size and node density. The Diffie-Hellman Key Exchange is one of the more popular and attractive methods of key allocation. It is a public-key cryptographic system whose sole principle is for distributing keys, whereby it is used to switch a single piece of in sequence, and where the value obtained is general used as a session key for a private-key scheme It enables that adhoc nodes can correspond each other securely. The key allocation to adhoc nodes is done by means of two layer process. This paper proposes a key distribution scheme, based on intrusion detection method for using a data broadcast from source to destination on the network. It based high level security and more energy efficient data transmission on their network.
A.Ayubkhan, A.R.Mohamed Shanavas Ph.D., Dr. Khalid Idrissi, A. Mohamed Ashar Ali
The ability of mobile adhoc networks in co-operative routing has more chance of getting variety of attacks. To overcome the problem of routing attacks , there are many approaches has been discussed and we propose a novel distributed time sequence routing (DTSR) approach with energy efficient link management for mobile adhoc networks. In this approach, the nodes uses the secret key generated by Diffie-Hellman approach and shares between them. We are also growing the DTSR routing with both network size and node density. The Diffie-Hellman Key Exchange is one of the more popular and attractive methods of key allocation. It is a public-key cryptographic system whose sole principle is for distributing keys, whereby it is used to switch a single piece of in sequence, and where the value obtained is general used as a session key for a private-key scheme It enables that adhoc nodes can correspond each other securely. The key allocation to adhoc nodes is done by means of two layer process. This paper proposes a key distribution scheme, based on intrusion detection method for using a data broadcast from source to destination on the network. It based high level security and more energy efficient data transmission on their network.
