Biblio

This project enhances the security in which Ad Hoc On-Demand Distance Vector (AODV) routing protocol for MANETs with the game theoretical approach. This is achieved by using public key and private key for encryption and decryption processes. Proactive and reactive method is implemented in the proposed system. Reactive method is done in identification process but in proactive method is used to identify the nodes and also block the hackers node, then change the direction of data transmission to good nodes. This application can be used in military, research, confidential and emergency circumferences.

Mobile ad hoc network (MANET) does not have fixed infrastructure centralized server which manage the connections between the nodes. Rather, the nodes in MANET move randomly. Thus, it is risky to exchange data between nodes because there is a high possibility of having malicious node in the path. In this paper, we will describe a new authentication technique using message digest 5 (MD5), hashing for dynamic MANET on demand protocol (DYMO) based on reinforcement learning. In addition, we will describe an encryption technique that can be used without the need for a third party to distribute a secret key. After implementing the suggested model, results showed a remarkable enhancement in securing the path by increasing the packet delivery ratio and average throughput. On the other hand, there was an increase in end to end delay due to time spent in cryptographic operations.

Networking system does not liable on static infrastructure that interconnects various nodes in identical broadcast range dynamically called as Mobile Ad-hoc Network. A Network requires adaptive connectivity due to this data transmission rate increased. In this paper, we designed developed a dynamic cluster head selection to detect gray hole attack in MANETs on the origin of battery power. MANETs has dynamic nodes so we delivered novel way to choose cluster head by self-stabilizing election algorithm followed by MD5 algorithm for security purposes. The Dynamic cluster based intrusion revealing system to detect gray hole attack in MANET. This Architecture enhanced performance in terms of Packet delivery ratio and throughput due to dynamic cluster based IDS, associating results of existing system with proposed system, throughput of network increased, end to end delay and routing overhead less compared with existing system due to gray hole nodes in the MANET. The future work can be prolonged by using security algorithm AES and MD6 and also by including additional node to create large network by comparing multiple routing protocol in MANETs.

The individual distinguishing proof number or (PIN) and Passwords are the remarkable well known verification strategy used in different gadgets, for example, Atms, cell phones, and electronic gateway locks. Unfortunately, the traditional PIN-entrance technique is helpless vulnerable against shoulder-surfing attacks. However, the security examinations used to support these proposed system are not focused around only quantitative investigation, but instead on the results of experiments and testing performed on proposed system. We propose a new theoretical and experimental technique for quantitative security investigation of PIN-entry method. In this paper we first introduce new security idea know as Grid Based Authentication System and rules for secure PIN-entry method by examining the current routines under the new structure. Thus by consider the existing systems guidelines; we try to develop a new PIN-entry method that definitely avoids human shoulder-surfing attacks by significantly increasing the amount of calculations complexity that required for an attacker to penetrate through the secure system.