Tiered Authentication of Multicast Protocol for Ad-Hoc Networks (TAM)

Problem Definition

PROBLEM DESCRIPTION: In large scale dense ad-hoc networks, particularly in mission critical applications such as troop coordination in the field and situational awareness, the need for secure and authenticated multicast communication is crucial. However, existing authentication protocols are not suitable for ad-hoc networks due to limited computation and communication resources, as well as unguaranteed connectivity to trusted authorities. This results in vulnerabilities in message traffic authentication and network management. Therefore, there is a need for a new method to address these challenges and provide a secure Tiered Authentication scheme for multicast traffic in ad-hoc networks. This project aims to develop a Tiered Authentication of Multicast Protocol (TAM) specifically designed for large scale dense ad-hoc networks, where traditional authentication methods fall short.

TAM will provide a solution to ensure secure communication in hostile environments where message traffic authentication is a critical requirement for the successful operation of mission control applications.

Proposed Work

The proposed work titled "TAM: A Tiered Authentication of Multicast Protocol for Ad-Hoc Networks" focuses on introducing a novel Tiered Authentication scheme (TAM) for Multicast traffic in large scale dense ad-hoc networks. Ad hoc networks play a crucial role in mission control applications such as troop coordination and situational awareness in challenging environments. The proposed TAM scheme addresses the authentication and management of multicast communication traffic in these networks. Traditional solutions are not suitable for ad-hoc networks due to limited computational and communication resources, as well as the lack of guaranteed connectivity to trusted authorities. This research falls under the categories of NS2 Based Thesis Projects and Wireless Research Based Projects, specifically focusing on Mobile Computing Thesis and MANET Based Projects.

The implementation and evaluation of this scheme will be conducted using software tools such as NS2.

Application Area for Industry

The project "TAM: A Tiered Authentication of Multicast Protocol for Ad-Hoc Networks" can be highly beneficial for various industrial sectors, especially those that rely on large scale dense ad-hoc networks for mission critical applications. Industries such as defense and military sectors, emergency response organizations, and disaster management agencies can greatly benefit from the proposed Tiered Authentication scheme. These sectors often operate in hostile environments where secure communication is essential for the successful coordination of troops, situational awareness, and mission control applications. By implementing TAM, these industries can ensure secure and authenticated multicast communication, which is crucial for maintaining operational efficiency and effectiveness. The proposed solutions offered by TAM address specific challenges that industries face when operating in ad-hoc networks, such as limited computational and communication resources, and the lack of guaranteed connectivity to trusted authorities.

By introducing a novel Tiered Authentication scheme specifically designed for large scale dense ad-hoc networks, TAM provides a practical solution for ensuring secure communication in challenging environments. The benefits of implementing TAM in industrial sectors include improved message traffic authentication, enhanced network management, and overall increased operational security. This project's focus on Mobile Computing Thesis and MANET Based Projects aligns well with the technological needs of industries that rely on ad-hoc networks for mission critical operations, making TAM a valuable solution for enhancing communication security in a variety of industrial domains.

Application Area for Academics

The proposed project on Tiered Authentication of Multicast Protocol for Ad-Hoc Networks has significant relevance and potential applications for MTech and PHD students conducting research in the field of mobile computing, wireless networks, network security, and ad-hoc networks. This project addresses the critical need for secure and authenticated multicast communication in large scale dense ad-hoc networks, particularly in mission critical applications. MTech students and PHD scholars can utilize the proposed Tiered Authentication scheme (TAM) to explore innovative research methods, simulations, and data analysis for their dissertation, thesis, or research papers. By studying the implementation and evaluation of TAM using software tools such as NS2, researchers can gain insights into efficient authentication protocols for ad-hoc networks and develop new strategies to enhance network security in challenging environments. The code and literature of this project can serve as a valuable resource for field-specific researchers, enabling them to build upon existing knowledge and contribute towards advancing the field of mobile computing and wireless networks.

Furthermore, the future scope of this project includes potential enhancements to the TAM scheme, exploration of alternative authentication methods, and further experimentation with different network architectures to improve the security and scalability of multicast communication in ad-hoc networks.Overall, this project offers a unique opportunity for MTech and PHD students to engage in cutting-edge research and contribute towards the development of secure and efficient communication protocols for mission critical applications in ad-hoc networks.

Keywords

Tiered Authentication, Multicast Protocol, Ad-Hoc Networks, Secure Communication, Authentication Protocols, Mission Critical Applications, Troop Coordination, Situational Awareness, Large Scale Networks, Dense Networks, Message Traffic Authentication, Network Management, Secure Communication, Hostile Environments, Mission Control Applications, NS2 Based Thesis Projects, Wireless Research Based Projects, Mobile Computing Thesis, MANET Based Projects.