Routing in Accumulative Multi-Hop Networks

Abstract

Routing in Accumulative Multi-Hop Networks The network relay capacity has a major impact on the information flow from achievable rates to the routing strategy that extends to all levels of communication.projects on Routing in Accumulative A fundamental understanding of the role of relays in wireless networks is of paramount importance in the design of efficient protocols in future communication systems.

Introduction

Routing in Accumulative Multi-Hop Networks INTRODUCING relay capabilities in a network have a strong impact on the information flow ranging from achievable rates to routing strategy to all communication levels.A fundamental understanding of the role relays play in wireless networks is of paramount importance in designing efficient protocols in future communication systems.projects on Routing in Accumulative The routing problem in traditional multi-hop (TM) communication networks, where each relay node only listens to the immediately preceding node, is quite well understood today.projects reports on Routing in Accumulative These networks are well modeled by directed graphs for the purpose of routing. Based on a routing metric criteria, the optimal conditions that ensure that efficient path search algorithms, such as Dijkstra’s algorithm, find the optimal path were studied in one and two.

Disadvantages

 • Projects reports on Routing in Accumulative The transmission delay.
• Multiple energy leakages while transmissions.

Advantages

 • Accumulative techniques increase communication reliability, reduce energy consumption, and decrease latency.
• Guarantee that efficient path search algorithms, such as Dijkstra’s algorithm, find the optimal path.

Conclusion

We studied routing in a multi-hop network that could use mutual information to minimize delay and energy consumption. Approaches such as fountain code, less code used for routing purposes, and metrics for network formulation.