Routing to Multi-Instantiated Destinations: Principles, Practice, and Applications - 2018


Prior solutions for routing to multi-instantiated destinations simply adapt existing routing algorithms designed for single-instance destinations, or depend upon flooding techniques. During this Project, a new approach for routing to multi-instantiated destinations is introduced, and the Multiple Instance Destination Routing (MIDR) framework is presented for example of the approach. MIDR uses only distance info to multi-instantiated destinations, while not routers having to establish overlays, apprehend the network topology, use complete paths to destination instances, or understand about all the instances of destinations. MIDR can be employed in name-primarily based content routing, IP unicast routing, multicasting, and anycasting; even in scenarios where the network topology is extremely dynamic such as within the case of MANETs. It is shown that MIDR provides multiple loop-free paths to destination instances. Extensive simulation-based experiments performed within the context of MANETs show that MIDR outperforms traditional approaches primarily based on unicast protocols which it scales to large networks.

Did you like this research project?

To get this research project Guidelines, Training and Code... Click Here

PROJECT TITLE : Multi-hop Deflection Routing Algorithm Based on Reinforcement Learning for Energy-Harvesting Nanonetworks ABSTRACT: Nanonetworks are made up of nano-nodes that interact with one another, and the size of these nano-nodes
PROJECT TITLE : DE-SEP: Distance and Energy Aware Stable Election Routing Protocol for Heterogeneous Wireless Sensor Network ABSTRACT: Sensing technology has undergone a revolution as a result of technological advancements,
PROJECT TITLE : Reliability-Aware Multi-Objective Optimization-Based Routing Protocol for VANETs Using Enhanced Gaussian Mutation Harmony Searching ABSTRACT: Vehicular Ad Hoc Networks, or VANETs, are a relatively new form of
PROJECT TITLE : W-GeoR: Weighted Geographical Routing for VANET’s Health Monitoring Applications in Urban Traffic Networks ABSTRACT: The infrastructure-based communication system that is currently in place is susceptible
PROJECT TITLE : Hybrid Genetic Firefly Algorithm-Based Routing Protocol for VANETs ABSTRACT: In order to facilitate effective communication between the vehicles to vehicle (V2V) infrastructure, vehicular ad hoc networks, also

Ready to Complete Your Academic MTech Project Work In Affordable Price ?

Project Enquiry