An Energy-Efficient and Distributed Cooperation Mechanism for k -Coverage Hole Detection and Healing in WSNs - 2018


Present approaches to realize k-coverage for Wireless Sensor Networks still depend on centralized techniques. In this Project, we have a tendency to devise a distributed method for this drawback, namely Distributed VOronoi based mostly Cooperation theme (DVOC), where nodes cooperate in hole detection and recovery. In previous Voronoi based schemes, each node only monitors its own crucial points. Such strategies are inefficient for k-coverage as a result of the vital points are way away from their generating nodes in k-order Voronoi diagram, inflicting high value for transmission and computing. As a answer, DVOC permits nodes to monitor others' essential points around themselves by building native Voronoi diagrams (LVDs). Any, DVOC constrains the movement of every node to avoid generating new holes. If a node cannot reach its destination because of the constraint, its hole healing responsibility will fall to different cooperating nodes. The experimental results from the $64000 world testbed demonstrate that DVOC outperforms the previous schemes.

Did you like this research project?

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

PROJECT TITLE : RESERVE: An Energy-Efficient Edge Cloud Architecture for Intelligent Multi-UAV ABSTRACT: Multi-unmanned aerial vehicle (MUAV) systems are able to perform tasks such as environmental and disaster monitoring, border
PROJECT TITLE : MAGNETIC: Multi-Agent Machine Learning-Based Approach for Energy Efficient Dynamic Consolidation in Data Centers ABSTRACT: Two of the most significant challenges for effective resource management in large-scale
PROJECT TITLE : An Energy-Efficient Framework for Internet of Things Underlaying Heterogeneous Small Cell Networks ABSTRACT: It has been found that heterogeneous networks that support Long-Term Evolution Advanced (LTE-A) can
PROJECT TITLE :Energy-Efficient Transponder Configuration for FMF-Based Elastic Optical Networks - 2018ABSTRACT:We propose an energy-efficient procedure for transponder configuration in few-mode fiber-based elastic optical networks
PROJECT TITLE :Energy-Efficient Defensive Strategy Against Hybrid SSDF/Eavesdropping Attacks Over Nakagami- m Channels - 2018ABSTRACT:Throughout cooperative spectrum sensing (CSS) in cognitive radio networks, malicious users

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

Project Enquiry