Predicting the position of adjacent nodes with QoS in mobile ad hoc networks

The Mobile Ad Hoc Networks are a self-regulatory set of autonomous nodes which perform communication to all the other nodes within their communication ranges. The nodes which are not in straightforward range make use of in between nodes to perform communication with one another. In mobile ad hoc net...

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Bibliographic Details
Published in:Multimedia tools and applications 2020-04, Vol.79 (13-14), p.8445-8457
Main Authors: Vignesh, C. Chandru, Karthik, S.
Format: Article
Language:English
Subjects:
Communication
Computer Communication Networks
Computer Science
Data Structures and Information Theory
Design standards
Exchanging
Mobile ad hoc networks
Multimedia Information Systems
Quality of service architectures
Special Purpose and Application-Based Systems
Transmission
Wireless networks
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Summary:The Mobile Ad Hoc Networks are a self-regulatory set of autonomous nodes which perform communication to all the other nodes within their communication ranges. The nodes which are not in straightforward range make use of in between nodes to perform communication with one another. In mobile ad hoc network, each and every autonomous node holds displacements and shifts based on the precise positions within the network. Hence the verification of node position is crucial in mobile ad hoc networks and it is mainly a great dispute during the existence of opponents focusing on damaging the system. The intention is to design a standard termed as Adjacent Node Location Confirmation (ANLC) for confirming the location of its transmitting adjacent nodes for interchanging the messages and confirms the location of the nodes in transmission within the network. Initially, the method focuses on finding the nodes based on which the transmission connection is set up or it is within the fixed distance. The distance is estimated based on message interchanges among the confirmer and its adjacent nodes in transmission. Soon after the estimation of distances the confirmer authenticates the location of nodes in transmission within the network based on straight balanced, traverse balanced and multi-lateration analysis. The analysis is performed based on QoS of the transmitting node choice for minimizing the delays and acquiring improved throughput. The performance of the designed scheme is estimated based on network throughput and delays.
ISSN:1380-7501
1573-7721
DOI:10.1007/s11042-018-5842-7