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- Title
Design and analysis of photovoltaic solar based longer transmission of data in ADHOC networks.
- Authors
Kaushal, Rajanish Kumar; Sasi, Smitha; Sowmya, H. K.; Rajender, Udutha; Ramkumar, G.; Al-Ammar, Essam A.; Iqbal, Amjad
- Abstract
A multi-hop transitory non-central network is formed by a collection of mobile nodes in an PV Adhoc network. These mobile nodes are equipped with wireless communication transceivers. Setting up a mobile communication network is straightforward and can be done in a short amount of time. This is made possible by the fact that all nodes in the network have the same mobility and status wherever they travel. PV Adhoc networks were first developed for use in the military and the civilian sector, but they are now finding widespread application in industries as diverse as search and rescue, industrial monitoring, mobile commerce, and many more. Because of the innovative traits it possesses, there is a lot of conversation going on about it right now in the information technology and telecommunications sectors. When it comes to addressing security concerns, one might take a number of various ways, depending on the particulars of the circumstance. There are a variety of approaches that can be taken to address the concerns regarding safety that are brought up by performing multiple jobs at once. Even though quality of service (QoS) is accorded a high value in the real-world PV Adhoc network environment, it is sometimes disregarded in the research that is being done today since defense against attacks is given a higher priority. Evaluation and comparison offer the most solid foundation on which to build in-depth study and an accurate assessment of the quality of services provided. The proposed algorithm not only enhances routing security and protects against malicious attacks in PV Adhoc networks but also outperforms existing methods in terms of end-to-end delay time, packet delivery rate, and control overhead. This demonstration of improved performance and security underscores the significance and novelty of the proposed algorithm in the field. This concept is now used in a great number of different algorithms. The results of our simulation tests show that the proposed algorithm can improve the routing security of PV Adhoc networks and provide protection against malicious attacks. It also clearly outperforms other methods that are currently available in terms of end-to-end delay time, packet delivery rate, and control overhead.
- Subjects
DATA transmission systems; INFORMATION technology; END-to-end delay; ROUTING algorithms; MOBILE commerce; TELECOMMUNICATION systems; WIRELESS communications; PHOTOVOLTAIC power systems
- Publication
Optical & Quantum Electronics, 2023, Vol 55, Issue 13, p1
- ISSN
0306-8919
- Publication type
Article
- DOI
10.1007/s11082-023-05487-0