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- Title
Coalescing novel QoS routing with fault tolerance for improving QoS parameters in wireless Ad-Hoc network using craft protocol.
- Authors
Aruna, R.; Kushwah, Virendra Singh; Praveen, S. Phani; Pradhan, Rahul; Chinchawade, Amit Jaykumar; Asaad, Renas Rajab; Kumar, R. Lakshmana
- Abstract
The information sharing on behalf of the delivery of the packet in the network router and the original information that is share to the correct person is enabled for the analysis and then the analysis is done. The traffic related problem based on the sharing the information is occur when two or more sis sent in the same routing path. So the packet or the information has been sent using the single router or an execution time delivery for the analysis. The method of novel QoS Routing, fault tolerance is used in this study for the analysis of the system to produce the formation and the analysis of the packet routing. Fault tolerance is used in the deliver the packets without fail and to deliver it in the fast manner. The QoS is used for managing the information or the packets which makes and send the data which is the high priority of the data and the analysis of the dependency is analysed. The finding of the CRAFT related protocol and the efficient routing has been found. Routing system the effective method for the analysis and the protocol transfer has been enabled using the CRAFT method. The suggested system explains the algorithms for enhancing fault detection, fault isolation, data redundancy, robustness against coalescing innovative QoS routing, and fault tolerance improving QoS parameters in the ad-hoc wireless network utilising CRAFT protocol. Compared to the early existing system, fault detection is now three times better. The execution time is 96% faster, and the decreased latency is less than 2 ms. The data redundancy rate is likely about 90% when restricted to the current services, which have improved in terms of resilience by 93%, jitter by 7%, and packet arrival time by over 50 ms per transmission.
- Subjects
FAULT tolerance (Engineering); AD hoc computer networks; ROUTING systems; NETWORK routers; INFORMATION sharing; DATA analysis
- Publication
Wireless Networks (10220038), 2024, Vol 30, Issue 2, p711
- ISSN
1022-0038
- Publication type
Article
- DOI
10.1007/s11276-023-03515-1