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Real-Time Data Transmission with Data Carrier Support Value in Neighbor Strategic Collection in WSN

S. Ponnarasi1,*, T. Rajendran2

1 Department of Computer Science, Periyar University, Salem, Tamil Nadu, 636011, India
2 Department of Computer Science, Government Arts & Science College, Kangeyam, Tamil Nadu, 638108, India

* Corresponding Author: S. Ponnarasi. Email:

Computers, Materials & Continua 2023, 75(3), 6039-6057.


An efficient trust-aware secure routing and network strategy-based data collection scheme is presented in this paper to enhance the performance and security of wireless sensor networks during data collection. The method first discovers the routes between the data sensors and the sink node. Several factors are considered for each sensor node along the route, including energy, number of neighbours, previous transmissions, and energy depletion ratio. Considering all these variables, the Sink Reachable Support Measure and the Secure Communication Support Measure, the method evaluates two distinct measures. The method calculates the data carrier support value using these two metrics. A single route is chosen to collect data based on the value of data carrier support. It has contributed to the design of Secure Communication Support (SCS) Estimation. This has been measured according to the strategy of each hop of the route. The suggested method improves the security and efficacy of data collection in wireless sensor networks. The second stage uses the two-fish approach to build a trust model for secure data transfer. A simulation exercise was conducted to evaluate the effectiveness of the suggested framework. Metrics, including PDR, end-to-end latency, and average residual energy, were assessed for the proposed model. The efficiency of the suggested route design serves as evidence for the average residual energy for the proposed framework.


Cite This Article

S. Ponnarasi and T. Rajendran, "Real-time data transmission with data carrier support value in neighbor strategic collection in wsn," Computers, Materials & Continua, vol. 75, no.3, pp. 6039–6057, 2023.

This work is licensed under a Creative Commons Attribution 4.0 International License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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