Work place: ECE department, DCRUST, Murthal, Sonipat, Haryana, India
E-mail: rajni.ece@dcrustm.org
Website:
Research Interests: Artificial Intelligence
Biography
Dr. Rajni Mehra working as an Assistant Professor in the Department of Electronics and Communication Engineering at Deenbandhu Chhotu Ram University of Science and Technology. She has about 11 years of teaching experience. She received her B.Tech degree in Electronics and Communication Engineering with distinction, M.Tech. degree in Electronics and Communication Engineering with distinction from MDU university and PhD degree in Electronics and Communication from DCRUST University with distinction, Haryana. She has published 15 research papers in refereed international journals and 5 research papers in various international conferences. Her areas of research include Image Processing, Artificial Intelligence and Signal Processing etc.
By Krishan Kumar Priyanka Anand Rajini Mehra
DOI: https://doi.org/10.5815/ijcnis.2025.05.02, Pub. Date: 8 Oct. 2025
Wireless Sensor Networks (WSNs) play a crucial role in applications such as remote monitoring, surveillance, and the Internet of Things (IoT). Addressing the challenge of energy consumption is paramount in WSN design due to the finite nature of energy resources. In cluster-based WSNs, cluster heads (CH) perform vital tasks like data collection, data aggregation, and exchange with the base station. Therefore, achieving efficient load balancing for CHs is crucial for maximizing network longevity. Previous studies have considered load balancing with optimal CH selection, but the issue of data redundancy is not addressed. Data redundancy in processing and transmitting information to analysis centres significantly depletes sensor resources like (energy, bandwidth and such). This paper proposes a novel energy-efficient data aggregation approach with data compression termed C-EWaOA that is (Compression based Enhanced Walrus Optimization with a cognitive factor). The non-negative matrix factorization (NMF) is used to compress the data and remove the redundant information. This way, the proposed data aggregation scheme reduces packet delivery Ratio, resulting in low data-rate communication. Simultaneously, data compression minimizes redundancy in aggregated data at CH, reducing resource consumption, leading to energy cost savings, and facilitating the transmission of a compact data stream in the communication bandwidth. The proposed approach shows a 0.606% improvement in network lifetime compared to the approach without compression and 68.01% of energy consumption. Notably, it achieves a reduction of 78.57% in packet loss ratio compared to the state-of-the-art FEEC-IIR model. Thus, the proposed approach shows remarkable improvement in energy-efficient data aggregation with data compression in WSN showcasing its prominence in IoT-based applications.
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