Fusion protocol for improving coverage and connectivity WSNs

Rajawat, Anand Singh; Jain, Sumit; Barhanpurkar, Kanishk

doi:10.1049/wss2.12018

Cited by 13 publications

(2 citation statements)

References 51 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The authors (Rajawat, Jain and Barhanpurkar, 2021) proposed a multi-level-based data fusion protocol for clustering, which is used to increase the coverage area and increase the reliability of the sensor network. The concept of the static sensor is used as a point of interest so that the given area is covered.…”

Section: Related Workmentioning

confidence: 99%

CHOP: Maximum Coverage Optimization and Resolve Hole Healing Problem using Sleep and Wake-up Technique for WSN

Narayan

Daniel

2022

ADCAIJ

View full text Add to dashboard Cite

The Sensor Nodes (SN) play an important role in various hazardous applications environments such as military surveillance, forests, battlefield, etc. The Wireless Sensor Network (WSN) comprised multiple numbers of sensor nodes which are used to perform sensing the physical conditions and subsequently transmitting data to the Base Station (BS). The nodes have limited batteries. The random distribution of nodes in the hazardous areas causes overlapping of nodes and coverage hole issues in the network. The Coverage Optimization and Resolve Hole Healing (CHOP) Protocol is proposed to optimize the network's overlapping and resolve the coverage hole problem. The working phases of the proposed protocol are network initialization, formation of the cluster, Selection of Cluster Head, and sleep and wake-up phase. The issues are optimized, and maximum coverage is achieved for a specific sensing range. Using statistics and probability theory, a link is established between the radius of the node and the coverage area. The protocol used the sleep and wake phase to select optimal nodes active to achieve maximum coverage. The proposed protocol outperformed and showed improvements in the network's performance and lifetime compared to LEACH, TEEN, SEP, and DEEC protocols.

show abstract

Section: Related Workmentioning

confidence: 99%

CHOP: Maximum Coverage Optimization and Resolve Hole Healing Problem using Sleep and Wake-up Technique for WSN

Narayan

Daniel

2022

ADCAIJ

View full text Add to dashboard Cite

show abstract

“…Oztemel and Gursev's [12] paper describes a recently designed architecture for IoT-based networks used for the prominent use of physical layer, network layer, and application layer. In Rajawat et al [13], simulations show the advantage of reasoning developed IoT and show that CACR can suggestively increase energy efficacy and cost optimization for handling materials. Evjemo et al [14] presented a program in which robots never intersect and accomplish maximum intervals equivalent to those produced that allow harmonization to be generated.…”

Section: Related Workmentioning

confidence: 99%

Reformist Framework for Improving Human Security for Mobile Robots in Industry 4.0

Rajawat

Bedi

Goyal

et al. 2021

Mobile Information Systems

Self Cite

View full text Add to dashboard Cite

In this paper, the cooperation between human and robot companies plays a significant role in factories, contributing to greater productivity and efficiency. However, this development breaches established safety procedures when the workspaces are separated from the robot and the human being. These changes have been reflected in industrial robotic safety standards for the last 20 years. We have directed the expansion of a broad field of examination, which focuses on avoiding robotic humans’ effects and minimizing associated risks and consequences. The paper depicts an analysis of prominent safety systems projected and implemented in engineering robotic surroundings that contribute to safe, collective work between humans and robots. Besides, the current regulation has introduced a review and new concepts. The discussion includes multidisciplinary approaches such as estimating and evaluating human-robot collision injuries, mechanical equipment and software to minimize human-robot impacts, impact detection systems, and collision prevention strategies and minimizing their impact to proposed approach for Human Security with Mobile Robots in Industry 4.0 using SDN and CPS with GMM-GM machine learning model.

show abstract

Anomalies Detection on Attached IoT Device at Cattle Body in Smart Cities Areas Using Deep Learning

Rajawat

Bedi

Goyal

et al. 2022

Studies in Computational Intelligence

View full text Add to dashboard Cite

Fusion protocol for improving coverage and connectivity WSNs

Cited by 13 publications

References 51 publications

CHOP: Maximum Coverage Optimization and Resolve Hole Healing Problem using Sleep and Wake-up Technique for WSN

CHOP: Maximum Coverage Optimization and Resolve Hole Healing Problem using Sleep and Wake-up Technique for WSN

Reformist Framework for Improving Human Security for Mobile Robots in Industry 4.0

Anomalies Detection on Attached IoT Device at Cattle Body in Smart Cities Areas Using Deep Learning

Contact Info

Product

Resources

About