A hybrid ANFIS reptile optimization algorithm for energy-efficient inter-cluster routing in internet of things-enabled wireless sensor networks
In recent decades, the Internet of Things-enabled Wireless Sensor Networks (IWSN) plays a dominant role in the evolution of industry 4.0 by developing numerous WSN-assisted IoT applications. The energy efficiency of the deployed nodes will be the major concern for IWSN owing to the restricted batter...
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| Published in | Peer-to-peer networking and applications Vol. 16; no. 2; pp. 1049 - 1068 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Springer US
01.03.2023
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1936-6442 1936-6450 |
| DOI | 10.1007/s12083-023-01458-0 |
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| Abstract | In recent decades, the Internet of Things-enabled Wireless Sensor Networks (IWSN) plays a dominant role in the evolution of industry 4.0 by developing numerous WSN-assisted IoT applications. The energy efficiency of the deployed nodes will be the major concern for IWSN owing to the restricted battery resources. The clustering is widely utilized as an adequate approach for designing energy-efficient IWSN. Nonetheless, anonymous actions like a frequent change of inter-cluster routing, path identification, and occurrence of the faulty node have a direct influence on the energy consumption and network stability of IWSN. In this paper, a novel energy-efficient inter-cluster routing and fault management has been proposed to prolong the Quality of Services of IWSN. Primarily, the proposed system implements the Hybrid ANFIS Reptile Optimization Algorithm for identifying the optimal route from cluster to sink. Afterward, the Tuned supervision-based fault diagnosis strategy can be carried out to diagnose the different faults like sensing fault, residual energy fault, and communication fault in IWSN. The evaluation of the proposed system is computed using 1000 nodes with two distinct sink positions. Finally, the performance results validate that the proposed model achieves a lesser energy consumption of 0.01 J than the existing inter-cluster routing algorithms. |
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| AbstractList | In recent decades, the Internet of Things-enabled Wireless Sensor Networks (IWSN) plays a dominant role in the evolution of industry 4.0 by developing numerous WSN-assisted IoT applications. The energy efficiency of the deployed nodes will be the major concern for IWSN owing to the restricted battery resources. The clustering is widely utilized as an adequate approach for designing energy-efficient IWSN. Nonetheless, anonymous actions like a frequent change of inter-cluster routing, path identification, and occurrence of the faulty node have a direct influence on the energy consumption and network stability of IWSN. In this paper, a novel energy-efficient inter-cluster routing and fault management has been proposed to prolong the Quality of Services of IWSN. Primarily, the proposed system implements the Hybrid ANFIS Reptile Optimization Algorithm for identifying the optimal route from cluster to sink. Afterward, the Tuned supervision-based fault diagnosis strategy can be carried out to diagnose the different faults like sensing fault, residual energy fault, and communication fault in IWSN. The evaluation of the proposed system is computed using 1000 nodes with two distinct sink positions. Finally, the performance results validate that the proposed model achieves a lesser energy consumption of 0.01 J than the existing inter-cluster routing algorithms. In recent decades, the Internet of Things-enabled Wireless Sensor Networks (IWSN) plays a dominant role in the evolution of industry 4.0 by developing numerous WSN-assisted IoT applications. The energy efficiency of the deployed nodes will be the major concern for IWSN owing to the restricted battery resources. The clustering is widely utilized as an adequate approach for designing energy-efficient IWSN. Nonetheless, anonymous actions like a frequent change of inter-cluster routing, path identification, and occurrence of the faulty node have a direct influence on the energy consumption and network stability of IWSN. In this paper, a novel energy-efficient inter-cluster routing and fault management has been proposed to prolong the Quality of Services of IWSN. Primarily, the proposed system implements the Hybrid ANFIS Reptile Optimization Algorithm for identifying the optimal route from cluster to sink. Afterward, the Tuned supervision-based fault diagnosis strategy can be carried out to diagnose the different faults like sensing fault, residual energy fault, and communication fault in IWSN. The evaluation of the proposed system is computed using 1000 nodes with two distinct sink positions. Finally, the performance results validate that the proposed model achieves a lesser energy consumption of 0.01 J than the existing inter-cluster routing algorithms. |
| Author | Prasanth, A. Vazhuthi, P. Paruthi Ilam Sowndarya, K. K. Devi Manikandan, S. P. |
| Author_xml | – sequence: 1 givenname: P. Paruthi Ilam surname: Vazhuthi fullname: Vazhuthi, P. Paruthi Ilam email: paruthiphd@gmail.com organization: Department of Electronics and Communication Engineering, V.R.S. College of Engineering and Technology – sequence: 2 givenname: A. surname: Prasanth fullname: Prasanth, A. organization: Department of Electronics and Communication Engineering, Sri Venkateswara College of Engineering – sequence: 3 givenname: S. P. surname: Manikandan fullname: Manikandan, S. P. organization: Department of Computer Engineering, New Horizon College of Engineering – sequence: 4 givenname: K. K. Devi surname: Sowndarya fullname: Sowndarya, K. K. Devi organization: Department of Electronics and Communication Engineering, DMI College of Engineering |
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| SubjectTerms | Algorithms Clustering Communications Engineering Computer Communication Networks Energy consumption Energy efficiency Engineering Fault diagnosis Hybrid systems Industrial applications Industrial development Industry 4.0 Information Systems and Communication Service Internet of Things Networks Nodes Optimization Optimization algorithms Reptiles Residual energy Routing (telecommunications) Signal,Image and Speech Processing Wireless sensor networks |
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| Title | A hybrid ANFIS reptile optimization algorithm for energy-efficient inter-cluster routing in internet of things-enabled wireless sensor networks |
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