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Article type: Research Article
Authors: Kumaraguru, Shanthia; * | Jebarani, M.R. Ebenezarb
Affiliations: [a] Sathyabama Institute of Science and Technology, Chennai, Tamil Nadu, India. E-mail: [email protected] | [b] Sathyabama Institute of Science and Technology, Chennai, Tamil Nadu, India. E-mail: [email protected]
Correspondence: [*] Corresponding author. E-mail: [email protected].
Abstract: Trust-aware routing is the significant direction for designing the secure routing protocol in Wireless Sensor Network (WSN). However, the trust-aware routing mechanism is implemented to evaluate the trustworthiness of the neighboring nodes based on the set of trust factors. Various trust-aware routing protocols are developed to route the data with minimum delay, but detecting the route with good quality poses a challenging issue in the research community. Therefore, an effective method named Sunflower Sine Cosine (SFSC)-based stacked autoencoder is designed to perform Electroencephalogram (EEG) signal classification using trust-aware routing in WSN. Moreover, the proposed SFSC algorithm incorporates Sunflower Optimization (SFO) and Sine Cosine Algorithm (SCA) that reveals an optimal solution, which is the optimal route used to transmit the EEG signal. Initially, the trust factors are computed from the nodes simulated in the network environment, and thereby, the trust-based routing is performed to achieve EEG signal classification. The proposed SFSC-based stacked autoencoder attained better performance by selecting the optimal path based on the fitness parameters, like energy, trust, and distance. The performance of the proposed approach is analyzed using the metrics, such as sensitivity, accuracy, and specificity. The proposed approach acquires 94.708%, 94.431%, and 95.780% sensitivity, accuracy, and specificity, respectively, with 150 nodes.
Keywords: Sine cosine algorithm, sunflower optimization, stacked autoencoder, electroencephalogram signal, trust aware routing
DOI: 10.3233/JHS-210654
Journal: Journal of High Speed Networks, vol. 27, no. 2, pp. 101-119, 2021
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