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Article type: Research Article
Authors: Sathya, S.a | Senthil Murugan, J.b; * | Surendran, S.c | Sundar, R.d
Affiliations: [a] ECE Department, Gojan School of Business and Technology, Edapalayam, Redhills, Chennai | [b] CSE Department, Veltech High Tech Dr. Rangarajan & Dr. Sakunthala Engineering College, Chennai | [c] Department of Computer Science and Engineering, Tagore Engineering College, Chennai, India | [d] Department of Marine Engineering, AMET Deemed to be University, Chennai
Correspondence: [*] Corresponding author. Dr. J. Senthil Murugan, CSE Department, Associate Professor, Veltech High Tech Dr. Rangarajan & Dr. Sakunthala Engineering College, Chennai. E-mail: senthilmurugan56781@gmail.com.
Abstract: Oil spills in maritime areas pose a serious environmental risk, wreaking havoc on marine ecosystems, coastal habitats, and local residents. An accurate and timely evaluation of oil spill occurrences and extent is critical for effective pollution control and mitigation. In this study, we present a novel and cutting-edge approach for analyzing oil-spilled images using Deep Attention Transformer Nets (DATN) with Collective Intelligence (CI), with the goal of reducing pollution in the marine environment. This method takes advantage of deep learning capability, notably the incorporation of transformer-based attention processes, to improve the identification and measurement of oil spills in satellite and aerial images. The DATN model is intended to learn complicated features from images automatically, capturing complex patterns associated with oil spills and their surrounding context. The model chooses focus on key regions and add spatial links by using attention mechanisms, allowing for a more comprehensive understanding of the environmental influence. We thoroughly test DATN performance using a variety of datasets encompassing various oil spill scenarios and environmental circumstances. The results show that DATN surpasses standard approaches and other deep learning models in recognizing oil spill regions, with excellent accuracy, precision, and recall rates. Furthermore, the model has strong generalization capabilities across a wide range of image sources and situations.
Keywords: Oil spill detection, deep attention transformer nets, aerial imagery, pollution mitigation, neural networks
DOI: 10.3233/JIFS-235657
Journal: Journal of Intelligent & Fuzzy Systems, vol. 46, no. 2, pp. 3461-3473, 2024
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