Automated System for Colon Cancer Detection and Segmentation Based on Deep Learning Techniques

Azar, Ahmad Taher; Tounsi, Mohamed; Fati, Suliman Mohamed; Javed, Yasir; Amin, Syed Umar; Khan, Zafar Iqbal; Alsenan, Shrooq; Ganesan, Jothi

doi:10.4018/ijskd.326629

Cited by 11 publications

(3 citation statements)

References 84 publications

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“…At last, the NN was performed with the aid of labelled training information. Azar et al [17] main aim is to determine the probable DL techniques for the classification of CC. There are many DL optimizers were discovered in this study namely Adamax, stochastic gradient descent (SGD), Nesterov, root mean square prop (RMSprop), AdaDelta, Adam optimizer (Nadam) and so on.…”

Section: Related Workmentioning

confidence: 99%

Gastrointestinal Cancer Detection and Classification Using African Vulture Optimization Algorithm With Transfer Learning

Almasoud,

Maray,

Alkahtani

et al. 2024

IEEE Access

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Gastrointestinal (GI) cancer comprises esophageal, gastric, colon and rectal tumors. The diagnosis of GI cancer often relies on medical imaging modalities namely magnetic resonance imaging (MRI), histopathological slides, endoscopy, and computed tomography (CT) scans. This provides particular details about the size, location, and characteristics of tumors. The high death rate for GI cancer patients shows that it is possible to increase analysis for a more personalized therapy strategy which leads to improved prognosis and few side effects although many extrapolative and predictive biomarkers exist. Gastrointestinal cancer classification is a challenging but vital area of research and application within medical imaging and machine learning. Artificial intelligence (AI) based diagnostic support system, especially convolution neural network (CNN) based image examination tool, has enormous potential in medical computer vision. The study presents a GI Cancer Detection and Classification utilizing the African Vulture Optimization Algorithm with Transfer Learning (GICDC-AVOADL) methodology. The major aim of the GICDC-AVOADL model is to examine GI images for the identification of cancer. To achieve this, the GICDC-AVOADL method makes use of an improved EfficientNet-B5 method to learn features from input images. Furthermore, AVOA is exploited for optimum hyperparameter selection of the improved EfficientNet-B5 method. The GICDC-AVOADL technique applies dilated convolutional autoencoder (DCAE) For GI cancer detection and classification. A complete set of simulations was conducted to examine the enhanced GI cancer detection performance of the GICDC-AVOADL technique. The extensive results inferred superior performance of the GICDC-AVOADL algorithm over current models.

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Section: Related Workmentioning

confidence: 99%

Gastrointestinal Cancer Detection and Classification Using African Vulture Optimization Algorithm With Transfer Learning

Almasoud,

Maray,

Alkahtani

et al. 2024

IEEE Access

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“…Physics-Inspired in which the main source of inspiration is the physical processes, which are further formulated into solutions to resolve the problems. A few popular physics-inspired algorithms are "Equilibrium Optimizer" (Faramarzi et al, 2020b), "Multi-Verse Optimization" Azar and Kamal, 2021a,b,c;Azar et al, 2021), "Bang-Big Big-Crunch Algorithm" (Erol et al, 2006), "Magnetic Charged System Search" (Zhao et al, 2019), "Central Force Optimization" (Formato, 2007), "Thermal Exchange Optimization" (Kaveh & Dadras, 2017), "Ray Optimization" (Kaveh & Khayatazad, 2012), "Gravitational Search Algorithm" (Rashedi et al, 2009), "Artificial Physicomimetics Optimization" (Xie et al, 2010), "Optics Inspired Optimisation" (Kashan, 2015), "Electromagnetic Field Optimization" (Abedinpourshotorban et al, 2016, "Gravitational Local Search Optimization" (Rashedi et al, 2018) and "Electromagnetism-like Algorithm" (Birbil et al, 2003;Azar et al, 2023a).…”

Section: Background Study For Metaheuristic Algorithmmentioning

confidence: 99%

Novel Hybrid Genetic Arithmetic Optimization for Feature Selection and Classification of Pulmonary Disease Images

Nivetha,

Hannah Inbarani

2023

International Journal of Sociotechnology and Knowledge Development

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The difficulty in predicting early cancer is due to the lack of early illness indicators. Metaheuristic approaches are a family of algorithms that seek to find the optimal values for uncertain problems with several implications in optimization and classification problems. An automated system for recognizing illnesses can respond with accuracy, efficiency, and speed, helping medical professionals spot abnormalities and lowering death rates. This study proposes the Novel Hybrid GAO (Genetic Arithmetic Optimization algorithm based Feature Selection) (Genetic Arithmetic Optimization Algorithm-based feature selection) method as a way to choose the features for several machine learning algorithms to classify readily available data on COVID-19 and lung cancer. By choosing just important features, feature selection approaches might improve performance. The proposed approach employs a Genetic and Arithmetic Optimization to enhance the outcomes in an optimization approach.

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“…It is a process of using digital technologies to fundamentally change how an organization functions, delivers value to customers, and achieves success. Digital transformation can involve a wide range of activities, including the adoption of new technologies such as artificial intelligence, the Internet of Things, cloud computing, the development of new business models and processes, and the creation of new products and services (Kitsios & Kamariotou, 2021;Azar et al, 2023). The goal of digital transformation is to improve efficiency, increase competitiveness, and drive growth by leveraging the power of digital technologies.…”

Section: Introductionmentioning

confidence: 99%

Legal View on Blockchain Technologies in Healthcare

Farouk,

Alsamara

2023

International Journal of Sociotechnology and Knowledge Development

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This article presents an in-depth study of the legal landscape surrounding blockchain technology in the healthcare sector, with a special focus on case studies from European countries. Analyzing the existing legal framework and regulations, the research highlights the challenges and opportunities associated with the adoption of blockchain in healthcare. The most important research areas are data protection, security, consent, liability, and compliance. Through a comparative analysis of various European countries, the article illuminates the differences in legal approaches and points out possible areas of harmonization. The results clarify the legal aspects that must be addressed to ensure the integration of blockchain technology into healthcare systems, innovation while protecting patients' rights, and compliance with regulatory requirements.

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Automated System for Colon Cancer Detection and Segmentation Based on Deep Learning Techniques

Cited by 11 publications

References 84 publications

Gastrointestinal Cancer Detection and Classification Using African Vulture Optimization Algorithm With Transfer Learning

Gastrointestinal Cancer Detection and Classification Using African Vulture Optimization Algorithm With Transfer Learning

Novel Hybrid Genetic Arithmetic Optimization for Feature Selection and Classification of Pulmonary Disease Images

Legal View on Blockchain Technologies in Healthcare

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