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Journal of Intelligent Systems and Internet of Things

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Online: 2690-6791 Print: 2769-786X
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Journal of Intelligent Systems and Internet of Things
Full Length Article

Volume 17Issue 2PP: 238-249 • 2025

Multi-View Feature Learning Approach in Deep Learning Model for Improving Endometrial Cancer Detection from Medical Images

Karthick Natarajan 1*
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Nithya Palanisamy 2
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1Research Scholar, Department of Computer Science, PSG College of Arts and Science, Coimbatore- 641014, Tamilnadu, India
2Associate Professor and Head , Department of Networking and Mobile Application, PSG College of Arts and Science, Coimbatore- 641014, Tamilnadu, India
* Corresponding Author.
DOI https://doi.org/10.54216/JISIoT.170215
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Received: January 27, 2025 Revised: March 30, 2025 Accepted: June 05, 2025
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Abstract

An accurate diagnosis of Endometrial Cancer (EC) is crucial for gynecologists, as different types may require specific treatments. Radiomics, a quantitative method, can help analyze and quantify image heterogeneity, aiding in lesion diagnosis. Previous research introduced a Transformer-based Semantic-Aware U-Net with Deep Endometrial Cancer Prediction (TSA-UNet-DeepECP) to segment and classify EC stages in Magnetic Resonance Imaging MRI scans. However, the heterogeneous properties of input scans can affect the DeepECP model's performance. Hence, this study presents the TSA-UNet with an Improved DeepECP model (TSA-UNet-IDeepECP) for EC stage classification. This IDeepECP model incorporates a multi-view learning approach, combining local 2D MRI image information with global 3D MRI image information. First, the endometrium MRI scans are collected, augmented, and segmented using the TSA-UNet model. Various Deep Learning (DL) models, one for 2D and one for 3D, are fed the segmented images. In contrast to the 3D view model, which collects global information from 3D MRI images, the 2D view model primarily recovers local features from 2D MRI data. The multi-view DeepECP model is trained using these combined characteristics. A Fully Connected (FC) layer and the softmax classifier are used for classifying EC stages using the combined features. When compared to traditional models, a TSA-UNet-IDeepECP model achieves better performance in EC detection from MRI images.

Keywords

Endometrial cancer MRI TSA-UNet DeepECP Heterogeneity Multi-view learning

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format_quote
Natarajan, Karthick, Palanisamy, Nithya. "Multi-View Feature Learning Approach in Deep Learning Model for Improving Endometrial Cancer Detection from Medical Images." Journal of Intelligent Systems and Internet of Things, vol. Volume 17, no. Issue 2, 2025, pp. 238-249. DOI: https://doi.org/10.54216/JISIoT.170215
Natarajan, K., Palanisamy, N. (2025). Multi-View Feature Learning Approach in Deep Learning Model for Improving Endometrial Cancer Detection from Medical Images. Journal of Intelligent Systems and Internet of Things, Volume 17(Issue 2), 238-249. DOI: https://doi.org/10.54216/JISIoT.170215
Natarajan, Karthick, Palanisamy, Nithya. "Multi-View Feature Learning Approach in Deep Learning Model for Improving Endometrial Cancer Detection from Medical Images." Journal of Intelligent Systems and Internet of Things Volume 17, no. Issue 2 (2025): 238-249. DOI: https://doi.org/10.54216/JISIoT.170215
Natarajan, K., Palanisamy, N. (2025) 'Multi-View Feature Learning Approach in Deep Learning Model for Improving Endometrial Cancer Detection from Medical Images', Journal of Intelligent Systems and Internet of Things, Volume 17(Issue 2), pp. 238-249. DOI: https://doi.org/10.54216/JISIoT.170215
Natarajan K, Palanisamy N. Multi-View Feature Learning Approach in Deep Learning Model for Improving Endometrial Cancer Detection from Medical Images. Journal of Intelligent Systems and Internet of Things. 2025;Volume 17(Issue 2):238-249. DOI: https://doi.org/10.54216/JISIoT.170215
K. Natarajan, N. Palanisamy, "Multi-View Feature Learning Approach in Deep Learning Model for Improving Endometrial Cancer Detection from Medical Images," Journal of Intelligent Systems and Internet of Things, vol. Volume 17, no. Issue 2, pp. 238-249, 2025. DOI: https://doi.org/10.54216/JISIoT.170215
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