Medical Image Segmentation

Arpit Mohankar; Aishwarya Nagpure; Sania Shaikh; Khushi Singh; Firdous Jahan Shaikh

doi:10.47392/IRJAEH.2024.0353

Authors

Arpit Mohankar UG Scholar, Dept. of AI&DS, Rajiv Gandhi Institute of Tech., Mumbai, Maharashtra, India. Author
Aishwarya Nagpure UG Scholar, Dept. of AI&DS, Rajiv Gandhi Institute of Tech., Mumbai, Maharashtra, India. Author
Sania Shaikh UG Scholar, Dept. of AI&DS, Rajiv Gandhi Institute of Tech., Mumbai, Maharashtra, India. Author
Khushi Singh UG Scholar, Dept. of AI&DS, Rajiv Gandhi Institute of Tech., Mumbai, Maharashtra, India. Author
Firdous Jahan Shaikh Assistant Professor, Dept. of AI&DS, Rajiv Gandhi Institute of Tech., Mumbai, Maharashtra, India. Author

DOI:

https://doi.org/10.47392/IRJAEH.2024.0353

Keywords:

Convolutional neural networks (CNNs), Deep learning, Medical image segmentation, U-Net, Fully Convolutional Networks (FCNs)

Abstract

Medical image segmentation is a critical component in the development of computer-aided diagnosis and treatment planning systems. This paper provides a comprehensive survey of recent advances in segmentation techniques applied to various imaging modalities, including Magnetic Resonance Imaging (MRI). Traditional methods such as thresholding, region-growing, and active contours are reviewed alongside contemporary machine learning-based approaches, particularly deep learning models. The survey emphasizes the growing dominance of convolutional neural networks (CNNs) and their variants, including U-Net and Fully Convolutional Networks (FCNs), which have shown remarkable success in handling complex medical imaging challenges. Additionally, the paper discusses hybrid methods that combine classical techniques with artificial intelligence to improve accuracy and robustness in segmentation tasks. Key challenges such as class imbalance, boundary delineation, and computational efficiency are also highlighted. Future directions, including the integration of multi-modal data and advancements in self-supervised learning, are explored as potential solutions to overcome current limitations in medical image segmentation.