HarishG Siddhalingaiah ^* RaviprasadK jagganath GurusiddappaR Prashanth

• National Institute of Technology, Goa, Farmagudi, India

DOT (Diffuse Optical Tomography) is a non-invasive imaging technique used to visualize the internal structure of biological tissues. However, due to the inherent limitations and noise in DOT measurements, accurate image reconstruction remains a significant challenge. In this article, a comprehensive survey of regularization techniques are presented that aimed at enhancing image reconstruction in DOT. The survey encompasses a wide range of regularization methods, including Tikhonov regularization, TV (Total Variation) regularization, sparse regularization etc. Each technique is evaluated in terms of its mathematical formulation, underlying assumptions, advantages, and limitations. Furthermore, the impact of regularization parameters are also discussed, such as regularization strength and regularization matrix, on the quality and accuracy of reconstructed images. Through this review, the studies (ranging from 2009-2024) that have used different regularization methods for reconstructing images in DOT are unveiled. Further, the observations and future suggestions are afforded for exploring the different endeavors undertaken by conventional works and to uncover the hurdles of different regularization methods for image reconstruction in DOT. Overall, this survey aims to provide researchers and practitioners in the field of DOT with an in-depth understanding of different regularization techniques, enabling them to make informed decisions when selecting an appropriate method for enhancing image reconstruction in DOT. By improving the quality and reliability of reconstructed images, these regularization techniques have the potential to advance the field of DOT and facilitate more accurate diagnosis and treatment planning in various biomedical applications.