Applying Reservoir Computing and Machine Learning Techniques for Image Enhancement in Biomedical Imaging

The paper presents a comprehensive study on the application of Machine Learning (ML) in enhancing the contrast of biomedical images. This research is pivotal in addressing the challenges of low visibility and detail in medical imaging, which are crucial for accurate diagnosis and treatment. The pape...

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Bibliographic Details
Published in2024 International Conference on Smart Applications, Communications and Networking (SmartNets) pp. 1 - 7
Main Authors Slonopas, Andre, Beatty, Adam, Djajalaksana, Yenni
Format Conference Proceeding
LanguageEnglish
Published IEEE 28.05.2024
Subjects
Accuracy
AI in Healthcare
AIIML Integration
Biomedical Imaging
Histograms
Image Enhancement
Machine Learning
Machine learning algorithms
Soft sensors
Speech recognition
Thermocouples
Visualization
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Summary:The paper presents a comprehensive study on the application of Machine Learning (ML) in enhancing the contrast of biomedical images. This research is pivotal in addressing the challenges of low visibility and detail in medical imaging, which are crucial for accurate diagnosis and treatment. The paper introduces innovative ML-based Histogram Equalization (ML - HE), leveraging deep learning algorithms and advanced image processing methods, to significantly improve the quality of biomedical images. These techniques enhance image clarity, detail, and overall contrast without compromising the integrity of the original data. This paper seeks to explore the integration of ML, specifically Reservoir Computing, with traditional image enhancement methods, creating a synergistic approach that leverages the strengths of both ML and conventional techniques and expedites image enhancements in near real-time. This hybrid approach is shown to be more effective in handling diverse and complex imaging scenarios encountered in biomedical applications. The study also discusses the implications of these advancements for medical professionals, highlighting how ML-enhanced images can lead to more accurate diagnoses, better patient outcomes, and advancements in medical research. Overall, this paper sheds light on the transformative potential of ML in revolutionizing biomedical imaging, setting a new standard for image quality and diagnostic precision in healthcare.
ISSN:2837-4940
DOI:10.1109/SmartNets61466.2024.10577705