Publications by authors named "G Hamarneh"
Novel portable diffuse optical tomography (DOT) devices for breast cancer lesions hold great promise for non-invasive, non-ionizing breast cancer screening. Critical to this capability is not just the identification of lesions but rather the complex problem of discriminating between malignant and benign lesions. To accurately reconstruct the highly heterogeneous tissue of a cancer lesion in healthy breast tissue using DOT, multiple wavelengths can be leveraged to maximize signal penetration while minimizing sensitivity to noise.
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- Super-resolution microscopy, or nanoscopy, allows researchers to investigate molecular structures at the nanoscale within living cells, connecting modern imaging techniques to traditional structural biology.
- AI and machine learning can analyze super-resolution data, opening new avenues for biological discoveries that were previously unknown or lacked established knowledge.
- The use of weakly supervised learning methods in super-resolution microscopy can enhance the understanding of the nanoscale architecture of macromolecules and organelles, speeding up research and discoveries in this field.
Deep learning models have achieved remarkable success in medical image classification. These models are typically trained once on the available annotated images and thus lack the ability of continually learning new tasks (i.e.
View Article and Find Full Text PDFIn recent years, deep learning (DL) has shown great potential in the field of dermatological image analysis. However, existing datasets in this domain have significant limitations, including a small number of image samples, limited disease conditions, insufficient annotations, and non-standardized image acquisitions. To address these shortcomings, we propose a novel framework called DermSynth3D.
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