... | ... | @@ -24,4 +24,7 @@ Dickscheid, Timo t.dickscheid@fz-juelich.de | INM-1 Big Data Analytics Group (BD |
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| Axer, Markus m.axer@fz-juelich.de | INM-1 Fiber Architecture Group | none | Microscopic resolution 2D and 3D images, scalar and vector valued data |
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| Khalid, Fahad f.khalid@fz-juelich.de | JSC SimLab Neuroscience | 1) Experience in using CNNs for image segmentation. 2) Overview of literature on distributed training and inference for deep networks. 3) Setting up and testing DL frameworks on HPC infrastructure. | 1) Very high resolution 2D images captured using the Polarized Light Imaging technology 2) Low resolution volumetric image data from Magnetic Resonance Tomography | Hardware infrastructure for training and inference, which is readily available at the JSC |
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| Glock, Philipp p.glock@fz-juelich.de | INM-1 Big Data Analytics Group (BDA) | Deep Learning with ConvNets, Image Segmentation, pytorch, SVM | Microscopic-resolution 2D and 3D cyto images | |
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| Comito, Claudia c.comito@fz-juelich.de | JSC - Helmholtz Analytics Framework (HAF) | Currently human-learning | | Probabilistic approach | |
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| Comito, Claudia c.comito@fz-juelich.de | JSC - Helmholtz Analytics Framework (HAF) | Currently human-learning | | Probabilistic approach |
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| Haas, Sarah sa.haas@fz-juelich.de | INM-1 Big Data Analytics Group (BDA | Deep Learning with ConvNets, Image Feature Detection | Microscopic-resolution 2D and 3D cyto images | |
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| Ungermann, Jörn j.ungermann@fz-juelich.de | IEK-7 | Inverse Modelling, Linear Regression | 2-D and 3-D interferograms | |
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| Schober, Martin m.schober@fz-juelich.de | INM-1 Fiber Architecture Group | Beginner | Microscopic resolution 2D and 3D images, scalar and vector valued data | | |
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