Yves Paychère
YOU?
Author Swipe
View article: CellSeg3D, Self-supervised 3D cell segmentation for fluorescence microscopy
CellSeg3D, Self-supervised 3D cell segmentation for fluorescence microscopy Open
Understanding the complex three-dimensional structure of cells is crucial across many disciplines in biology and especially in neuroscience. Here, we introduce a set of models including a 3D transformer (SwinUNetR) and a novel 3D self-supe…
View article: CellSeg3D: self-supervised 3D cell segmentation for fluorescence microscopy
CellSeg3D: self-supervised 3D cell segmentation for fluorescence microscopy Open
Understanding the complex three-dimensional structure of cells is crucial across many disciplines in biology and especially in neuroscience. Here, we introduce a set of models including a 3D transformer (SwinUNetR) and a novel 3D self-supe…
View article: CellSeg3D: self-supervised 3D cell segmentation for light-sheet microscopy
CellSeg3D: self-supervised 3D cell segmentation for light-sheet microscopy Open
Understanding the complex three-dimensional structure of cells is crucial across many disciplines in biology and especially in neuroscience. Here, we introduce a novel 3D self-supervised learning method designed to address the inherent com…
View article: CellSeg3D, Self-supervised 3D cell segmentation for fluorescence microscopy
CellSeg3D, Self-supervised 3D cell segmentation for fluorescence microscopy Open
Understanding the complex three-dimensional structure of cells is crucial across many disciplines in biology and especially in neuroscience. Here, we introduce a set of models including a 3D transformer (SwinUNetR) and a novel 3D self-supe…
View article: CellSeg3D: self-supervised 3D cell segmentation for microscopy
CellSeg3D: self-supervised 3D cell segmentation for microscopy Open
Understanding the complex three-dimensional structure of cells is crucial across many disciplines in biology and especially in neuroscience. Here, we introduce a novel 3D self-supervised learning method designed to address the inherent com…
View article: CellSeg3D: self-supervised 3D cell segmentation for fluorescence microscopy
CellSeg3D: self-supervised 3D cell segmentation for fluorescence microscopy Open
Understanding the complex three-dimensional structure of cells is crucial across many disciplines in biology and especially in neuroscience. Here, we introduce a set of models including a 3D transformer (SwinUNetR) and a novel 3D self-supe…