Ultra-Wide-NeRF reconstructs wide field-of-view 3D ultrasound volumes using a multivariate Gaussian NeRF model that accounts for convex probe beam divergence to reduce stitching artifacts and enable novel view synthesis.
Ulre-nerf: 3d ultrasound imaging through neural rendering with ultrasound reflection direction parameterization
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A ray-tracing ultrasound simulator is made end-to-end differentiable, allowing automatic optimization of scene and system parameters from image-space losses.
UltraGS combines Gaussian Splatting with physics-inspired acoustic modeling to enable real-time novel view synthesis from sensorless ultrasound, reporting SOTA PSNR/SSIM and 64 fps on a new clinical dataset.
citing papers explorer
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Multivariate Gaussian NeRF for Wide Field-of-View Ultrasound Reconstruction
Ultra-Wide-NeRF reconstructs wide field-of-view 3D ultrasound volumes using a multivariate Gaussian NeRF model that accounts for convex probe beam divergence to reduce stitching artifacts and enable novel view synthesis.
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Fully Differentiable Ultrasound Simulation Utilizing Ray-Tracing
A ray-tracing ultrasound simulator is made end-to-end differentiable, allowing automatic optimization of scene and system parameters from image-space losses.
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UltraGS: Real-Time Physically-Decoupled Gaussian Splatting for Ultrasound Novel View Synthesis
UltraGS combines Gaussian Splatting with physics-inspired acoustic modeling to enable real-time novel view synthesis from sensorless ultrasound, reporting SOTA PSNR/SSIM and 64 fps on a new clinical dataset.