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S-VolSDF: Sparse Multi-View Stereo Regularization of Neural Implicit Surfaces

Haoyu Wu, Alexandros Graikos, Dimitris Samaras

202311 citationsDOI

Abstract

Neural rendering of implicit surfaces performs well in 3D vision applications. However, it requires dense input views as supervision. When only sparse input images are available, output quality drops significantly due to the shape-radiance ambiguity problem. We note that this ambiguity can be constrained when a 3D point is visible in multiple views, as is the case in multi-view stereo (MVS). We thus propose to regularize neural rendering optimization with an MVS solution. The use of an MVS probability volume and a generalized cross entropy loss leads to a noise-tolerant optimization process. In addition, neural rendering provides global consistency constraints that guide the MVS depth hypothesis sampling and thus improves MVS performance. Given only three sparse input views, experiments show that our method not only outperforms generic neural rendering models by a large margin but also significantly increases the reconstruction quality of MVS models.

Topics & Concepts

Rendering (computer graphics)Computer scienceAmbiguityView synthesisArtificial intelligenceRadianceImage-based modeling and renderingEntropy (arrow of time)Deep neural networksVolume renderingVisualizationComputer visionArtificial neural networkAlgorithmOpticsPhysicsProgramming languageQuantum mechanicsAdvanced Vision and ImagingComputer Graphics and Visualization Techniques3D Shape Modeling and Analysis