Litcius/Paper detail

Two-Shot Spatially-Varying BRDF and Shape Estimation

Mark Boss, Varun Jampani, Kihwan Kim, Hendrik P.A. Lensch, Jan Kautz

202072 citationsDOIOpen Access PDF

Abstract

Capturing the shape and spatially-varying appearance (SVBRDF) of an object from images is a challenging task that has applications in both computer vision and graphics. Traditional optimization-based approaches often need a large number of images taken from multiple views in a controlled environment. Newer deep learning-based approaches require only a few input images, but the reconstruction quality is not on par with optimization techniques. We propose a novel deep learning architecture with a stage-wise estimation of shape and SVBRDF. The previous predictions guide each estimation, and a joint refinement network later refines both SVBRDF and shape. We follow a practical mobile image capture setting and use unaligned two-shot flash and no-flash images as input. Both our two-shot image capture and network inference can run on mobile hardware. We also create a large-scale synthetic training dataset with domain-randomized geometry and realistic materials. Extensive experiments on both synthetic and real-world datasets show that our network trained on a synthetic dataset can generalize well to real-world images. Comparisons with recent approaches demonstrate the superior performance of the proposed approach.

Topics & Concepts

Artificial intelligenceComputer scienceInferenceComputer visionDeep learningTask (project management)Object (grammar)Synthetic dataImage (mathematics)Artificial neural networkPattern recognition (psychology)Network architectureObject detectionIterative reconstructionJoint (building)Image processingTraining setQuality (philosophy)Image qualityDeep neural networksMachine learningCognitive neuroscience of visual object recognitionImage segmentationSolid modelingAdvanced Vision and ImagingMedical Image Segmentation Techniques3D Shape Modeling and Analysis