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Mirror3D: Depth Refinement for Mirror Surfaces

Jiaqi Tan, Weijie Lin, Anne Lynn S. Chang, Manolis Savva

202134 citationsDOI

Abstract

Despite recent progress in depth sensing and 3D reconstruction, mirror surfaces are a significant source of errors. To address this problem, we create the Mirror3D dataset: a 3D mirror plane dataset based on three RGBD datasets (Matterpot3D, NYUv2 and ScanNet) containing 7,011 mirror instance masks and 3D planes. We then develop Mirror3DNet: a module that refines raw sensor depth or estimated depth to correct errors on mirror surfaces. Our key idea is to estimate the 3D mirror plane based on RGB input and surrounding depth context, and use this estimate to directly regress mirror surface depth. Our experiments show that Mirror3DNet significantly mitigates errors from a variety of input depth data, including raw sensor depth and depth estimation or completion methods.

Topics & Concepts

Computer scienceContext (archaeology)Artificial intelligenceDepth mapRGB color modelPlane (geometry)Key (lock)Computer visionSurface (topology)Plane mirrorDepth perceptionOpticsMathematicsGeometryGeologyPhysicsImage (mathematics)NeuroscienceComputer securityPaleontologyPerceptionBiologyAdvanced Vision and ImagingOptical measurement and interference techniquesRobotics and Sensor-Based Localization
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