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Mip-NeRF 360: Unbounded Anti-Aliased Neural Radiance Fields

Jonathan T. Barron, Ben Mildenhall, Dor Verbin, Pratul P. Srinivasan, Peter Hedman

20222022 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR)1,653 citationsDOI

Abstract

Though neural radiance fields (NeRF) have demon-strated impressive view synthesis results on objects and small bounded regions of space, they struggle on “un-bounded” scenes, where the camera may point in any di-rection and content may exist at any distance. In this set-ting, existing NeRF-like models often produce blurry or low-resolution renderings (due to the unbalanced detail and scale of nearby and distant objects), are slow to train, and may exhibit artifacts due to the inherent ambiguity of the task of reconstructing a large scene from a small set of images. We present an extension of mip-NeRF (a NeRF variant that addresses sampling and aliasing) that uses a non-linear scene parameterization, online distillation, and a novel distortion-based regularizer to overcome the chal-lenges presented by unbounded scenes. Our model, which we dub “mip-NeRF 360” as we target scenes in which the camera rotates 360 degrees around a point, reduces mean-squared error by 57% compared to mip-NeRF, and is able to produce realistic synthesized views and detailed depth maps for highly intricate, unbounded real-world scenes.

Topics & Concepts

Computer scienceComputer visionAliasingArtificial intelligencePoint (geometry)Set (abstract data type)RadianceBounded functionDistortion (music)AmbiguityMathematicsGeometryPhysicsMathematical analysisFilter (signal processing)OpticsBandwidth (computing)Programming languageComputer networkAmplifierAdvanced Vision and ImagingComputer Graphics and Visualization Techniques3D Shape Modeling and Analysis
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