Litcius/Paper detail

Use of structured light in 3D reconstruction of transparent objects

Haiyun Guo, Haowen Zhou, Partha P. Banerjee

2022Applied Optics14 citationsDOI

Abstract

A simple non-interferometric incoherent light ray propagation model is introduced to perform three-dimensional profiling of transparent objects with typical thicknesses of the order of mm to cm by analyzing the distorted captured image behind the object. A two-dimensional cosine fringe is used as the incident reference image, whose periodicity is markedly altered by the shape of the object. By monitoring the local change in the period, the surface profile is simulated and optimized to achieve minimal error with experimental data and thus determine the final morphology. Our proposed method is simple, robust, straightforward, and single-shot, and can be used with coherent or incoherent illumination. Its feasibility for more complex applications is verified experimentally through rigorous error calculation. Moreover, the application of this technique for arbitrary transparent objects is theoretically attainable and promising.

Topics & Concepts

Structured lightOpticsTrigonometric functionsComputer scienceIterative reconstructionSpatial frequencyRayPoint spread functionSurface reconstructionStructured-light 3D scannerAlgorithmComputer visionSurface (topology)Physical opticsGeometrical opticsImage processing3D reconstructionReflectivityIntegral imagingStray lightLight beamPhysicsStereo displaySimple (philosophy)Profiling (computer programming)Refractive indexArtificial intelligenceLight scatteringPropagation of uncertaintyRay tracing (physics)StereoscopyOptical measurement and interference techniquesAdvanced Optical Sensing TechnologiesDigital Holography and Microscopy