Restoration of Scene Information Reflected from Non-Specular Media

Abstract

A recently published experiment called "dual photography" exploits Helmholtz reciprocity by illuminating a scene with a pixilated light source and imaging other parts of that scene with a camera so that light transport between every pair of source-to-camera pixels is measured. The positions of the source and camera are then computationally interchanged to generate a "dual image" of the scene from the viewpoint of the source illuminated from the position of the camera. Although information from parts of the scene normally hidden from the camera are made available, this technique is rather contrived and therefore limited in practical applications since it requires access to the path from the source to the scene for the pixilated illumination. By radiometrically modeling the experiment described above and expanding it to the concept of indirect photography, it has been shown theoretically, by simulation and through experimentation that information in parts of the scene not directly visible to either the camera or the controlling light source can be recovered. To that end, the camera and light source (now a laser) have been collocated. The laser is reflected from a visible surface in the scene onto hidden surfaces in the scene and the camera images collect how the light is reflected from the hidden surfaces back to the visible surface. The camera images are then used to reconstruct information from the hidden surfaces in the scene. This document discusses the theory of indirect photography, describes the simulation and experiment and used to verify the theory and describes techniques used to improve the image quality, as measured by modified modulation transfer function.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 2011

Accession Number

ADA538389

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