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Modelling and Compensating Measurement Errors Caused by Scattering in Time-Of-Flight Cameras

Abstract

Recently, Range Imaging (RIM) cameras have become available that capture high resolution range images at video rate. Such cameras measure the distance from the scene for each pixel independently based upon a measured time of flight (TOF). Some cameras, such as the SwissRanger™ SR-3000, measure the TOF based on the phase shift of reflected light from a modulated light source. Such cameras are shown to be susceptible to severe distortions in the measured range due to light scattering within the lens and camera. Earlier work induced using a simplified Gaussian point spread function and inverse filtering to compensate for such distortions. In this work a method is proposed for how to identify and use generally shaped empirical models for the point spread function to get a more accurate compensation. The otherwise difficult inverse problem is solved by using the forward model iteratively, according to well established procedures from image restoration. Each iteration is done as a sequential process, starting with the brightest parts of the image and then moving sequentially to the least bright parts, with each step subtracting the estimated effects from the measurements. This approach gives a faster and more reliable compensation convergence. An average reduction of the error by more than 60% is demonstrated on real images. The computation load corresponds to one or two convolutions of the measured complex image with a real filter of the same size as the image.
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Category

Academic lecture

Language

English

Author(s)

Affiliation

  • SINTEF Digital / Smart Sensors and Microsystems

Presented at

Optics + Photonics 2008, Two- and Three-Dimensional

Place

San Diego, CA, USA

Date

10.08.2008 - 14.08.2008

Organizer

SPIE

Year

2008

External resources

View this publication at Cristin