Homogeneous Codes for Energy Efficient Illumination and Imaging - Robotics Institute Carnegie Mellon University

Homogeneous Codes for Energy Efficient Illumination and Imaging

M. O'Toole, S. Achar, S. G. Narasimhan, and K. N. Kutulakos
Journal Article, ACM Transactions on Graphics (TOG), Vol. 34, No. 4, August, 2015

Abstract

Programmable coding of light between a source and a sensor has led to several important results in computational illumination, imaging and display. Little is known, however, about how to utilize energy most effectively, especially for applications in live imaging. In this paper, we derive a novel framework to maximize energy efficiency by "homogeneous matrix factorization" that respects the physical constraints of many coding mechanisms (DMDs/LCDs, lasers, etc.). We demonstrate energy-efficient imaging using two prototypes based on DMD and laser illumination. For our DMD-based prototype, we use fast local optimization to derive codes that yield brighter images with fewer artifacts in many transport probing tasks. Our second prototype uses a novel combination of a low-power laser projector and a rolling shutter camera. We use this prototype to demonstrate never-seen-before capabilities such as (1) capturing live structured-light video of very bright scenes-even a light bulb that has been turned on; (2) capturing epipolar-only and indirect-only live video with optimal energy efficiency; (3) using a low-power projector to reconstruct 3D objects in challenging conditions such as strong indirect light, strong ambient light, and smoke; and (4) recording live video from a projector's-rather than the camera's-point of view.

BibTeX

@article{O'Toole-2015-120201,
author = {M. O'Toole and S. Achar and S. G. Narasimhan and K. N. Kutulakos},
title = {Homogeneous Codes for Energy Efficient Illumination and Imaging},
journal = {ACM Transactions on Graphics (TOG)},
year = {2015},
month = {August},
volume = {34},
number = {4},
}