Title :
Coded aperture compressive 3-D LIDAR
Author :
Kadambi, Achuta ; Boufounos, Petros T.
Author_Institution :
Media Lab., Massachusetts Inst. of Technol. (MIT), Cambridge, MA, USA
Abstract :
Continuous improvement in optical sensing components, as well as recent advances in signal acquisition theory provide a great opportunity to reduce the cost and enhance the capabilities of depth sensing systems. In this paper we propose a new depth sensing architecture that exploits a fixed coded aperture to significantly reduce the number of sensors compared to conventional systems. We further develop a modeling and reconstruction framework, based on model-based compressed sensing, which characterizes a large variety of depth sensing systems. Our experiments demonstrate that it is possible to reduce the number of sensors by more than 85%, with negligible reduction on the sensing quality.
Keywords :
encoding; optical radar; coded aperture compressive 3D LIDAR; compressed sensing; depth sensing architecture; depth sensing systems; fixed coded aperture; optical sensing components; signal acquisition theory; Apertures; Compressed sensing; Computational modeling; Image reconstruction; Imaging; Sensors; TV; 3-D imaging; LIDAR; compressed sensing; computational imaging; time of flight;
Conference_Titel :
Acoustics, Speech and Signal Processing (ICASSP), 2015 IEEE International Conference on
Conference_Location :
South Brisbane, QLD
DOI :
10.1109/ICASSP.2015.7178153
