TY - GEN
T1 - Superresolving optical system using time multiplexing computer decoding and image processing
AU - Shemer, A
AU - Mendlovic, D
AU - Zalevsky, Z
AU - Marom, E
N1 - Place of conference:Canada
PY - 2000
Y1 - 2000
N2 - Objects that temporally vary slowly, may be super resolved using two moving masks such as pinhole or grating. The setup requires two physical gratings that should move in a synchronized manner. This approach is efficient for exceeding the resolving capability of Abbe's limit. Moreover, it was based on coherent illumination and required a certain approximation. In this work the second grating, which is responsible for the information decoding, is replaced by a detector array and post-processing procedures. This way, the synchronization problem existing when two gratings are used is simplified. Furthermore, two novel approaches for getting accurate coherent super-resolution and overcoming the distortions exhibited by Ronchi gratings and manufacturing imperfections are also presented. In the first approach the grating in the image plane is moved with a velocity which is half the required velocity. In the second approach, different parts of the spectrum are transmitted through the system's aperture that allows a post processing ability. Experimental results are provided for demonstrating the ability of the new approach.
AB - Objects that temporally vary slowly, may be super resolved using two moving masks such as pinhole or grating. The setup requires two physical gratings that should move in a synchronized manner. This approach is efficient for exceeding the resolving capability of Abbe's limit. Moreover, it was based on coherent illumination and required a certain approximation. In this work the second grating, which is responsible for the information decoding, is replaced by a detector array and post-processing procedures. This way, the synchronization problem existing when two gratings are used is simplified. Furthermore, two novel approaches for getting accurate coherent super-resolution and overcoming the distortions exhibited by Ronchi gratings and manufacturing imperfections are also presented. In the first approach the grating in the image plane is moved with a velocity which is half the required velocity. In the second approach, different parts of the spectrum are transmitted through the system's aperture that allows a post processing ability. Experimental results are provided for demonstrating the ability of the new approach.
UR - https://scholar.google.co.il/scholar?q=Superresolving+optical+system+using+time+multiplexing+computer+decoding+and+image+processing&btnG=&hl=en&as_sdt=0%2C5
M3 - Conference contribution
BT - Optics in Computing 2000
PB - SPIE
ER -