Simulated annealing in adaptive optics for imaging the eye retina
Creators
- 1. Department of Physics, Technion, Israel Institute of Technology, Haifa (Israel)
Description
Full Text:Adaptive optics is a method designed to correct deformed images in real time. Once the distorted wavefront is known, a deformable mirror is used to compensate the aberrations and return the wavefront to a plane wave. This study concentrates on methods that omit wave front sensing from the reconstruction process. Such methods use stochastic algorithms to find the extremum of a certain sharpness function, thereby correcting the image without any information on the wavefront. Theoretical work [l] has shown that the optical problem can be mapped onto a model for crystal roughening. The main algorithm applied is simulated annealing. We present a first hardware realization of this algorithm in an adaptive optics system designed to image the retina of the human eye
Additional details
Publishing Information
- Imprint Place
- Haifa (Israel)
- Imprint Title
- 2004 annual meeting of the Israel Physical Society
- Imprint Pagination
- 179 p.
- Journal Volume
- 50
- Series
- Bulletin of the Israel Physical Society
- Journal Page Range
- p. 77
Conference
- Title
- 2004 annual meeting of the Israel Physical Society
- Dates
- 1 Dec 2004
- Place
- Haifa (Israel)
INIS
- Country of Publication
- Israel
- Country of Input or Organization
- Israel
- INIS RN
- 37105545
- Subject category
- S71: CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS;
- Resource subtype / Literary indicator
- Conference, Non-conventional Literature
- Descriptors DEI
- ADAPTIVE SYSTEMS; ANNEALING; IMAGE PROCESSING; IMAGE SCANNERS; IMAGES; MODE CONTROL; OPTICS; RETINA; WAVE PROPAGATION
- Descriptors DEC
- BODY; COMPUTERIZED CONTROL SYSTEMS; CONTROL; CONTROL SYSTEMS; EYES; FACE; HEAD; HEAT TREATMENTS; ON-LINE CONTROL SYSTEMS; ON-LINE SYSTEMS; ORGANS; PROCESSING; SENSE ORGANS
Optional Information
- Lead record
- cy8pc-kse64