Inverse Optical Design Software
Invention:
The 'inverse optical design' approach is the opposite of traditional optical design. Data consist of raw detector outputs from a Shack-Hartmann wavefront sensor, and parameters in the eye model are then determined via maximum-likelihood estimation methods. This invention is related to UA07-055 in that this disclosure reveals the software code and is copyrighted.
Background:
Adaptive optics technology using wavefront sensors is currently making profound contributions to vision science and ophthalmology. It provides eye specialists with superior techniques for studying and correcting human vision, and for the early detection and treatment of visual diseases. Researchers at The University of Arizona and the National University of Ireland, Galway, have developed an innovative method to estimate the full set of patient-specific ocular parameters using wavefront sensors. This 'inverse optical design' method maps the entire eye and shows potential for very low uncertainties. It promises a complete patient-specific eye model, providing substantial improvements in vision science and ophthalmology such as vision correction, retinal imaging, and surgical procedures, enabling research and applications previously unapproachable.
Applications:
- Complete eye mapping to evaluate vision performance and quality and statistically compare variability between patients
- In vivo gradient-index (GRIN) distribution and lenticular geometry of the crystalline lens as function of age and accommodation
- Theoretical basis for vision correction of higher-order aberrations in laser refractive surgery or with corrective lenses
- Developing data bases for clinical diagnosis of pathologies
- Ocular surface misalignments, e.g. after implantation of lenses in cataract surgery
- Geometrical parameters of any optical system, e.g., GRIN distribution in commercial lenses
Advantages:
- Provide in vivo, non-invasive, complete mapping of the eye, revealing dozens of parameters essential to an accurate representation of the eye and its aberrations
- Knowing an individual's real eye structure facilitates a broad range of vision science studies and treatments ongoing today
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