Add to ORKGThe monochromatic aberrations of the human eye limit visual performance to varying degrees. An aberroscope or a Hartman-Shack sensor can measure the total aberrations of the human eye. The aberroscope that is currently being developed at the Centre for Eye Research consists of a grid pattern that is projected on the eye through a specially designed optical system and a camera that records the resulting grid image from the retina. We propose the development of an integrated DSP system that would simultaneously control the projected grid pattern and capture the retinal images. Also, we derive a detection scheme for calculating the centroids of the retinal grid pattern. These centroids are used to determine the wavefront aberration error funct...
The Hartmann⁻Shack wavefront sensor is widely used to measure aberrations in both astronomy an...
This paper (1) reviews the fundamental limits to visual performance imposed by optical imaging and p...
Visual perception is dependent on both light transmission through the eye and neuronal conduction th...
The monochromatic aberrations of the human eye limit visual performance to varying degrees. An aberr...
The monochromatic aberrations of the human eye limit visual performance to varying degrees. An aberr...
Human visual performance is usually measured by conventional techniques (eg. letter charts), which c...
20 pags.The first technique for measuring aberrations in the human eye was described by Tscherning (...
One of the most used techniques for measuring the optical aberrations of the human eye is the so-cal...
New objective methods to measure the optical aberrations of the eye are reviewed, in particular the ...
A versatile Hartmann-Shack (HS) wavefront sensor (WFS) was designed and constructed. Its advantages ...
Human beings rely heavily on vision for almost all of the tasks that are required in daily life. Bec...
A simple method to objectively and simultaneously measure eye’s longitudinal and transverse chromati...
Ocular wavefront sensing is vital to improving our understanding of the human eye and to developing ...
Abstract We present data analysis for ocular aberrations of 60 normal eyes measured with a Hartmann-...
AbstractOff-axis monochromatic aberrations in the human eye impose limits on peripheral vision. Howe...
The Hartmann⁻Shack wavefront sensor is widely used to measure aberrations in both astronomy an...
This paper (1) reviews the fundamental limits to visual performance imposed by optical imaging and p...
Visual perception is dependent on both light transmission through the eye and neuronal conduction th...
The monochromatic aberrations of the human eye limit visual performance to varying degrees. An aberr...
The monochromatic aberrations of the human eye limit visual performance to varying degrees. An aberr...
Human visual performance is usually measured by conventional techniques (eg. letter charts), which c...
20 pags.The first technique for measuring aberrations in the human eye was described by Tscherning (...
One of the most used techniques for measuring the optical aberrations of the human eye is the so-cal...
New objective methods to measure the optical aberrations of the eye are reviewed, in particular the ...
A versatile Hartmann-Shack (HS) wavefront sensor (WFS) was designed and constructed. Its advantages ...
Human beings rely heavily on vision for almost all of the tasks that are required in daily life. Bec...
A simple method to objectively and simultaneously measure eye’s longitudinal and transverse chromati...
Ocular wavefront sensing is vital to improving our understanding of the human eye and to developing ...
Abstract We present data analysis for ocular aberrations of 60 normal eyes measured with a Hartmann-...
AbstractOff-axis monochromatic aberrations in the human eye impose limits on peripheral vision. Howe...
The Hartmann⁻Shack wavefront sensor is widely used to measure aberrations in both astronomy an...
This paper (1) reviews the fundamental limits to visual performance imposed by optical imaging and p...
Visual perception is dependent on both light transmission through the eye and neuronal conduction th...