LECTURES

Lecture 1 - Aberrometry 1 - Visual optics review
Lecture 2 - Aberrometry 2 - Zernikes and RMS [Aberrometry slideshow]
Lecture 3 - Aberrometry 3
Lecture 4 - Power vectors [Power vector spreadsheet; Zernike to Rx conversion]
Lecture 5 - Power vectors 2; The psychophysical approach
Lecture 6 - Absolute sensitivity of the eye
Lecture 7 - Photometry 1 - the V lambda function
Lecture 8 - Photometry 2 - Lambertian surfaces, retinal illuminance
Lecture 9 - Introduction to the duplex retina, photochromic interval, Purkinje shift
Lecture 10 - Dark adaptation 2
Lecture 11 - Light adaptation, Weber's law, spatial summation
Lecture 12 - Spatial, temporal summation, Stiles-Crawford effect
Lecture 13 - review for Exam 1
Lecture 14 - Discussion of Exam 1
Lecture 15 - Introduction to spatial vision, Fourier analysis [Spatial vision slides]
Lecture 16 - Fourier transformation of images
Lecture 17 - Spatial filtering
Lecture 18 - Modulation transfer function, Contrast sensitivity 1
Lecture 19 - Contrast sensitivity 2 [Spatial vision slides]
Lecture 20 - Contrast sensitvity 3 [Starry Nights] [Don McLean song]
Lecture 21 - Visual acuity
Lecture 22 - Temporal vision, the temporal MTF
Lecture 23 - Temporal vision phenomena
Lecture 24 - Motion perception [Motion gradient figure]
Lecture 25 - OAOP fall meeting
Lecture 26 - Review for Exam 2
Lecture 27 - Color vision introduction
Apple color information: Video: "An Eye for Color"
Saturation, Simultaneous contrast
Wikipedia color article
Lecture 28 - Normal color vision
Lecture 29 - Color opponent theory
Lecture 30 - Anomalous color vision
Lecture 31 - Acquired color anomalies
Lecture 32 - Testing color vision
Lecture 33 - Anomaloscope
Lecture 34 - Gross electrical potentials
Lecture 35 - Retinal electrophysiology
Lecture 36 - Parvo and magno parallel pathways
Lecture 37 - Frequency doubling technology, Intro to phsychophysics
Lecture 38 - Psychophysical thresholds
Lecture 39, - The theory of signal detection
Lecture 40 - ROC curves
Lecture 41 - Magnitude of sensation; neural adaptation

LABS

Lab 1 - Clinical aberrometry
Lab 2 - Visual fields testing [Lab 1 & 2 results]
Lab 3 - Photometry, V lambda, photostress
Lab 4 - Visual acuity
Lab 5 - One- and two-dimensional Fourier analysis
Lab 6 - Contrast sensitivity [Lab 6 results]
Lab 7 - Visual illusions [Illusion Works web site]
Lab 8 - The CIE Color Specification System
Lab 9 - Testing color vision
Lab 10 - The visually evoked response (VER)
Lab 11 - The electroretinogram (ERG)

Vision science symposium materials [Instructions] [Task checklist]

TESTS

2011 Final
2011 Exam3
2011 Exam 2
2011 Exam 1

2010 Final
2010 Exam 3
2010 Exam 2
2010 Exam 1

2009 Final
2009 Exam 3
2009 Exam 2
2009 Exam 1

2008 Final
2008 Exam 3
2008 Exam 2
2008 Exam 1

2007 Final
2007 Exam 3
2007 Exam 2
2007 Exam 1

2006 Final
2006 Exam 3 [2006 Exam3b]
2006 Exam 2
2006 Exam 1

2005 Final
2005 Exam 3
2005 Exam 2
2005 Exam 1

2004 Final
2004 Exam 3
2004 Exam 2
2004 Exam 1

2003 Final
2003 Exam 3
2003 Exam 2
2003 Exam 1

2002 Final
2002 Exam 3
2002 Exam 2
2002 Exam 1

2001 Final
2001 Exam 3
2001 Exam 2
2001 Exam 1

2000 Final
2000 Exam 3
2000 Exam 2
2000 Exam 1

1999 Final
1999 Exam 3
1999 Exam 2
1999 Exam 1

1998 Final
1998 Exam 2
1998 Exam 1

1997 Final
1997 Exam 3
1997 Exam 2
1997 Exam 1

VSII COURSE LINKS

Syllabus
Course schedule

NSU Library
Journal of Vison
IOVS

OSA Standards
Aberrometer accuracy '98
COAS accuracy article
The Indiana Eye
WaveFront Sciences, Inc.

Surgical Eyes
VISX
LADARVISION

Light Measurement Handbook
Recommended light levels
IESNA Illuminance levels
CRVL data sets

Retinal neurons site

van Gogh art gallery
Vector Vision

Illusion Works
Joy of Visual Perception
Motion Perception

Power vector spreadsheet
Zernike to Rx conversion