Visual Science and Engineering : Models and Applications /: Models and Applications. (1994)
- Record Type:
- Book
- Title:
- Visual Science and Engineering : Models and Applications /: Models and Applications. (1994)
- Main Title:
- Visual Science and Engineering : Models and Applications
- Further Information:
- Note: Edited by D.H. Kelly.
- Editors:
- Kelly, D. H (Donald H.), 1923-
- Contents:
- Cover; Half Title; Title Page; Copyright Page; About the Series; Preface; Contributors; Table of Contents; Introduction to Chapter 1; 1. Optics In Vision; I. Introduction; II. The Schematic Eye; III. The Lens; IV. The Pupil; V. Imaging; VI. Linear and Nonlinear Systems; References; Introduction to Chapter 2; 2. The Purkinje Image Eyetracker, Image Stabilization, and Related Forms of Stimulus Manipulation; I. Introduction; II. Dual Purkinje Image Principle; A. Formation of the Purkinje Images; B. Movement of the Purkinje Images; III. Two-Dimensional Eyetracker A. First Usable Instrument (Generation II)B. First Production Instrument (Generation III); C. Major Improvements in Ease of Use (Generation IV); D. Final SRI Design (Generation V); E. Improvements by Fourward Technologies (Generation V .5); IV. Two- and Three-Dimensional Stimulus Deflector; A. Evolution of the Three-Dimensional Stimulus Deflector; B. Performance; V. Image Stabilization; A. Adjusting the Gains; B. Selective Stabilization; VI. Scotoma Simulator; A. Scotoma Systems; B. Final Design; Appendix 1: Optometer; Optometer Principles; Optometer Range Appendix 2: Three-Dimensional EyetrackerOptometer Input Path; Optometer Output Path; Optical Isolation Between the Two Instruments; Electronic Isolation of the Instruments; Appendix 3: ERI Laser Photocoagulator; Input Illumination; Binocular Viewing System; Input Laser Source; Appendix 4: Fundus Illumination and Monitoring Instrument (FIMI); Relay Lens Pair;Cover; Half Title; Title Page; Copyright Page; About the Series; Preface; Contributors; Table of Contents; Introduction to Chapter 1; 1. Optics In Vision; I. Introduction; II. The Schematic Eye; III. The Lens; IV. The Pupil; V. Imaging; VI. Linear and Nonlinear Systems; References; Introduction to Chapter 2; 2. The Purkinje Image Eyetracker, Image Stabilization, and Related Forms of Stimulus Manipulation; I. Introduction; II. Dual Purkinje Image Principle; A. Formation of the Purkinje Images; B. Movement of the Purkinje Images; III. Two-Dimensional Eyetracker A. First Usable Instrument (Generation II)B. First Production Instrument (Generation III); C. Major Improvements in Ease of Use (Generation IV); D. Final SRI Design (Generation V); E. Improvements by Fourward Technologies (Generation V .5); IV. Two- and Three-Dimensional Stimulus Deflector; A. Evolution of the Three-Dimensional Stimulus Deflector; B. Performance; V. Image Stabilization; A. Adjusting the Gains; B. Selective Stabilization; VI. Scotoma Simulator; A. Scotoma Systems; B. Final Design; Appendix 1: Optometer; Optometer Principles; Optometer Range Appendix 2: Three-Dimensional EyetrackerOptometer Input Path; Optometer Output Path; Optical Isolation Between the Two Instruments; Electronic Isolation of the Instruments; Appendix 3: ERI Laser Photocoagulator; Input Illumination; Binocular Viewing System; Input Laser Source; Appendix 4: Fundus Illumination and Monitoring Instrument (FIMI); Relay Lens Pair; Single-Axis Mirrors in Series; Merging the Eyetracker, Stabilizer, and Coagulator; Stabilized Input and Output; Appendix 5: Stabilized Laser Doppler Blood Flow Measurement; Appendix 6: Patents; References; Introduction to Chapter 3 3. Eye Movements and Contrast SensitivityI. Eye Movements as Artifacts; II. The Disappearance of Sine-Wave Gratings; III. Synthetic Eye Movement Effects; IV. Spatiotemporal Contrast Sensitivity; V. Modeling Contrast Sensitivity Surfaces; VI. Chromatic Contrast Sensitivity; VII. Disappearance of Chromatic Gratings; References; Introduction to Chapter 4; 4. Chromatic-Achromatic Multiplexing in Human Color Vision; I. Introduction; II. Distinction Between Chromatic and Achromatic Phenomena; III. Channel Independence in Zone Theory IV. Color Summation and Color Opponency: Simple Sensor FundamentalsA. Spatial Frequency; B. Orientation; V. Model of Spatiotemporal Chromatic-Achromatic Multiplexing; VI. Simulation of Chromatic and Achromatic Specificity of Cortical Cells; A. Three Stages of the Simulation; B. Results; VII. Multiplexing and Current Spatial Models; VIII. Relationships with Psychophysics; A. Chromatic-Temporal Interactions; B. Chromatic and Achromatic Spatiotemporal Threshold Surfaces; C. Luminous Efficiency and Unique Yellow Location; D. Multiplexing Applied to Chromatic Boundaries: Stereopsis … (more)
- Publisher Details:
- Boca Raton, FL : CRC Press
- Publication Date:
- 1994
- Extent:
- 1 online resource
- Subjects:
- 621.36/7/019
Optoelectronics
Optoelectronics
Electronic books - Languages:
- English
- ISBNs:
- 9781466593534
1466593539 - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.282765
- Ingest File:
- 01_189.xml