Murthy: Difference between revisions
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== Introduction == | == Introduction == | ||
The study of human eye movements and vision is an active research field. | The study of human eye movements and vision is an active research field. Over the past 35 years, researchers have focused on a few particular topics of interest, namely smooth pursuit, saccades, and the interactions of these movements with vision. The fundamental question of “how does the motion of the image on the retina affect vision?” has been a continuous area of focus.[1] | ||
This knowledge of how eye movements impact vision has a wide variety of beneficial implications, from augmenting understanding of human behavior to assisting in the development of therapeutics. Eye movement studies have been used since the mid nineteenth century to understand human disease [2], and applications of eye movement research have the potential to alleviate vision disorders (such as the Stanford Artificial Retina Project, which can utilize such research to inform the prosthesis design).[3] | |||
The study of eye movements and their impact on visual acuity can be challenging to conduct in vivo. Noise can be introduced from uncontrollable oculomotor muscle contractions, and it is challenging with human participants to perform repeatable eye movements and obtain an objective measure of their effect on vision. The ISETBio toolbox provides comprehensive functionality to enable the study of human visual acuity in a controlled simulation environment.[4] | |||
The purpose of this project is to modify the eye movement patterns and cone properties of an ISETBio visual model, and observe trends related to the effects of these parameters on the visual acuity of the model. | |||
Revision as of 05:31, 13 December 2019
Introduction
The study of human eye movements and vision is an active research field. Over the past 35 years, researchers have focused on a few particular topics of interest, namely smooth pursuit, saccades, and the interactions of these movements with vision. The fundamental question of “how does the motion of the image on the retina affect vision?” has been a continuous area of focus.[1]
This knowledge of how eye movements impact vision has a wide variety of beneficial implications, from augmenting understanding of human behavior to assisting in the development of therapeutics. Eye movement studies have been used since the mid nineteenth century to understand human disease [2], and applications of eye movement research have the potential to alleviate vision disorders (such as the Stanford Artificial Retina Project, which can utilize such research to inform the prosthesis design).[3]
The study of eye movements and their impact on visual acuity can be challenging to conduct in vivo. Noise can be introduced from uncontrollable oculomotor muscle contractions, and it is challenging with human participants to perform repeatable eye movements and obtain an objective measure of their effect on vision. The ISETBio toolbox provides comprehensive functionality to enable the study of human visual acuity in a controlled simulation environment.[4]
The purpose of this project is to modify the eye movement patterns and cone properties of an ISETBio visual model, and observe trends related to the effects of these parameters on the visual acuity of the model.