No edit summary |
No edit summary |
||
| Line 1: | Line 1: | ||
AN EYE TRACKING EXPERIMENT | |||
This project is a web cam eye tracking experimentation with Max MSP. My experiment on eye tracking is inspired by historic findings of Alfred Yarbus on eye movements in the 1950s and 1960s. Yarbu’s device was a video-based system. He recorded the close-up videos of the eyes and then he edited the video frame by frame to calculate the gaze tracking data. I experimented both video footage and web cam to track the eyeball. After targeting eyeballs using cv.jit library extensions, adaptive threshold method was used to turn eye image into white dot on black background. The most difficult part was to capture eye balls from web cam because of the low resolution. Then, I used jit.lcd to draw line based on the data coming from tracking. | |||
PROJECT DESCRIPTION | |||
How the brain process information to create a representation of the external world? How do we recognize a face, reach an object, or appreciate a piece of art? Those questions go back at least to Aristotle who noted that our minds create images, “internal representations of the external world”. But The process of seeing is far from a reproduction of the images impinging the retina. It is rather the result of our unique interpretation of ambiguous sensory information. Conceptually, how we sense the world and what we consider to be ‘truth’ is something unique and personal. Scientists, philosophers and artists have been dealing with physiological data such as brain waves, skin conductance changes, pupil movement or heart rate variabilities for quite some time. | |||
EYE'S MOVEMENT AND ITS ANATOMY | |||
There are roughly 130 million photoreceptors in the human eye, only in order of a million fibers in the optic nerve carry the signal to the brain. Eye movements are categorized in many different types of motion, two of which are most commonly studied: fixations and saccades. If the eye rests on a specific location for a certain amount of time, this non-movement is classified as a fixation. Fixations are those times when our eyes essentially stop scanning about the scene, holding the central foveal vision in place so that the visual system can take detailed information about what is being looked at. The movement from one fixation to the next is called a saccade. This is the fastest eye movement, in fact, the fastest movement the body can produce, with a duration between 30 to 50 milliseconds. Due to the fast movement during a saccade, the image on the retina is of poor quality and information intake thus happens mostly during the fixation period. | |||
INSPIRATION - Alfred Yarbus’s Eye Tracking Experiment | |||
EYE TRACKING TODAY | |||
RESEARCH NOTES | |||
TECHNICAL ASPECTS | |||
REFERENCES | |||
ASSIGNMENTS | |||
[[/Week 1/]] | [[/Week 1/]] | ||
Revision as of 18:48, 7 November 2020
AN EYE TRACKING EXPERIMENT
This project is a web cam eye tracking experimentation with Max MSP. My experiment on eye tracking is inspired by historic findings of Alfred Yarbus on eye movements in the 1950s and 1960s. Yarbu’s device was a video-based system. He recorded the close-up videos of the eyes and then he edited the video frame by frame to calculate the gaze tracking data. I experimented both video footage and web cam to track the eyeball. After targeting eyeballs using cv.jit library extensions, adaptive threshold method was used to turn eye image into white dot on black background. The most difficult part was to capture eye balls from web cam because of the low resolution. Then, I used jit.lcd to draw line based on the data coming from tracking.
PROJECT DESCRIPTION
How the brain process information to create a representation of the external world? How do we recognize a face, reach an object, or appreciate a piece of art? Those questions go back at least to Aristotle who noted that our minds create images, “internal representations of the external world”. But The process of seeing is far from a reproduction of the images impinging the retina. It is rather the result of our unique interpretation of ambiguous sensory information. Conceptually, how we sense the world and what we consider to be ‘truth’ is something unique and personal. Scientists, philosophers and artists have been dealing with physiological data such as brain waves, skin conductance changes, pupil movement or heart rate variabilities for quite some time.
EYE'S MOVEMENT AND ITS ANATOMY
There are roughly 130 million photoreceptors in the human eye, only in order of a million fibers in the optic nerve carry the signal to the brain. Eye movements are categorized in many different types of motion, two of which are most commonly studied: fixations and saccades. If the eye rests on a specific location for a certain amount of time, this non-movement is classified as a fixation. Fixations are those times when our eyes essentially stop scanning about the scene, holding the central foveal vision in place so that the visual system can take detailed information about what is being looked at. The movement from one fixation to the next is called a saccade. This is the fastest eye movement, in fact, the fastest movement the body can produce, with a duration between 30 to 50 milliseconds. Due to the fast movement during a saccade, the image on the retina is of poor quality and information intake thus happens mostly during the fixation period.
INSPIRATION - Alfred Yarbus’s Eye Tracking Experiment
EYE TRACKING TODAY
RESEARCH NOTES
TECHNICAL ASPECTS
REFERENCES
ASSIGNMENTS