Abstract

This paper describes a binary search based fast eye tracking methodology that will utilize an imaginary composite line based geometrical structure where the next mid-point will be determined by the nature of the pixel color patterns on the 2 sides of the current mid-point. The entire binary search based fast eye tracking methodology will be required to utilize an imaginary composite line based geometrical structure that will logically function as the geometrical structure that will be utilized for detecting the relatively observed eye movements, an eye tracking system, a logical sub area from the total visible field of vision of the eye that will be subjected to the eye tracking procedures and a computer system. The binary search based fast eye tracking methodology, in order to determine the exact eye gazing point, will utilize the measured changes in the eye orientations, relative to the imaginary composite line based geometrical structure. This procedure will involve determining the occlusion patterns of the eye on the imaginary composite line based geometrical structure. And in order to quickly measure the changes in the eye orientations, relative to the imaginary composite line based geometrical structure, the binary search based fast eye tracking methodology will repeatedly locate the next mid-point by determining the nature of the pixel color patterns on the 2 sides of the current mid-point where the pixel color patterns of interest will be determined by the color patterns of the eye of the user of the binary search based fast eye tracking methodology.

Creative Commons License

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.

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