Company Filing History:
Years Active: 2025
Title: Innovations by David Guyton in Retinal Scanning Systems
Introduction
David Guyton is an accomplished inventor based in Baltimore, MD (US). He has made significant contributions to the field of optical apparatuses, particularly in the area of retinal scanning systems. His innovative work focuses on compensating for polarization changes that can affect the accuracy of these systems.
Latest Patents
David Guyton holds a patent for a technology titled "Compensating for polarization changes introduced by components with retardation in polarization-sensitive retinal scanning systems." This patent describes an optical apparatus that utilizes polarized light to examine the birefringence properties of the retina. The goal is to detect the fixation condition of the eye by analyzing characteristic birefringence patterns of retinal structures. The invention addresses the issue of unwanted retardance introduced by optical components, which can alter the polarization state of light. To counteract this, compensating retarders are employed to ensure that the polarization states of the light entering the eye and the light reaching the detection system remain unaffected by these unwanted changes. The use of Mueller matrices allows for precise calculations of the parameters needed for these compensating retarders. Additionally, a variable retarder system may be implemented to adjust for corneal birefringence through feedback control.
Career Highlights
David Guyton is affiliated with Johns Hopkins University, where he continues to advance research in optical technologies. His work has garnered attention for its potential applications in improving retinal scanning techniques, which are crucial for diagnosing and monitoring various eye conditions.
Collaborations
[This section has been skipped due to space constraints.]
Conclusion
David Guyton's innovative contributions to retinal scanning systems exemplify the intersection of optical technology and medical diagnostics. His patent reflects a commitment to enhancing the accuracy and effectiveness of eye examinations.