Title :
Real-time algorithm for retinal tracking
Author :
Markow, Michael S. ; Rylander, H. Grady, III ; Welch, A.J.
Author_Institution :
Dept. of Electr. Eng., US Air Force Acad., Colorado Springs, CO, USA
Abstract :
Conventional retinal laser photocoagulation is presently performed by an ophthalmologist manually aiming a low-power laser beam at a desired site and firing a high-power laser for a preselected interval of time. To automate this process a retinal tracker must acquire a target, track small saccades, and identify loss of track during a large saccade. The authors successfully implemented a real-time algorithm that used a simple computer, video digitizing card, low light video camera, and fundus camera to perform rudimentary tracking on a photograph of a retina undergoing smooth circular motion. The algorithm tracked speeds up to 5 Hz, or 27 degrees /s, which equated to the retina moving in a 525 mu m diameter circle.
Keywords :
biomedical measurement; eye; laser applications in medicine; 5 Hz; 525 mum; fundus camera; high-power laser; low light video camera; low-power laser; real-time algorithm; retinal laser photocoagulation; retinal photograph; retinal tracking; small saccades; smooth circular motion; track loss identification; video digitizing card; Absorption; Biomedical engineering; Blood vessels; Cameras; Fiber lasers; Free electron lasers; Laser beams; Pigmentation; Power lasers; Retina; Target tracking; Algorithms; Equipment Design; False Positive Reactions; Fundus Oculi; Humans; Laser Coagulation; Mathematics; Retina; Retinal Vessels; Saccades; Signal Processing, Computer-Assisted;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
