The patent badge is an abbreviated version of the USPTO patent document. The patent badge does contain a link to the full patent document.
The patent badge is an abbreviated version of the USPTO patent document. The patent badge covers the following: Patent number, Date patent was issued, Date patent was filed, Title of the patent, Applicant, Inventor, Assignee, Attorney firm, Primary examiner, Assistant examiner, CPCs, and Abstract. The patent badge does contain a link to the full patent document (in Adobe Acrobat format, aka pdf). To download or print any patent click here.
Patent No.:
Date of Patent:
Dec. 02, 2014
Filed:
Mar. 12, 2012
Nathanael Berglund, Atlanta, GA (US);
Harris Bergman, Marietta, GA (US);
Scott Cahall, Fairport, NY (US);
Jerry Foster, Lawrenceville, GA (US);
Eohan George, Atlanta, GA (US);
Samuel W. Harris, Norcross, GA (US);
Giorgos Hatzilias, Buford, GA (US);
Karol Hatzilias, Atlanta, GA (US);
Ruizhi Hong, Roswell, GA (US);
Wess E. Sharpe, Vinings, GA (US);
David G. Stites, Saint Petersburg, FL (US);
Harry S. Strothers, Iv, Chamblee, GA (US);
Nathanael Berglund, Atlanta, GA (US);
Harris Bergman, Marietta, GA (US);
Scott Cahall, Fairport, NY (US);
Jerry Foster, Lawrenceville, GA (US);
Eohan George, Atlanta, GA (US);
Samuel W. Harris, Norcross, GA (US);
Giorgos Hatzilias, Buford, GA (US);
Karol Hatzilias, Atlanta, GA (US);
Ruizhi Hong, Roswell, GA (US);
Wess E. Sharpe, Vinings, GA (US);
David G. Stites, Saint Petersburg, FL (US);
Harry S. Strothers, IV, Chamblee, GA (US);
United Sciences, LLC, Atlanta, GA (US);
Abstract
An otoscanner including an otoscanner body, the body comprising a hand grip, the body having mounted upon it an ear probe, a tracking illumination emitter, a plurality of tracking illumination sensors, and a display screen, the otoscanner body having mounted within it an image sensor; the ear probe comprising a wide-angle lens optically coupled to the image sensor, laser light source, a laser optical element, and a source of non-laser video illumination; the plurality of tracking illumination sensors disposed upon the otoscanner body so as to sense reflections of tracking illumination emitted from the tracking illumination emitter and reflected from tracking targets installed at positions that are fixed relative to the scanned ear; the image sensor coupled for data communications to a data processor, with the data processor configured so that it functions by constructing a 3D image of the interior of the scanned ear.