1
Edward Raymond Dowski Jr: Wavefront coding optics. CDM Optics, Lathrop & Gage L C, January 11, 2005: US06842297 (113 worldwide citation)

Improved Wavefront Coding Optics, which apply a phase profile to the wavefront of light from an object to be imaged, retain their insensitivity to focus related aberration, while increasing the heights of the resulting MTFs and reducing the noise in the final images. Such improved Wavefront Coding O ...


2
Kwindla Hultman Kramer, Tom White, Mattie Ruth Kramer: Gestural control of autonomous and semi-autonomous systems. Oblong, Jeffrey Schox, March 6, 2018: US09910497

Systems and methods are described for controlling a remote system. The controlling involves detecting a gesture of a body from gesture data received via a detector. The gesture comprises an instantaneous state of the body. The gesture data is absolute three-space location data of an instantaneous st ...


3
Iftach Klapp, David Mendlovic: Imaging system and method for imaging objects with reduced image blur. RAMOT AT TEL AVIV UNIVERSITY, Oliff, April 24, 2018: US09953402

An imaging device is presented for use in an imaging system capable of improving the image quality. The imaging device has one or more optical systems defining an effective aperture of the imaging device. The imaging device comprises a lens system having an algebraic representation matrix of a diago ...


4
Pierre St Hilaire, John S Underkoffler: Gesture based control using three-dimensional information extracted over an extended depth of field. Oblong, Jeffrey Schox, October 3, 2017: US09778751

Systems and methods are described for gesture-based control using three-dimensional information extracted over an extended depth of field. The system comprises a plurality of optical detectors coupled to at least one processor. The optical detectors image a body. At least two optical detectors of th ...


5
Dowski Edward Raymond Jr: Mtf-improved optical system employing phase mask with unchanged phase in central region. Cdm Optics, zhangzhi cheng, September 19, 2007: CN200710008328

Improved Wavefront Coding Optics (106, 601, 602), which apply a phase profile to the wavefront of light from an object to be imaged, retain their insensitivity to focus related aberration, while increasing the heights of the resulting MTFs and reducing the noise in the final images. Such improved Wa ...


6
Dowski Edward Raymond Jr: Mtf-improved optical system employing phase mask with unchanged phase in central region. Univ Colorado, June 9, 2004: EP1425624-A1

Improved Wavefront Coding Optics (106, 601, 602), which apply a phase profile to the wavefront of light from an object to be imaged, retain their insensitivity to focus related aberration, while increasing the heights of the resulting MTFs and reducing the noise in the final images. Such improved Wa ...


7
Edward Raymond Dowski: Wavefront coding optics. Jennifer L Bales, April 3, 2003: US20030063384-A1

Improved Wavefront Coding Optics, which apply a phase profile to the wavefront of light from an object to be imaged, retain their insensitivity to focus related aberration, while increasing the heights of the resulting MTFs and reducing the noise in the final images. Such improved Wavefront Coding O ...


8
Dowski Edward Raymond Jr: Mtf-improved optical system employing phase mask with unchanged phase in central region. The Regents Of The University Of Colorado, KNOPS Peter C, March 13, 2003: WO/2003/021333

Improved Wavefront Coding Optics (106, 601, 602), which apply a phase profile to the wavefront of light from an object to be imaged, retain their insensitivity to focus related aberration, while increasing the heights of the resulting MTFs and reducing the noise in the final images. Such improved Wa ...


9
Dowski Edward Raymond Jr: Mtf-improved optical system employing phase mask with unchanged phase in central region. Univ Colorado, yang kai zhang zhicheng, February 2, 2005: CN02821377

Improved Wavefront Coding Optics (106, 601, 602), which apply a phase profile to the wavefront of light from an object to be imaged, retain their insensitivity to focus related aberration, while increasing the heights of the resulting MTFs and reducing the noise in the final images. Such improved Wa ...


10
CONTROL SYSTEM FOR NAVIGATING A PRINCIPAL DIMENSION OF A DATA SPACE. March 9, 2017: US20170068324-A1

Systems and methods are described for navigating through a data space. The navigating comprises detecting a gesture of a body from gesture data received via a detector. The gesture data is absolute three-space location data of an instantaneous state of the body at a point in time and physical space. ...