DR. STEPHEN TAYLOR, PHD
Social Work at Washtenaw Ave, Ann Arbor, MI
License number
Michigan 6301006193
Category
Social Work
Type
Clinical
Address
Address
2300 Washtenaw Ave SUITE 203, Ann Arbor, MI 48104
Phone
(734) 995-5181
(734) 995-9011 (Fax)
(734) 995-9011 (Fax)
Organization information
See more information about STEPHEN TAYLOR at bizstanding.comStephen Taylor
300 E Huron St, Ann Arbor, MI 48104
Industry:
Health Practitioner's Office
Principal:
Stephen Taylor (Principal)
Professional information
Dr. Stephen Taylor, Ann Arbor MI - PHD
Specialties:
Clinical Psychology
Address:
2300 Washtenaw Ave STE 203, Ann Arbor 48104
(734) 995-5181 (Phone), (734) 995-9011 (Fax)
(734) 995-5181 (Phone), (734) 995-9011 (Fax)
Languages:
English
Edge Ringing Artifact Suppression Methods And Apparatuses
US Patent:
7876973, Jan 25, 2011
Filed:
Jan 11, 2007
Appl. No.:
11/652370
Inventors:
Ronald Ray Fairbanks - Haymarket VA, US
Herbert Carl Stankwitz - Clifton VA, US
Stephen Paul Taylor - Ann Arbor MI, US
Herbert Carl Stankwitz - Clifton VA, US
Stephen Paul Taylor - Ann Arbor MI, US
Assignee:
Integrity Applications Incorporated - Carlsbad CA
International Classification:
G06K 9/40, H04N 1/38
US Classification:
382263, 358463
Abstract:
In some embodiments, the present invention relates to methods or suppressing edge ringing in images. For example, in some embodiments a method of processing an image to suppress ringing and broadened edges induced by image correction processing, includes high-pass filtering a first image to obtain a second image, processing said second image including applying non-linear apodization to said second image to obtain a third image, low-pass filtering said first image to obtain a fourth image, and combining the third image and the fourth image to obtain an output image, wherein the output image is characterized by having reduced edge-response sidelobes as compared to the first images. In some embodiments, the present invention relates to devices comprising means and/or modules to suppress edge ringing in images.
Edge Ringing Artifact Suppression Methods And Apparatuses
US Patent:
7978926, Jul 12, 2011
Filed:
Jan 24, 2011
Appl. No.:
13/012748
Inventors:
Ronald Ray Fairbanks - Haymarket VA, US
Herbert Carl Stankwitz - Clifton VA, US
Stephen Paul Taylor - Ann Arbor MI, US
Herbert Carl Stankwitz - Clifton VA, US
Stephen Paul Taylor - Ann Arbor MI, US
Assignee:
Integrity Applications Incorporated - Carlsbad CA
International Classification:
G06K 9/40, H04N 1/38
US Classification:
382266, 358463, 382260, 382275
Abstract:
In some embodiments, the present invention relates to methods or suppressing edge ringing in images. For example, in some embodiments a method of processing an image to suppress ringing and broadened edges induced by image correction processing, includes high-pass filtering a first image to obtain a second image, processing said second image including applying non-linear apodization to said second image to obtain a third image, low-pass filtering said first image to obtain a fourth image, and combining the third image and the fourth image to obtain an output image, wherein the output image is characterized by having reduced edge-response sidelobes as compared to the first images. In some embodiments, the present invention relates to devices comprising means and/or modules to suppress edge ringing in images.
Synthetic Multi-Aperture Radar Technology
US Patent:
7348917, Mar 25, 2008
Filed:
Jan 26, 2006
Appl. No.:
11/339532
Inventors:
Herbert C. Stankwitz - Clifton VA, US
Stephen P. Taylor - Ann Arbor MI, US
Stephen P. Taylor - Ann Arbor MI, US
Assignee:
Integrity Applications Incorporated - Chantilly VA
International Classification:
G01S 13/90
US Classification:
342 25R, 342 25 F
Abstract:
Systems and methods of improving synthetic aperture radar (SAR) system are disclosed. In particular, an example system includes a radar signal radiator configured to transmit radar signal pulses that have a partial bandwidth at a regular interval. The partial bandwidth is a portion of a full bandwidth that said radar signal radiator is designed to generate. The example system also includes a receiver configured to receive radar signals returned in response to said transmitted radar signal pulses, and a processor configured to extrapolate said received signals to said full bandwidth, to thereby create high resolution SAR images.