DAVID J HOWARD, M.D., PH.D.
Osteopathic Medicine in Reno, NV
License number
Nevada 14119
Category
Osteopathic Medicine
Type
Endocrinology, Diabetes & Metabolism
License number
Nevada 14119
Category
Osteopathic Medicine
Type
Internal Medicine
Address
Address
2
1664 N Virgiia St, Reno, NV 89557
1750 Trabert Way, Sparks, NV 89431
1750 Trabert Way, Sparks, NV 89431
Phone
(775) 784-4474
(775) 784-4468 (Fax)
(805) 689-9462
(775) 784-4468 (Fax)
(805) 689-9462
Personal information
See more information about DAVID J HOWARD at radaris.comName
Address
Phone
4530 Stonegate Ln, Reno, NV 89523
4453 Selleck Ln, Las Vegas, NV 89120
Professional information
David Joseph Howard, Reno NV
Specialties:
Internal Medicine, Endocrinology, Diabetes & Metabolism, Endocrinology and Metabolism
Work:
Medschool Associates North
1500 E 2Nd St, Reno, NV 89502
1500 E 2Nd St, Reno, NV 89502
Education:
University of Nevada (2004)
222 At 222 Marketing
Position:
222 at 222 Marketing (Self-employed)
Location:
Reno, Nevada Area
Industry:
Marketing and Advertising
Work:
222 Marketing
-
222
Dr. David J Howard, Reno NV - MD (Doctor of Medicine)
Specialties:
Endocrinology, Diabetes & Metabolism
Address:
University Nev Schl Med Int Med
1500 E 2Nd St SUITE 302, Reno 89502
(775) 784-7500 (Phone)
1500 E 2Nd St SUITE 302, Reno 89502
(775) 784-7500 (Phone)
Languages:
English
Education:
Medical School
University of Nevada At Reno
Graduated: 2004
University of Nevada At Reno
Graduated: 2004
David Howard
Location:
Reno, Nevada Area
Industry:
Defense & Space
Skills:
RTOS, C++, Device Drivers, TCP/IP, Kernel, Linux, Network Programming, Linux Kernel, Embedded Systems, C, VxWorks, Embedded Software, Java, Programming, node.js, javascript, Python, Malcador the Sigillite, System Architecture, Object Oriented Design, Systems Engineering
David J Howard, Reno NV
Specialties:
Internist
Address:
1500 E 2Nd St, Reno, NV 89502
System And Method For 3D Radar Image Rendering
US Patent:
7688248, Mar 30, 2010
Filed:
Nov 24, 2008
Appl. No.:
12/277111
Inventors:
Jack Cross - Sparks NV, US
Theodore Bosworth - Sparks NV, US
Craig Chapman - Sparks NV, US
David Howard - Sparks NV, US
Theodore Bosworth - Sparks NV, US
Craig Chapman - Sparks NV, US
David Howard - Sparks NV, US
Assignee:
Sierra Nevada Corporation - Sparks NV
International Classification:
G01S 7/20
US Classification:
342 25A, 342179, 342180, 342181, 342185, 342191, 345419
Abstract:
A 3D rendered image of a radar-scanned terrain surface is provided from a radar return signal from the surface, wherein the return signal includes data indicative of azimuth, elevation, and range of a radar-illuminated area of the surface. The data are processed for transformation into X, Y, and Z coordinates. The X and Y coordinates corresponding to each illuminated area are triangulated so as to create a mesh of triangles representing the terrain surface, each of the triangles in the mesh being defined by a vertex triplet. 3D imaging information (grey scale shading and/or coloring information) is added to each triangle in the mesh, based on the amplitude of the radar return signal from the coordinates represented by each vertex in the triplet and the value of the Z coordinate at each vertex, so as to form the 3D rendered image.
System And Method For 3D Radar Image Rendering
US Patent:
7456779, Nov 25, 2008
Filed:
Aug 31, 2006
Appl. No.:
11/469400
Inventors:
Jack Cross - Sparks NV, US
Theodore Bosworth - Sparks NV, US
Craig Chapman - Sparks NV, US
David Howard - Sparks NV, US
Theodore Bosworth - Sparks NV, US
Craig Chapman - Sparks NV, US
David Howard - Sparks NV, US
Assignee:
Sierra Nevada Corporation - Sparks NV
International Classification:
G01S 7/20
US Classification:
342 25A, 342179, 342180, 342181, 342185, 342191, 345419
Abstract:
A 3D rendered image of a radar-scanned terrain surface is provided from a radar return signal from the surface, wherein the return signal includes data indicative of azimuth, elevation, and range of a radar-illuminated area of the surface. The data are processed for transformation into X, Y, and Z coordinates. The X and Y coordinates corresponding to each illuminated area are triangulated so as to create a mesh of triangles representing the terrain surface, each of the triangles in the mesh being defined by a vertex triplet. 3D imaging information (grey scale shading and/or coloring information) is added to each triangle in the mesh, based on the amplitude of the radar return signal from the coordinates represented by each vertex in the triplet and the value of the Z coordinate at each vertex, so as to form the 3D rendered image.