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David M Gedye

from Seattle, WA
Age ~63
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Also known as:
David C Gedye, Dave C Gedye
Phone and address:
5802 E Green Lake Way N, Seattle, WA 98103
(206) 517-4939
Related to:
Grace GedyeGrace Gedye, 28Christine A Olson, 58Christine O Gedye, 59
Connected to:
Cheryl F Gedzelman, 63David Gedzelman, 65Richard Gedzelman, 69Paul J Gedziun, 63Adrienne R Gee, 50Ah S Gee, 63Alissa J Gee, 39Allan L Gee, 52Amos E Gee, 103Amy Gee, 52

David Gedye Phones & Addresses

  • 5802 E Green Lake Way N, Seattle, WA 98103 (206) 517-4939
  • 5802 Green Lake Ave, Seattle, WA 98103 (206) 517-4939
  • 6424 Green Lake Ave, Seattle, WA 98103 (206) 517-4939
  • 6424 Green Lake Way N, Seattle, WA 98103 (206) 517-4939
  • 6512 Green Lake Ave, Seattle, WA 98103 (206) 522-6340
  • 6512 Green Lake Way N, Seattle, WA 98103 (206) 522-6340
  • San Francisco, CA

Resumes

Resumes

David Gedye Photo 1

Principal Program Manager, Azure Spatial Anchors

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Location:
5802 east Grn, Seattle, WA
Industry:
Computer Software
Work:
Microsoft since Mar 2010
Principal Program Manager for Bing Mobile
Microsoft Feb 2006 - Oct 2010
Group Manager of Photosynth
Seadragon May 2005 - Feb 2006
VP of Products
Microsoft 2002 - 2004
Group Program Manager for Education Products
Apex Learning 1998 - 2001
CTO
Education:
University of California, Berkeley 1986 - 1988
MS, Computer Science University of Sydney 1979 - 1983
BS Hons., Computer Science
Skills:
Mobile Devices
Strategy
Software Development
Leadership
Distributed Systems
Analysis
Creative Direction
Web Applications
Agile Methodologies
Software Engineering
Software Design
Agile Project Management
Interests:
Scrambling
Hiking
Photography
Snowshoeing
Languages:
English
David Gedye Photo 2

Group Program Manager, Bing Mobile

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Position:
Principal Program Manager for Bing Mobile at Microsoft
Location:
Greater Seattle Area
Industry:
Computer Software
Work:
Microsoft since Mar 2010
Principal Program Manager for Bing Mobile
Microsoft Feb 2006 - Oct 2010
Group Manager of Photosynth
Seadragon May 2005 - Feb 2006
VP of Products
Microsoft 2002 - 2004
Group Program Manager for Education Products
Apex Learning 1998 - 2001
CTO
Education:
University of California, Berkeley 1986 - 1988
MS, Computer Science University of Sydney 1979 - 1983
BS Hons., Computer Science
Interests:
Photography, hiking, scrambling, snowshoeing
Honor & Awards:
Finalist in Smithsonian Innovation Award 2001 for SETI@home

Publications

Us Patents

User Interface For Navigating Through Images

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US Patent:
7764849, Jul 27, 2010
Filed:
Jul 31, 2006
Appl. No.:
11/461280
Inventors:
Blaise H. Aguera y Arcas - Seattle WA, US
Jonathan R. Dughi - Seattle WA, US
Bryan Ressler - Sammamish WA, US
Ian A. Gilman - Seattle WA, US
Alfred Astort - Seattle WA, US
David M. Gedye - Seattle WA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
G06K 9/54
G06K 9/60
G06K 9/46
G06K 9/66
US Classification:
382305, 382192
Abstract:
A system, method, and computer-readable media are presented for presenting similar images of a selected image in a user interface. One embodiment of the method can include identifying a selected first image and identifying a selected direction from the first image. Additionally, the method can include calculating a best neighbor metric for each of one or more other images to determine a best neighbor image in the selected direction. Furthermore, the method can include presenting the best neighbor image to a user in a user interface.

User Interface For Navigating Through Images

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US Patent:
7983489, Jul 19, 2011
Filed:
Jul 9, 2010
Appl. No.:
12/833862
Inventors:
Blaise H. Aguera y Arcas - Seattle WA, US
Jonathan R. Dughi - Seattle WA, US
Bryan Ressler - Sammamish WA, US
Ian A. Gilman - Seattle WA, US
Alfred Astort - Seattle WA, US
David M. Gedye - Seattle WA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
G06K 9/68
G06K 9/46
G06K 9/50
G06K 9/54
G06K 9/60
H04N 1/00
US Classification:
382220, 382305, 382201, 382218, 382219, 382221, 382222, 358403, 358404
Abstract:
A system, method, and computer-readable media are presented for presenting similar images of a selected image in a user interface. One embodiment of the method can include identifying a selected first image and identifying a selected direction from the first image. Additionally, the method can include calculating a best neighbor metric for each of one or more other images to determine a best neighbor image in the selected direction. Furthermore, the method can include presenting the best neighbor image to a user in a user interface.

Embedding Large Images Within One Another

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US Patent:
7983512, Jul 19, 2011
Filed:
Jun 24, 2008
Appl. No.:
12/144661
Inventors:
Lutz Gerhard - Redmond WA, US
Radoslav P. Nickolov - Redmond WA, US
David M. Gedye - Redmond WA, US
Blaise H. Aguera - Redmond WA, US
Abraham Dunn - Kirkland WA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
G06K 9/32
US Classification:
382299, 382305, 707736
Abstract:
An image processing system embeds at least one image inside a second image. The images are displayed together as a composite image. The first and second images are each tiled and have image pyramids comprising representations at different resolutions formed for them. The image processing system allows a user to zoom into and out of the embedded image, to a desired depth, using its image pyramid.

Variable Resolution Images

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US Patent:
8064733, Nov 22, 2011
Filed:
Jun 24, 2008
Appl. No.:
12/144638
Inventors:
Lutz Gerhard - Seattle WA, US
Paul D. Jones - Renton WA, US
David M. Gedye - Seattle WA, US
Abraham Dunn - Kirkland WA, US
Radoslav P. Nickolov - Seattle WA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
G06K 9/32
US Classification:
382299, 382305, 707736
Abstract:
In accordance with one or more aspects, a variable resolution image is displayed at an initial resolution. The variable resolution image has multiple portions, at least two of which have different resolutions. A request to display one of the multiple portions of the variable resolution image at a higher resolution is received, and a check is made as to whether a higher resolution version of the one portion is available. The higher resolution version of the one portion is displayed if available, otherwise the one portion at the initial resolution is displayed.

Fractal Display Advertising On Computer-Driven Screens

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US Patent:
8082512, Dec 20, 2011
Filed:
Aug 3, 2007
Appl. No.:
11/833780
Inventors:
David M. Gedye - Seattle WA, US
Blaise H. Aguera Y Arcas - Seattle WA, US
Alfred Astort - Seattle WA, US
Karim T. Farouki - Seattle WA, US
Gary W. Flake - Bellevue WA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
G06F 3/048
US Classification:
715767, 715777
Abstract:
Techniques are disclosed for providing additional data within a document. Such techniques include providing a first document with a sub-region on a user interface, wherein the sub-region is associated with additional data. Techniques further include identifying an action to zoom-in on the sub-region and loading a zoomed-in version of the sub-region when the action is identified. Moreover, the techniques also include displaying the zoomed-in version of the sub-region, including the additional data, on the user interface, wherein the zoomed-in version of the sub-region is a separate document than the first document.

Variable Resolution Images

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US Patent:
8213747, Jul 3, 2012
Filed:
Oct 25, 2011
Appl. No.:
13/281220
Inventors:
Lutz Gerhard - Seattle WA, US
Paul D. Jones - Renton WA, US
David M. Gedye - Seattle WA, US
Abraham Dunn - Kirkland WA, US
Radoslav P. Nickolov - Seattle WA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
G06K 9/32
US Classification:
382299, 382305, 707736
Abstract:
In accordance with one or more aspects, a variable resolution image is displayed at an initial resolution. The variable resolution image has multiple portions, at least two of which have different resolutions. A request to display one of the multiple portions of the variable resolution image at a higher resolution is received, and a check is made as to whether a higher resolution version of the one portion is available. The higher resolution version of the one portion is displayed if available, otherwise the one portion at the initial resolution is displayed.

Transitioning Between Top-Down Maps And Local Navigation Of Reconstructed 3-D Scenes

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US Patent:
8624902, Jan 7, 2014
Filed:
Feb 4, 2010
Appl. No.:
12/699896
Inventors:
Billy Chen - Bellevue WA, US
Eyal Ofek - Redmond WA, US
David Maxwell Gedye - Seattle WA, US
Jonathan Robert Dughi - Bainbridge Island WA, US
Mark Ruane Dawson - Sammamish WA, US
Joshua Podolak - Seattle WA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
G06T 13/00
US Classification:
345473, 345419, 345427
Abstract:
Technologies are described herein for transitioning between a top-down map of a reconstructed structure within a 3-D scene and an associated local-navigation display. An application transitions between the top-down map and the local-navigation display by animating a view in a display window over a period of time while interpolating camera parameters from values representing a starting camera view to values representing an ending camera view. In one embodiment, the starting camera view is the top-down map view and the ending camera view is the camera view associated with a target photograph. In another embodiment, the starting camera view is the camera view associated with a currently-viewed photograph in the local-navigation display and the ending camera view is the top-down map.

Generating And Displaying Top-Down Maps Of Reconstructed 3-D Scenes

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US Patent:
20110187704, Aug 4, 2011
Filed:
Feb 4, 2010
Appl. No.:
12/699902
Inventors:
Billy Chen - Bellevue WA, US
Eyal Ofek - Redmond WA, US
Gonzalo Alberto Ramos - Bellevue WA, US
Jonathan Robert Dughi - Bainbridge Island WA, US
David Maxwell Gedye - Seattle WA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
G06T 15/00
US Classification:
345419
Abstract:
Technologies are described herein for generating and displaying top-down maps of reconstructed structures to improve navigation of photographs within a 3-D scene. A 3-D point cloud is computed from a collection of photographs of the scene. A top-down map is generated from the 3-D point cloud by projecting the points in the point cloud into a two-dimensional plane. The points in the projection may be filtered and/or enhanced to enhance the display of the top-down map. Finally, the top-down map is displayed to the user in conjunction with or as an alternative to the photographs from the reconstructed structure or scene.
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David M Gedye from Seattle, WA, age ~63 Get Report