Raymond Cheng Hui Xue

Address:

23289 SE 52 St, Issaquah, WA 98029

Phone:

(425)5576489

VIN:

5TDDY5G18CS071972

Make:

TOYOTA

Model:

SEQUOIA

Year:

2012

US Patent:

8558907, Oct 15, 2013

Filed:

Jul 12, 2011

Appl. No.:

13/181254

Inventors:

Roy Chun Beng Goh - Redmond WA, US
Raymond Xue - Issaquah WA, US
Thomas C. Oliver - Windsor CO, US
Stephen C. Cooper - Seattle WA, US

Assignee:

Microsoft Corporation - Redmond WA

International Classification:

H04N 5/225

US Classification:

3482181, 3482111, 34833305

Abstract:

New systems and methods are hereby provided that inherently and naturally resolve the challenges of synthesizing coordinated inputs from multiple cameras. For example, a multi-sensor mediator may collect the input data from multiple sensors, and generate a composite signal that encodes the combined data from the different sensors. The multi-sensor mediator may then relay the composite signal to a sensor controller, as if the signal were coming from a single sensor. A computing device that receives the input from the sensor controller may then generate an output based on the composite signal, which may include processing the composite signal to combine the separate signals from the different sensors, such as to provide a stereo image output, for example. The multi-sensor mediator makes such an output possible by ensuring coordinated input and processing of the input from the multiple sensors, for example.

US Patent:

20080309774, Dec 18, 2008

Filed:

Jun 15, 2007

Appl. No.:

11/818737

Inventors:

Roy Chun Beng Goh - Redmond WA, US
Raymond Xue - Issaquah WA, US
Thomas C. Oliver - Windsor CO, US
Stephen C. Cooper - Seattle WA, US

Assignee:

Microsoft Corporation - Redmond WA

International Classification:

H04N 9/74
H04N 5/225

US Classification:

3482181, 348584, 348598, 348E09055

Abstract:

New systems and methods are hereby provided that inherently and naturally resolve the challenges of synthesizing coordinated inputs from multiple cameras. For example, a multi-sensor mediator may collect the input data from multiple sensors, and generate a composite signal that encodes the combined data from the different sensors. The multi-sensor mediator may then relay the composite signal to a sensor controller, as if the signal were coming from a single sensor. A computing device that receives the input from the sensor controller may then generate an output based on the composite signal, which may include processing the composite signal to combine the separate signals from the different sensors, such as to provide a stereo image output, for example. The multi-sensor mediator makes such an output possible by ensuring coordinated input and processing of the input from the multiple sensors, for example.

US Patent:

20140016113, Jan 16, 2014

Filed:

Dec 12, 2012

Appl. No.:

13/712949

Inventors:

Mike M. Paull - Kenmore WA, US
Raymond Xue - Issaquah WA, US
Tetsuji Aoyagi - Yokohama, JP
Hisanori Kasai - Yokohama, JP
Kazufumi Higuchi - Yamagata, JP
Naoki Kanzawa - Sagamihara, JP
Toru Suzuki - Yamato, JP

Assignee:

Microsoft Corporation - Redmond WA

International Classification:

G01C 3/08

US Classification:

356 311

Abstract:

The subject disclosure is directed towards a distance sensor that outputs one or more (e.g., infrared) light patterns from a transmitting element. Signals from any reflective entity (e.g., a surface or object) within the sensor's range are captured by a receiving element. The captured image is digitized into digital data representing each light pattern, and the digital data is processed (e.g., including using triangulation) to determine distance data of the distance sensor relative to the reflective surface.

US Patent:

20190007619, Jan 3, 2019

Filed:

Jun 30, 2017

Appl. No.:

15/639584

Inventors:

- Redmond WA, US
Vishal JAIN - Redmond WA, US
Raymond XUE - Issaquah WA, US

International Classification:

H04N 5/232
H04N 5/247

Abstract:

Methods and devices for dynamically controlling mirroring of a preview image may include receiving physical location information of a selected camera resource on the computer device, wherein the physical location information corresponds to a static orientation of the camera resource. The methods and devices may include determining a dynamic orientation of the selected camera resource based on sensor information for the selected camera resource and determining a camera role of the selected camera resource based on the dynamic orientation and the static orientation of the selected camera, wherein the camera role comprises a front facing camera role or a rear facing camera role. The methods and devices may include displaying a mirrored preview image when the camera role of the selected camera resource is the front facing camera role and displaying a non-mirrored preview image when the camera role of the selected camera resource is the rear facing camera role.

US Patent:

20140132714, May 15, 2014

Filed:

Oct 14, 2013

Appl. No.:

14/053388

Inventors:

- Redmond WA, US
Raymond Xue - Issaquah WA, US
Thomas C. Oliver - Windsor CO, US
Stephen C. Cooper - Seattle WA, US

Assignee:

Microsoft Corporation - Redmond WA

International Classification:

H04N 5/232
H04N 13/02

US Classification:

348 43, 3482181, 348169

Abstract:

New systems and methods are hereby provided that inherently and naturally resolve the challenges of synthesizing coordinated inputs from multiple cameras. For example, a multi-sensor mediator may collect the input data from multiple sensors, and generate a composite signal that encodes the combined data from the different sensors. The multi-sensor mediator may then relay the composite signal to a sensor controller, as if the signal were coming from a single sensor. A computing device that receives the input from the sensor controller may then generate an output based on the composite signal, which may include processing the composite signal to combine the separate signals from the different sensors, such as to provide a stereo image output, for example. The multi-sensor mediator makes such an output possible by ensuring coordinated input and processing of the input from the multiple sensors, for example.