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Jun H Gao

from Menlo Park, CA
Age ~53
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Also known as:
Jon Gao, Jun He
Phone and address:
690 Sand Hill Cir, Menlo Park, CA 94025
Related to:
Lulin GaoMei G Chengmei, 66Gao Deming, 89Jia S Chern, 71Fang Yang, 55
Connected to:
Adam Gao, 28Alvin D Gao, 46Anthony Gao, 73Antony Gao, 29Baoqin Gao, 60Bei Gao, 51Ben Gao, 54Cen Gao, 42Cheryl L Gao, 40Chunlin Gao, 64

Jun Gao Phones & Addresses

  • 690 Sand Hill Cir, Menlo Park, CA 94025
  • San Jose, CA
  • Santa Clara, CA
  • Jersey City, NJ
  • Milpitas, CA
  • Palo Alto, CA
  • Mission Viejo, CA

Professional Records

License Records

Jun Gao

License #:
227014382 - Expired
Issued Date:
May 3, 2012
Expiration Date:
Dec 31, 2016
Type:
Licensed Massage Therapist

Jun P Gao

License #:
3036804 - Active
Issued Date:
Dec 4, 2006
Expiration Date:
May 21, 2018
Type:
Manicurist Type 3

Business Records

Name / Title
Company / Classification
Phones & Addresses
Jun Yun Gao
President
Red House Co Inc
3200 Sacramento St, Berkeley, CA 94702
Jun Gao
President
GOMAX ENTERPRISES, INC
Business Consulting Services · Business Services
11501 Dublin Blvd SUITE #200, Dublin, CA 94568
3494 Camino Tassajara, Danville, CA 94506
Jun Gao
Managing
Maxview Capital LLC
Real Estate Rental · Investor
11501 Dublin Blvd, Pleasanton, CA 94568
Jun Gao
Deal Heroes LLC
Technology-Ecommerce
1159 Sonora Ct, Sunnyvale, CA 94086
Jun Gao
Principal
Market America
Ret Groceries
345 96 St, Brooklyn, NY 11209

Publications

Us Patents

Capacitive Sensor For Sensing The Amount Of Material In A Container

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US Patent:
6472887, Oct 29, 2002
Filed:
Jun 28, 2000
Appl. No.:
09/606417
Inventors:
Barclay J. Tullis - Palo Alto CA
Carl Picciotto - Menlo Park CA
Jun Gao - Mountain View CA
Assignee:
Hewlett-Packard Company - Palo Alto CA
International Classification:
G01R 2726
US Classification:
324663, 324662, 324671, 73304 C
Abstract:
One embodiment of the invention is a capacitive sensor for sensing the amount of material in a container. This embodiment includes an oscillator that generates an oscillating signal. This oscillator includes an integrating amplifier that is formed by (1) an operational amplifier that has a low-impedance output and a virtually-grounded input, and (2) a capacitor that has a capacitance which depends on the amount of material in the container. The capacitor connects between the low impedance output and the virtually-grounded input of the operational amplifier In some embodiments, the operational amplifier includes a first amplifier and a second amplifier that are connected in series, with an output of the second amplifier fed back through the capacitor to the input of the first amplifier.

Method And Apparatus For Distinguishing Transparent Media

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US Patent:
6497179, Dec 24, 2002
Filed:
Jul 19, 2001
Appl. No.:
09/909710
Inventors:
Ross R. Allen - Belmont CA
Carl E Picciotto - Menlo Park CA
Jun Gao - Mountain View CA
Assignee:
Hewlett Packard Company - Palo Alto CA
International Classification:
B41F 154
US Classification:
101484
Abstract:
A printer having a transparency film discrimination system is disclosed. The printer includes a feed mechanism, an illumination source, a detector, and a processor. Light from the illumination source is reflected on or transmitting through the print medium (such as a transparent film) and is detected by the detector. The detected light is analyzed to determine the type of the medium. If the determined type of the print medium is not acceptable for the printer, then control signal is provided to the printer to halt the printing process as to avoid damage to the printer.

Dot Sensing, Color Sensing And Media Sensing By A Printer For Quality Control

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US Patent:
6517180, Feb 11, 2003
Filed:
Mar 27, 2001
Appl. No.:
09/819102
Inventors:
Barclay J Tullis - Palo Alto CA
Ross R. Allen - Belmont CA
Jun Gao - Mountain View CA
Carl E Picciotto - Menlo Park CA
Assignee:
Hewlett-Packard Company - Palo Alto CA
International Classification:
B41J 201
US Classification:
347 19
Abstract:
A print monitoring approach is provided in which sequences of irregular two-dimensional frames of image information are captured at a resolution sufficiently high to enable details of individual droplets to be identified. The approach may be used to monitor individual droplets deposited on a medium, such as a sheet of paper, by an inkjet printhead. An optical detector having an irregular two-dimensional array of closely spaced sensor elements is mounted for movement with the inkjet printhead or other print assembly. A processor is responsive to the image frames from the optical detector to adjust print quality parameters when the physical characteristics of the imaged droplets are detected as being outside of a preselected range of acceptability. The physical characteristics that are resolved may include gyrational information or different droplet position information. Optical dot gain can also be measured.

Identification Of Recording Media

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US Patent:
6838687, Jan 4, 2005
Filed:
Apr 11, 2002
Appl. No.:
10/120613
Inventors:
Barclay J. Tullis - Palo Alto CA, US
Ross R. Allen - Belmont CA, US
Carl Picciotto - Menlo Park CA, US
Jun Gao - Mountain View CA, US
Assignee:
Hewlett-Packard Development Company, L.P. - Houston TX
International Classification:
G01N 2186
G01V 800
US Classification:
25055907, 25055916, 2505594, 356446
Abstract:
The present invention is a method and device for identifying recording media in a printer. The invention utilizes fine structure of the media revealed by illumination from one or more directions to distinguish among different kinds of plain papers, coated papers, such as glossy papers, and transparency films. Multiple light sources at different incidence and/or orientation angles apply light on the test surface, and scattered light is converted into signals and then analyzed. Various metric and analysis techniques can be applied to the signals to determine the media type.

Cluster-Weighted Modeling For Media Classification

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US Patent:
6894262, May 17, 2005
Filed:
Jan 15, 2002
Appl. No.:
10/050346
Inventors:
Jun Gao - Mountain View CA, US
Ross R. Allen - Belmont CA, US
Assignee:
Hewlett-Packard Development Company L.P. - Houston TX
International Classification:
H01L027/00
US Classification:
2502081, 2505594, 382225, 356 71
Abstract:
A probabilistic input-output system is used to classify media in printer applications. The probabilistic input-output system uses at least two input parameters to generate an output that has a joint dependency on the input parameters. The input parameters are associated with image-related measurements acquired from imaging textural features that are characteristic of the different classes (types and/or groups) of possible media. The output is a best match in a correlation between stored reference information and information that is specific to an unknown medium of interest. Cluster-weighted modeling techniques are used for generating highly accurate classification results. Within the imaging process, grazing angle illumination (i. e. , introducing light at an angle of at least 45 degrees to the normal of the surface being imaged) provides sufficient contrasts for distinguishing the structural features (e. g. , paper fibers) of the unknown medium, but non-grazing illumination may be used when specular measurements are to be obtained.

Displacement Sensing By Comparing Matrices Of Pointwise Measurements

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US Patent:
7082378, Jul 25, 2006
Filed:
Nov 18, 2004
Appl. No.:
10/994055
Inventors:
Carl E. Picciotto - Menlo Park CA, US
Jun Gao - Saratoga CA, US
Neal W. Meyer - Corvallis OR, US
Assignee:
Hewlett-Packard Development Company, L.P. - Houston TX
International Classification:
G01B 7/00
G06F 15/00
US Classification:
702155, 702150
Abstract:
Determining a displacement of a substantially rigid item relative to a frame of reference between a first time and a second time is described. At the first time, a first set of pointwise measurements of a physical property of the item taken at a plurality of fixed locations relative to the frame of reference is acquired. At the second time, a second set of pointwise measurements of the physical property taken at the plurality of fixed locations is acquired. A first matrix derived from the first set of pointwise measurements is compared to a second matrix derived from the second set of pointwise measurements to determine the displacement.

Displacement Estimation System And Method

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US Patent:
7085673, Aug 1, 2006
Filed:
Aug 31, 2004
Appl. No.:
10/930614
Inventors:
Carl E. Picciotto - Menlo Park CA, US
Jun Gao - Mountain View CA, US
Wei Wu - Mountain View CA, US
Assignee:
Hewlett-Packard Development Company, L.P. - Houston TX
International Classification:
G01B 21/02
G06K 9/32
US Classification:
702158, 382294
Abstract:
A displacement estimation system including a data acquisition system and a processing system is provided. The data acquisition system is configured to capture a first frame from a first substrate including a first pattern and a second substrate including a second pattern at a first time and capture a second frame from a third substrate including a third pattern and a fourth substrate including a fourth pattern at a second time subsequent to the first time. The first pattern and the third pattern are substantially identical, and the second pattern and the fourth pattern are substantially identical. The processing system is configured to calculate a first displacement between the first pattern and the third pattern using the first frame and the second frame and calculate a second displacement between the second pattern and the fourth pattern using the first frame and the second frame.

Sensing Alignment Of Multiple Layers

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US Patent:
7226797, Jun 5, 2007
Filed:
Nov 23, 2004
Appl. No.:
10/995837
Inventors:
William M. Tong - San Francisco CA, US
Wei Wu - Mountain View CA, US
Jun Gao - Saratoga CA, US
Carl E. Picciotto - Menlo Park CA, US
Assignee:
Hewlett-Packard Development Company, L.P. - Houston TX
International Classification:
H01L 21/00
US Classification:
438 5, 438401, 700121
Abstract:
Using an imaging system in relation to a plurality of material layers in an initial alignment state is provided, a first of the plurality of material layers at least partially obscuring a second of the plurality of material layers in the initial alignment state. The first material layer is moved from a first position corresponding to the initial alignment state to a second position out of a field of view of the imaging system, and a first image of the second material layer is stored. The first material layer is moved back the first position to restore the initial alignment state. A second image of the first material layer is acquired. The second image and the stored first image are processed to determine the initial alignment state.
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Jun H Gao from Menlo Park, CA, age ~53 Get Report