Jose Fgarciade La

US Patent:

7653260, Jan 26, 2010

Filed:

Jun 17, 2004

Appl. No.:

10/872138

Inventors:

Cynthia B. Perz - Huntington Beach CA, US
Jose De La Torre-Bueno - Carlsbad CA, US

Assignee:

Carl Zeis MicroImaging GmbH - Jena

International Classification:

G06K 9/36

US Classification:

382284, 382128, 382133

Abstract:

Disclosed is a system for and a method of registering images captured by a computer-controlled microscope. The imaging system of the present invention includes a computer-controlled microscope electrically connected to a controller having a display device. The microscope further includes a barcode reader, a camera, a serial interface, one or more sensors, one or more motors, a light source, a turret, and a data interface. The method of image registration includes the steps of defining areas of interest on a microscope slide, creating a database of microscopic image locations, commanding a microscope to each location, capturing and storing an image, calculating correlation with neighbors, registering correlation scores and offsets, determining an anchor, and attaching neighbors using correlation scores and offsets.

US Patent:

8116543, Feb 14, 2012

Filed:

Jul 13, 2009

Appl. No.:

12/460079

Inventors:

Cynthia B. Perz - Huntington Beach CA, US
Robert T. Ellis - Dana Point CA, US
Jose De La Torre-Bueno - Carlsbad CA, US

Assignee:

Carl Zeiss MicroImaging GmbH - Jena

International Classification:

G06K 9/00

US Classification:

382128

Abstract:

The present disclosure includes systems and techniques relating to intelligently directed segmentation analysis for automated microscope systems. In general, in one implementation, the technique includes obtaining an image of at least a portion of a scan region including a biological specimen, partitioning the obtained image into zelles, determining one or more parameters of the zelles, performing a cluster analysis on the one or more parameters of the zelles, differentiating tissue of greater interest from tissue of lesser interest in the obtained image based on the cluster analysis and based on a test being performed for the biological specimen, and storing more information for the tissue of greater interest than information for the tissue of lesser interest. The cluster analysis can be a multivariate statistical cluster analysis, and the zelles can be test-dependent zelles (e. g. , having dimensions defined according to the test being performed for the biological specimen).

US Patent:

8369591, Feb 5, 2013

Filed:

Oct 1, 2009

Appl. No.:

12/587107

Inventors:

Cynthia B. Perz - Huntington Beach CA, US
Jose De La Torre-Bueno - Encinitas CA, US
Robert T. Ellis - Dana Point CA, US
Gina Marie McLaren - Laguna Niguel CA, US
Mary Jean Smith - Solana Beach CA, US

Assignee:

Carl Zeiss Microimaging GmbH - Jena

International Classification:

G06K 9/00

US Classification:

382128, 382100

Abstract:

Systems and techniques to acquire image data. In general, in one implementation, the technique includes: acquiring image data for a plurality of areas of a scan region. The technique may further include processing the image data to determine whether an area includes one or more desired features. The technique may further include designating an area as “interesting” if it includes a desired feature, and designating an area as non-interesting if it does not include the desired feature. The areas may be sub-divided one or more times, and subdivisions may be analyzed to determine if they include a desired feature.

US Patent:

20070031043, Feb 8, 2007

Filed:

Jan 30, 2006

Appl. No.:

11/343544

Inventors:

Cynthia Perz - Huntington Beach CA, US
Robert Ellis - Dana Point CA, US
Jose De La Torre-Bueno - Carlsbad CA, US

International Classification:

G06K 9/62
G06K 9/00

US Classification:

382225000, 382128000

Abstract:

The present disclosure includes systems and techniques relating to intelligently directed segmentation analysis for automated microscope systems. In general, in one implementation, the technique includes obtaining an image of at least a portion of a scan region including a biological specimen, partitioning the obtained image into zelles, determining one or more parameters of the zelles, performing a cluster analysis on the one or more parameters of the zelles, differentiating tissue of greater interest from tissue of lesser interest in the obtained image based on the cluster analysis and based on a test being performed for the biological specimen, and storing more information for the tissue of greater interest than information for the tissue of lesser interest. The cluster analysis can be a multivariate statistical cluster analysis, and the zelles can be test-dependent zelles (e.g., having dimensions defined according to the test being performed for the biological specimen).

US Patent:

20190166361, May 30, 2019

Filed:

Feb 1, 2019

Appl. No.:

16/265310

Inventors:

- Walnut CA, US
Jose De La Paz - Walnut CA, US

Assignee:

VisibilityOne Corp. - Walnut CA

International Classification:

H04N 17/00
H04L 12/18
H04N 7/15
H04L 12/26

Abstract:

A videoconference equipment monitoring system that continuously monitors and diagnoses the health of the system's network and devices using vendor-agnostic diagnostic hardware/software. The system comprises a monitoring server and one or more executable probes, wherein each executable probe is operable to collect data from devices in the network, communicate with other executable probes to collect internal network data, and communicate with the monitoring server to send information relating to the status of networks and devices.

US Patent:

20180278928, Sep 27, 2018

Filed:

Apr 23, 2018

Appl. No.:

15/959533

Inventors:

- Monrovia CA, US
Jose De La Paz - Monrovia CA, US

Assignee:

GBH Communications, Inc. - Monrovia CA

International Classification:

H04N 17/00
H04L 12/18
H04L 12/26
H04N 7/15
H04L 12/24

Abstract:

A videoconference equipment monitoring system that continuously monitors and diagnoses the health of the system's network and devices using vendor-agnostic diagnostic hardware/software. The system comprises a monitoring server and one or more executable probes, wherein each executable probe is operable to collect data from devices in the network, communicate with other executable probes to collect internal network data, and communicate with the monitoring server to send information relating to the stains of networks and devices.

US Patent:

20170289538, Oct 5, 2017

Filed:

Feb 10, 2017

Appl. No.:

15/430044

Inventors:

- Monrovia CA, US
Jose De La Paz - Monrovia CA, US

Assignee:

GBH Communications, Inc. - Monrovia CA

International Classification:

H04N 17/00
H04N 7/15

Abstract:

A videoconference equipment monitoring system that continuously monitors and diagnoses the health of the system's network and devices using vendor-agnostic diagnostic hardware/software. The system comprises a monitoring server and one or more executable probes, wherein each executable probe is operable to collect data from devices in the network, communicate with other executable probes to collect internal network data, and communicate with the monitoring server to send information relating to the status of networks and devices.

US Patent:

20150135921, May 21, 2015

Filed:

Aug 21, 2014

Appl. No.:

14/465624

Inventors:

- Pomona CA, US
Jose de la Luz Martinez-Montes - Huntington Park CA, US

International Classification:

B26D 5/28
B26D 7/06
B26D 3/24
A23L 1/164
B26D 1/62

US Classification:

83156, 83370, 83365

Abstract:

A continuous tortilla chip cutting system where tortilla carried on a conveyor are continuously divided by a cutting mechanism into pre-cuts for frying into chips. A programmable controller drives a servo motor that moves an upper surface of the conveyor at a known velocity V, and a detector located above the conveyor at a known distance D from the cutting mechanism alerts the controller to the imminent arrival of the tortilla. The controller also controls a servo motor that actuates the cutting mechanism in a stop/start fashion. Based on the detection of the tortilla, the controller drives the servo motor associated with the cutting mechanism at just the right time and at just the right speed so that the cutter mechanism cuts each arriving tortilla into predictable sub-units called “pre-cuts” based on the velocity V of the conveyor belt, the detection of the flat bread unit carried by the conveyor, and the known distance between the moving flat bread unit and the cutter assembly.

Address:

5625 1/2 E Beverly Blvd, Los Angeles, CA 90022

VIN:

3FAHP07ZX7R247741

Make:

FORD

Model:

FUSION

Year:

2007