Jeffrey T Potts

Address:

2317 E Reata Dr, Deer Park, TX 77536

Phone:

2815426790

VIN:

4YDF3602574702997

Make:

BMW

Model:

X5-Series AWD 4dr 4.8i

Year:

2007

US Patent:

20220188566, Jun 16, 2022

Filed:

Dec 10, 2020

Appl. No.:

17/118566

Inventors:

- Houston TX, US
Dustin Michael Sharber - Houston TX, US
Jeffrey Potts - Houston TX, US
Braden Starcher - Houston TX, US

International Classification:

G06K 9/62
G06F 40/169

Abstract:

A method of data preparation for artificial intelligence models includes receiving data characterizing a first plurality of images. The method further includes annotating a first subset of images of the first plurality of images based at least in part on a first user input to generate annotated first subset of images. The annotating includes labelling one or more features of the first subset of images. The method also includes generating, by a training code, an annotation code, the training code configured to receive the annotated first subset of images as input and output the annotation code. The training and the annotation code includes computer executable instructions. The method also includes annotating, by the annotation code, a second subset of images of the first plurality of images to generate annotated second subset of images, wherein the annotating includes labelling one or more features of the second subset of images.

US Patent:

20220189005, Jun 16, 2022

Filed:

Dec 16, 2020

Appl. No.:

17/123928

Inventors:

- Houston TX, US
Dustin Michael Sharber - Houston TX, US
Jeffrey Potts - Houston TX, US
Braden Starcher - Houston TX, US

International Classification:

G06T 7/00
G06T 5/00
G06T 5/50
G06K 9/62
G06N 20/00

Abstract:

An inspection method includes receiving a plurality of training images and an image of a target object obtained from inspection of the target object. The method further includes generating, by one or more training codes, a plurality of inference codes. The one or more training codes are configured to receive the plurality of training images as input and output the plurality of inference codes. The one or more training codes and the plurality of inference codes includes computer executable instructions. The method further includes selecting one or more inference codes from the plurality inference codes based on a user input and/or one or more characteristics of at least a portion of the received plurality of training images. The method also includes inspecting the received image using the one or more inference codes of the plurality of inference codes.

US Patent:

20200167931, May 28, 2020

Filed:

Nov 6, 2019

Appl. No.:

16/675794

Inventors:

Xiaoqing Ge - Edmond OK, US
Dustin Sharber - Oklahoma City OK, US
Jeffrey Robert Potts - Oklahoma City OK, US
John Westerheide - Edmond OK, US
Jeremy Daniel Van Dam - Edmond OK, US

Assignee:

Baker Hughes, a GE company, LLC - Houston TX

International Classification:

G06T 7/12
E21B 47/00
G06T 15/00
G06T 7/00
F16P 3/14
G06F 3/01

Abstract:

A system including an energy industry operation component and a processing system associated with the energy industry operation component is provided. The processing system includes an accelerator and is configured to perform at least one of image segmentation and vision analysis for authenticated lockout, image segmentation and vision analysis for performance audit, or augmented reality rendering and streaming.

US Patent:

20200032612, Jan 30, 2020

Filed:

Jul 26, 2019

Appl. No.:

16/523961

Inventors:

- Houston TX, US
Jeffrey Potts - Oklahoma City OK, US
Dewey Parker, JR. - Oklahoma City OK, US
Grant Hartman - Oklahoma City OK, US

Assignee:

Baker Hughes Oilfield Operations LLC - Houston TX

International Classification:

E21B 33/12
E21B 33/128

Abstract:

A collapsible packer for use in a well includes a deployment assembly, a retraction assembly and a sealing assembly extending between the deployment assembly and the retraction assembly. The deployment assembly may include a spring and a degradable stop configured to offset the force applied by the spring. The degradable stop can be manufactured from a material that dissolves when contacted by fluid in the well. The retraction assembly may by hydraulically or spring energized.

US Patent:

20180118997, May 3, 2018

Filed:

Dec 27, 2017

Appl. No.:

15/855026

Inventors:

- Houston TX, US
Jeffrey R. Potts - Houston TX, US

International Classification:

C09K 8/508
E21B 33/12
E21B 31/00

Abstract:

Methods of using a component in a subterranean wellbore include positioning a component including a degradable thermoset polymer material in a wellbore location, obstructing flow with the component, exposing the component to an acidic solution to degrade the selectively degradable thermoset polymer material and to remove the component from the wellbore location, and flowing a fluid through the wellbore location where the component was positioned. Methods of forming a component of a wellbore system include forming at least a portion of the component to comprise a degradable thermoset polymer material. Wellbore systems include at least one component including a selectively degradable thermoset polymer material. The selectively degradable thermoset polymer material may be a polyhexahydrotriazine (“PHT”) material.

US Patent:

20180058179, Mar 1, 2018

Filed:

Aug 30, 2016

Appl. No.:

15/251838

Inventors:

- Schenectady NY, US
Dustin Michael Sharber - Oklahoma City OK, US
Mahendra Ladharam Joshi - Katy TX, US
Qi Xuele - Edmond OK, US
Jeffrey Robert Potts - Oklahoma City OK, US
Matthew Landon George - Oklahoma City OK, US

International Classification:

E21B 41/00
B25J 5/02
B25J 9/12
E21B 47/00
B61B 13/00

Abstract:

A well bore robot is configured to travel along an magnetic track element. The magnetic track element includes a plurality of track magnets. The well bore robot includes a robot body and at least one robot magnet. The robot magnet is disposed within the robot body and configured to magnetically and alternatingly engage and disengage with the track magnets. Alternating engagement and disengagement of the robot magnet with the track magnets conveys the well bore robot along the magnetic track element.

US Patent:

20160115368, Apr 28, 2016

Filed:

Oct 28, 2014

Appl. No.:

14/526309

Inventors:

- Houston TX, US
Jeffrey R. Potts - Houston TX, US

International Classification:

C09K 8/508
E21B 31/00
E21B 33/12

Abstract:

Methods of using a component in a subterranean wellbore include positioning a component including a degradable thermoset polymer material in a wellbore location, obstructing flow with the component, exposing the component to an acidic solution to degrade the selectively degradable thermoset polymer material and to remove the component from the wellbore location, and flowing a fluid through the wellbore location where the component was positioned. Methods of forming a component of a wellbore system include forming at least a portion of the component to comprise a degradable thermoset polymer material. Wellbore systems include at least one component including a selectively degradable thermoset polymer material. The selectively degradable thermoset polymer material may be a polyhexahydrotriazine (“PHT”) material.

US Patent:

20150284542, Oct 8, 2015

Filed:

Apr 3, 2014

Appl. No.:

14/244184

Inventors:

Sayantan Roy - Houston TX, US
Bennett M. Richard - Kingwood TX, US
Jeffrey R. Potts - Bellaire TX, US
Anil K. Sadana - Houston TX, US

Assignee:

BAKER HUGHES INCORPORATED - Houston TX

International Classification:

C08K 7/26

Abstract:

A composition contains a polymer component comprising a crosslinked product of a polyarylene, a crosslinked product of a substituted polyphenylene, a crosslinked product of a polyphenylene sulfide and a polyphenylsulfone, or a combination comprising at least one of the foregoing; and a mesoporous silicate having an average pore size of about 5 nanometers to about 50 nanometers. The composition has high-temperature elastomeric properties and excellent mechanical strength. The compositions are useful in oil and gas downhole applications. Methods for the manufacture of the composition and articles comprising the composition are also disclosed.