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Rajeev D Dwivedi

from Sammamish, WA
Age ~47
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Also known as:
U I
Related to:
Durgadevi Santhakumar, 46Santhakumar Durgadevi, 46
Connected to:
Abhijeet Dwivedi, 46Aditya Dwivedi, 44Ankur Dwivedi, 37Annanya Dwivedi, 31Anubhuti Dwivedi, 45Anushree Dwivedi, 35Avanish Dwivedi, 40Bharat B Dwivedi, 85Chandradhar Dwivedi, 75Charu Dwivedi, 30

Rajeev Dwivedi Phones & Addresses

  • Sammamish, WA
  • 9109 Elissa Ct, Plano, TX 75025 (214) 383-4782 (972) 390-8303
  • Dallas, TX
  • Richardson, TX
  • Colton, TX

Public records

Vehicle Records

Rajeev Dwivedi

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Address:
9109 Elissa Ct, Plano, TX 75025
Phone:
(972) 390-8303
VIN:
3N1BC13E47L368064
Make:
NISSAN
Model:
VERSA
Year:
2007

Resumes

Resumes

Rajeev Dwivedi Photo 1

Graphic Designer

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Position:
Graphic Designer at Terrapin Trading Co.
Location:
Lucknow, Uttar Pradesh, India
Industry:
Design
Work:
Terrapin Trading Co. - Winnipeg, Canada Area since Feb 2011
Graphic Designer
Intelenet Global Services Jul 2010 - Aug 2011
Customer Care Executive
EXL Service Sep 2010 - Jan 2011
Senior Executive
Interests:
To work on pictures/images.
Rajeev Dwivedi Photo 2

Graphic Designer

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Position:
Graphic Designer at Terrapin Trading Co.
Location:
Lucknow, Uttar Pradesh, India
Industry:
Design
Work:
Terrapin Trading Co. - Winnipeg, Canada Area since Feb 2011
Graphic Designer
Intelenet Global Services Jul 2010 - Aug 2011
Customer Care Executive
EXL Service Sep 2010 - Jan 2011
Senior Executive
Skills:
Photoshop
Illustrator
InDesign
Adobe Acrobat
Graphic Design
Wordpress
Layout
Logo Design
Graphics
Flash
Brochures
Corporate Branding
QuarkXPress
Interests:
To work on pictures/images.
Rajeev Dwivedi Photo 3

Mechanical Engineer At Finisar Corporation

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Location:
Dallas/Fort Worth Area
Industry:
Computer Networking
Rajeev Dwivedi Photo 4

Rajeev Dwivedi

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Rajeev Dwivedi Photo 5

Rajeev Dwivedi

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Rajeev Dwivedi Photo 6

Rajeev Dwivedi

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Business Records

Name / Title
Company / Classification
Phones & Addresses
Rajeev Dwivedi
Managing
SATKRITI SOLUTIONS LLC
9109 Elissa Ct, Plano, TX 75025

Publications

Us Patents

Pickoff Mechanism For Mail Feeder

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US Patent:
7766318, Aug 3, 2010
Filed:
Aug 5, 2008
Appl. No.:
12/186108
Inventors:
Simon Jan Krause - Constance, DE
Rajeev Dwivedi - Plano TX, US
Assignee:
Siemens Industry, Inc. - Alpharetta GA
International Classification:
B65H 5/08
US Classification:
271 12, 271 11, 271 14
Abstract:
A pickoff system for removal of mail pieces one at a time from the end of a stack includes a pickoff belt mechanism positioned to frictionally engage an outer surface of a mail piece at the end of the stack and transport it transversely, which mechanism includes one or more belts mounted on a drive roller at one end driven by a drive motor and a follower roller at a trailing end. A pivot mechanism permits the trailing end to swing towards and away from the stack. A drive is connected to the pivot mechanism to move the trailing end towards and away from the stack, and a controller is connected to the drive to cause the drive to swing the trailing end towards the stack and swing the trailing end away from the stack in a manner effective to improve operation of the pickoff system.

Pickoff Mechanism For Mail Feeder

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US Patent:
8002266, Aug 23, 2011
Filed:
Aug 5, 2008
Appl. No.:
12/186122
Inventors:
Simon Jan Krause - Constance, DE
Bryan Stone - Dallas TX, US
Edwin Bland - Mansfield TX, US
John Day - Arlington TX, US
Uwe Maertin - Euless TX, US
Rajeev Dwivedi - Plano TX, US
Assignee:
Siemens Industry, Inc. - Alpharetta GA
International Classification:
B65H 3/08
B65H 3/12
US Classification:
271 99, 271 94, 271 96, 271 98, 271194, 271 12
Abstract:
A pickoff system for removal of mail pieces one at a time from the end of a stack includes a pickoff belt mechanism, a sensor positioned to determine mail piece movement speed, and a measurement device determines belt movement speed during operation of the pickoff belt mechanism. A vacuum system includes a vacuum pump and a vacuum manifold positioned to apply suction to the mail piece in a direction that tends to hold the mail piece against the belt of the pickoff belt mechanism. A controller is configured to compare the belt movement speed and the mail piece movement speed during operation, and when mail piece movement speed is slower than belt movement speed, indicating slipping of the mail piece relative to the belt of the pickoff belt mechanism, the controller temporarily increases suction force applied to a mail piece being transported by the pickoff belt mechanism.

Method And Apparatus For Monitoring Conveyor Belts

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US Patent:
20080006513, Jan 10, 2008
Filed:
Jun 22, 2007
Appl. No.:
11/821440
Inventors:
Mark Stolyar - Richardson TX, US
Daniel Kelly - Knoxville TN, US
Rajeev Dwivedi - Plano TX, US
International Classification:
B65G 43/00
G08B 21/00
US Classification:
198810010, 340676000
Abstract:
A smart belt consists of a standard belt with an embedded sensor capable of wireless communication or visual indicators to notify maintenance for a need for maintenance or replacement. The sensor measures material properties, cycles of operation etc. using a self energizing power source. When the belt requires replacement or maintenance a mode of indication will notify proper personnel.

Chip On Flex Optical Subassembly

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US Patent:
20130156418, Jun 20, 2013
Filed:
Dec 14, 2012
Appl. No.:
13/715738
Inventors:
Rajeev Dwivedi - Plano TX, US
Gary Landry - Allen TX, US
Assignee:
FINISAR CORPORATION - Sunnyvale CA
International Classification:
H04B 10/40
H05K 13/04
US Classification:
398 25, 398182, 398135, 29832
Abstract:
One example embodiment includes an optical subassembly (OSA). The OSA includes a flex circuit, an optical port, and an active optical component subassembly. The flex circuit is constructed of at least one electrically-conductive layer and at least one electrical insulator layer. The optical port defines a barrel cavity and is mechanically coupled to the flex circuit at a flex connection. The active optical component subassembly is positioned within the barrel cavity and electrically coupled to the flex circuit.

Wireless Powering And Control Of Conveyors On Shuttles

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US Patent:
20230055514, Feb 23, 2023
Filed:
Aug 17, 2021
Appl. No.:
17/404362
Inventors:
- Seattle WA, US
Ganesh Krishnamoorthy - Seattle WA, US
Michael Alan Bray - Elkhorn NE, US
Rajeev Dwivedi - Sammamish WA, US
Mohit Malik - Seattle WA, US
Shahid Azad - Seattle WA, US
Assignee:
Amazon Technologies, Inc. - Seattle WA
International Classification:
B60L 9/00
H02J 50/10
Abstract:
Systems and methods are disclosed for wireless powering and control of conveyors on shuttles. An example system may include a track, and a shuttle configured to move along the track, the shuttle having a conveyor, and a first induction coil. The system may include a second induction coil disposed at a first location along the track, where the second induction coil is configured to interact with the first induction coil to power the conveyor. The shuttle may not have an onboard power source coupled to the conveyor.

System And Method For Uniform Distribution Of Articles

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US Patent:
20210309464, Oct 7, 2021
Filed:
Aug 29, 2019
Appl. No.:
17/266329
Inventors:
- DFW Airport TX, US
Rajeev Dwivedi - Plano TX, US
International Classification:
B65G 47/31
B65G 37/00
B65G 43/08
B07C 1/04
Abstract:
A system for distributing a stream of articles includes a belt assembly () with a plurality of belt segments () carrying a stream of articles (), a sensor assembly () with a plurality of sensors (), a control system () interfacing with the belt assembly () and the sensor assembly (), wherein the sensor assembly () determines spacing () in the stream of articles (), and wherein the control system () controls a speed of the plurality of belt segments () to minimize the spacing () in the stream of articles () when the spacing () is greater than a predefined threshold.

Chip On Flex Optical Subassembly

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US Patent:
20160341920, Nov 24, 2016
Filed:
May 9, 2016
Appl. No.:
15/150330
Inventors:
- Sunnyvale CA, US
Rajeev Dwivedi - Plano TX, US
Gary Landry - Allen TX, US
International Classification:
G02B 6/42
H04B 10/40
Abstract:
One example embodiment includes an optical subassembly (OSA). The OSA includes a flex circuit, an optical port, and an active optical component subassembly. The flex circuit is constructed of at least one electrically-conductive layer and at least one electrical insulator layer. The optical port defines a barrel cavity and is mechanically coupled to the flex circuit at a flex connection. The active optical component subassembly is positioned within the barrel cavity and electrically coupled to the flex circuit.
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Rajeev D Dwivedi from Sammamish, WA, age ~47 Get Report