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Kevin F Tabor

from Webster, MA
Age ~65
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Also known as:
Kevin N Tabor, Kevin T Tabor, Kevin R Tabor
Phone and address:
5 Hollow Ln, Webster, MA 01570
(508) 943-6477
Related to:
Elba L Allard, 35
Connected to:
Allison S Tabor, 58Andrea C Tabor, 50Eileen P Tabor, 75Elise N Tabor, 43Genevieve L Tabor, 98Ken Tabor, 84Kirk A Tabor, 48Lara K Tabor, 59Linae D Tabor, 66Lou A Tabor, 81

Kevin Tabor Phones & Addresses

  • 5 Hollow Ln, Webster, MA 01570 (508) 943-6477
  • Westfield, MA
  • Southbridge, MA
  • Shrewsbury, MA
  • Charlton, MA
  • 5 W Hollow Ln, Webster, MA 01570 (508) 335-0308

Work

Position: Retired

Education

Degree: Associate degree or higher

Emails

k***[email protected]

Resumes

Resumes

Kevin Tabor Photo 1

Kevin Tabor

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Location:
Portland, Oregon
Industry:
Financial Services
Skills:
SAP
Cognos
Forecasting
Budgeting
Customer Service
Financial Analysis
Logistics
Process Improvement
Strategic Planning
Business Planning
Inventory Management
Training
Leadership
Analysis
Budgets
Business Development
Manufacturing
Project Management
Marketing Strategy
Team Building
Program Management
Business Strategy
Sales Process
Management
Team Leadership
Start-ups
Kevin Tabor Photo 2

Kevin Tabor

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Location:
United States
Kevin Tabor Photo 3

Kevin Tabor

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Location:
United States

Business Records

Name / Title
Company / Classification
Phones & Addresses
Kevin Tabor
Executive Of Sales
Schott North America, Inc
Mfg Fiber Optics · Mfg Optical Instruments/Lenses
122 Charlton St, Globe Village, MA 01550
(508) 765-9744
Kevin Tabor
TABOR ENTERPRISES LLC
Kevin Tabor
TOTAL EXPERIENCE MOBILE PRESSURE WASHING, INC

Publications

Us Patents

Ion-Reduction-Blackened Extra-Mural Absorbing Media Adapted For Inclusion In Image-Conducting Optical Fiber Arrays And Methods Of Fabricating The Same

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US Patent:
7221835, May 22, 2007
Filed:
Nov 24, 2004
Appl. No.:
10/997692
Inventors:
Michael Weisser - Sturbridge MA, US
Paige Higby - Holland MA, US
Richard Strack - Sturbridge MA, US
Kevin Tabor - Webster MA, US
James Triba - Stafford Springs CT, US
Gary DiGregorio - Southbridge MA, US
Assignee:
Schott Corporation - Elmsford NY
International Classification:
G02B 6/06
G02B 6/04
G02B 6/02
C03B 37/023
C03C 21/00
US Classification:
385116, 385120, 385123, 65385, 65400
Abstract:
Methods of fabricating extra-mural absorption elements adapted for incorporation in an image-conducting optical fiber array include fabricating various constituent components to be included in an optical fiber bundle from one or more reducible-ion-containing glasses. Various components fabricated from a reducible-ion-containing glass are selectively exposed to a reducing atmosphere such that they are reduction-blackened prior to at least one heating and drawing step relative to the bundle into which they are to be fusedly incorporated. Such “pre-blackened” components function as extra-mural absorption media throughout the length of an image-conducting optical fiber array and alternatively include fiber claddings and substitutional and interstitial extra-mural absorption elements.

Illumination Assembly Including A Rigid Light-Guiding Element Incorporating A Numerical-Aperture Alteration Taper

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US Patent:
7280723, Oct 9, 2007
Filed:
Apr 26, 2006
Appl. No.:
11/411637
Inventors:
Kevin Tabor - Webster MA, US
Assignee:
Schott Corporation - Elmsford NY
International Classification:
G02B 6/26
US Classification:
385 39, 385 43, 385 89, 385111, 385115, 385116, 385120, 385121
Abstract:
An illumination assembly includes a light-emitting element that emits light over a light-source numerical aperture and an elongated light-guiding element including opposed incident and emission ends between which ends light propagates by total internal reflection. The light-guiding element includes along a portion of its length a numerical-aperture alteration taper having opposed small and large ends exhibiting, respectively, a small-end numerical aperture and a large-end numerical aperture lower in magnitude than the small-end numerical aperture. The alteration taper is oriented such that the small end is more proximate the incident end than the large end. The incident end is in light-collecting proximity and alignment with the light-emitting element such that light emitted from the light-emitting element over the small-end numerical aperture and received into the small end of the alteration taper is emitted from the emission end of the light-guiding element at an emission numerical aperture lower in magnitude than the small-end numerical aperture.

Micro-Well And Methods Of Fabricating And Selectively Blackening The Same

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US Patent:
7280727, Oct 9, 2007
Filed:
Sep 7, 2004
Appl. No.:
10/935541
Inventors:
Loic Barbedette - Dudley MA, US
John Hansson - Brooklyn CT, US
Richard Strack - Sturbridge MA, US
Kevin Tabor - Webster MA, US
Michael Weisser - Sturbridge MA, US
Assignee:
Schott Corporation - Elmsford NY
International Classification:
G02B 6/04
C12M 1/34
C12M 3/00
US Classification:
385120, 4352884, 4352887
Abstract:
Well plates adaptable for specimen sampling in the biological, chemical and pharmaceutical sciences are fabricated by dissolving fusedly-retained cores from the cladding material of a fused fiber plate to define a capillary plate including first and second faces and a plurality of through-voids into which fluidic samples may be deposited for analysis. Closed-bottom wells are defined by bonding one of the first and second faces to a base plate or by securing into well-sealing positions over the open ends of selected through-voids optical elements, each of which optical elements exhibits a predetermined optical property. Cladding material including reducible ions is exposed to a reduction atmosphere in order to blacken selected regions of a well plate, thereby enhancing sample analysis by reducing such disadvantageous phenomena as autofluorescence.

Light Conduits Having Peripheral, Shape-Defining Polymer Overmolds

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US Patent:
7400795, Jul 15, 2008
Filed:
Oct 6, 2007
Appl. No.:
11/973177
Inventors:
Scott A. Raszka - Woodstock CT, US
Kevin Tabor - Webster MA, US
Paulettel Onorato - Sudbury MA, US
Assignee:
Schott Corporation - Elmsford NY
International Classification:
G02B 6/26
G02B 6/036
US Classification:
385 31, 385123, 385126, 385127, 385128
Abstract:
An elongated light-guiding element includes opposed incident and emission ends between which light propagates by total internal reflection. The light-guiding element includes a glass core with first and second glass core ends and a glass-core outer surface. A non-glass polymeric optical layer extends over at least a portion of the length of the glass core and is disposed peripherally thereabout. The optical layer has first and second optical-layer ends and an optical-layer exterior surface extending between the first and second optical-layer ends. The glass core and the polymeric optical layer exhibit indices of refraction that are matched to one another as closely as practicable such that the combination of the glass core and the optical layer exhibits optical properties similar to those that would be exhibited by an optical element of similar shape and dimensions fabricated from a single, continuous mass of optical material having a refractive index equal to the that of the glass core material.

Display Device With Fiber-Optic Arrangement

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US Patent:
7515800, Apr 7, 2009
Filed:
Sep 13, 2007
Appl. No.:
11/855056
Inventors:
Steffen Reichel - Mehlingen, DE
Burkhard Danielzik - Bingen, DE
Kevin Tabor - Webster MA, US
Michael Weisser - Southbridge MA, US
Assignee:
Schott AG
International Classification:
G02B 6/04
G02B 6/06
US Classification:
385120, 385115, 385901
Abstract:
The invention relates to a display device having a fiber-optic plate and a display with an image plane on which the image information of the display is generated, the fiber-optic plate comprising a fiber bundle with a multiplicity of fiber cores extending beside one another, which are enclosed by a cladding material and which transmit light from an entry face of the fiber-optic plate, facing the display, to an exit face of the fiber-optic plate, wherein the entry face of the fiber-optic plate lies further away from the image plane than the lateral dimension of the smallest image information representable by the display.

Optical Fiber Faceplates Including Convergent Constituent Imaging Conduits And Tiled Imaging Arrays Incorporating The Same

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US Patent:
7856161, Dec 21, 2010
Filed:
Mar 6, 2008
Appl. No.:
12/074871
Inventors:
Kevin Tabor - Webster MA, US
Assignee:
Schott Corporation - Elmsford NY
International Classification:
G02B 6/04
US Classification:
385120, 385115, 385123
Abstract:
An imaging module includes an optical fiber faceplate with an image-input face, a planar image-output face, and a plurality of adjacently fused, internally reflecting imaging conduits extending between the image-input and image-output faces. The constituent imaging conduits extend along conduit axes that mutually converge in a direction that such that an image inputted through the image-input face is reduced in size along at least one dimension for outputting through the image-output face. The imaging module further includes an imaging detector array including a plurality of photosensitive detector elements arranged in accordance with a predetermined array format. The faceplate is situated in front of the detector array such that light incident upon the image-input face is transmitted through the faceplate and optically communicated to the detector elements through the image-output face. Multiple imaging modules can be tiled in tight formations in order to form a larger format imaging array.

Optical Components With Variable Electro-Chromic Extra-Mural Absorption Capability

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US Patent:
8335419, Dec 18, 2012
Filed:
Oct 26, 2009
Appl. No.:
12/589634
Inventors:
Kevin Tabor - Webster MA, US
Assignee:
Schott Corporation - Elmsford NY
International Classification:
G02B 6/04
US Classification:
385120
Abstract:
An optical component includes at least one light-guiding element with a side surface extending between incident and emission faces between which light that is introduced into the incident face can propagate by internal reflection. Disposed over at least a portion of the side surface of at least one of the at least one light-guiding elements is an extramural absorption material that is configured to selectively absorb “stray light” that enters the incident face of the light-guiding element, but which exists through the side surface instead of the emission face. The absorption material is fabricated, at least in part, from an electro-chromic material exhibiting a translucency that is selectively adjustable in response to changes in at least one of (i) electrical current applied through at least a portion of the absorption material and (ii) an electrical potential difference applied between disparate locations within the absorption material.

Three Dimensional Prism Image Guide System For Optical Signal Transmission

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US Patent:
20030072547, Apr 17, 2003
Filed:
Dec 28, 2001
Appl. No.:
10/040587
Inventors:
Karim Tatah - Winchester MA, US
Kevin Tabor - Webster MA, US
Assignee:
Schott Optovance, Inc. - Southbridge MA
International Classification:
G02B006/06
G02B006/26
US Classification:
385/116000, 385/047000
Abstract:
A three-dimensional prism image guide system for multiple optical signal transmission including a first prism formed from a fiber image guide having first and second ends, with the second end having first and second angled faces. A second prism formed from a fiber image guide is also provided with first and second ends. The first end has first and second angled faces. The first angled face of the first end of the second prism is in facing relationship to the second angled face of the second end of the first prism to form a first optical connection. A third prism is provided having first and second ends. The first end has at least a first angled face that is in facing relationship to the first angled face of the second end of the first prism to form a second optical connection.
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Kevin F Tabor from Webster, MA, age ~65 Get Report