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Jared M Tritz

from Ann Arbor, MI
Age ~47
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Related to:
Justin TritzAdam S Fleischfresser, 40Kevin J Tritz, 37Christina M Fleischfresser, 36Susan M Tritz, 67Jessica L Tritz, 41Travis J Tritz, 41Daniel R Tritz, 67
Connected to:
Bernard J Tritz, 68Julie R Tritz, 63Kelly J Tritz, 67Lori A Tritz, 62Michelle L Tritz, 59Terry L Tritz, 64Theresa Tritz, 66Katherine Triunfel, 32Veronica J Triunfel, 54George Triunfol, 87

Jared Tritz Phones & Addresses

  • Ann Arbor, MI
  • Nashville, MI
  • Wisconsin Rapids, WI
  • 5526 State Highway 186, Vesper, WI 54489 (715) 569-4595
  • Seattle, WA
  • Edmonds, WA
  • Estes Park, CO
  • 5526 State Highway 186, Vesper, WI 54489

Skills

Process Improvement • Matlab • Simulations • Statistics • Signal Processing • Labview • Python • Algorithms • C • Simulink • C++ • Perl • Software Engineering • Linux • Nanotechnology • Databases • Verilog • Microsoft Office • Java • Visual Basic

Industries

Research

Resumes

Resumes

Jared Tritz Photo 1

Jared Tritz

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Industry:
Research
Skills:
Process Improvement
Matlab
Simulations
Statistics
Signal Processing
Labview
Python
Algorithms
C
Simulink
C++
Perl
Software Engineering
Linux
Nanotechnology
Databases
Verilog
Microsoft Office
Java
Visual Basic

Business Records

Name / Title
Company / Classification
Phones & Addresses
Jared Tritz
Principal
Cransort
Nonclassifiable Establishments
3144 Wolverine Dr, Ann Arbor, MI 48108

Publications

Us Patents

Portable And Cartridge-Based Surface Plasmon Resonance Sensing Systems

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US Patent:
8174700, May 8, 2012
Filed:
Jan 28, 2011
Appl. No.:
13/016788
Inventors:
Timothy M. Chinowsky - Seattle WA, US
Scott D. Soelberg - Seattle WA, US
Peter C. Kauffman - Bainbridge Island WA, US
Clement E. Furlong - Bainbridge Island WA, US
Jared Tritz - Seattle WA, US
Michael S. Grow - Seattle WA, US
Alexei N. Naimushin - Bellevue WA, US
Sinclair S. Yee - Seattle WA, US
Assignee:
University of Washington - Seattle WA
International Classification:
G01N 21/00
US Classification:
356445
Abstract:
This specification discloses various improvements in the field of SPR sensing systems. One improvement relates to a portable SPR sensing system, e. g. , a system contained within a suitcase that can be hand-carried to a monitoring site. Another improvement relates to a portable, cartridge-based SPR sensing system. In this system, selected portions of the system's electrical and fluidics systems are allocated between a base unit and a removable/disposable cartridge. Other improvements relate to methods or protocols for operating an SPR sensing system. Such methods provide for the elimination of false positives and increased sensitivity, e. g. , by using secondary antibodies with specificity for different target epitopes and by sensor element redundancy. In addition, protocols are provided for the detection of small molecules. Such protocols may employ a competition type assay where the presence of the analyte inhibits the binding of antibodies to surface immobilized analyte, or a displacement assay, where antibodies bound to the analyte on the sensor surface are displaced by free analyte.

System And Method For Automated Tactile Sorting

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US Patent:
8346388, Jan 1, 2013
Filed:
Dec 15, 2008
Appl. No.:
12/316753
Inventors:
Jared Michael Tritz - Vesper WI, US
International Classification:
G01N 33/02
US Classification:
700230, 700213, 700219, 700223, 209590, 209672, 73 81, 73579, 426231
Abstract:
A system and method for automated piezoelectric sensor-based tactile sorting of plurality of small objects. A high accuracy, high precision delivery system targets the sensor which accounts for softness and mass of individual objects by measuring a force exerted and total contact time for each object upon passing contact with a sensing surface of a piezo sensor, wherein a plurality of objects cascade onto the sensor in one-by-one fashion. The quantified force and contact time values are then analyzed and compared against two threshold values or a range of threshold values which are predetermined and preset based on data from optimal objects and undesirable objects or possibly a spectrum of objects which has been analyzed and recorded to assist in calibrating the system.

Multi-Channel Automated Conveyor System And Method For Aligining And Transfering Of Small Objects

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US Patent:
8397905, Mar 19, 2013
Filed:
Jun 1, 2011
Appl. No.:
13/150424
Inventors:
Jared M Tritz - Ann Arbor MI, US
International Classification:
B65G 21/22
B65G 15/10
US Classification:
198817, 1988361
Abstract:
An automated multi-channel conveyor system comprises a plurality of channels for alignment, non-destructive transfer, and an accurate delivery of each of the plurality of small objects to a precise target destination. Each channel comprises alternate-profiled fins, pulleys, and belts. The pulleys within the set are connected to one another by two belts nestled in between and running parallel to the two fins. The belts are automated, travel continuously at predetermined speeds, accept a plurality of small objects, and facilitate uniform distribution by way of indentations. The fins and belts keep the objects aligned and uniformly distributed as the belts carry the accepted objects to a destination. A single-filed, uniform distribution of small objects within each channel and within a plurality of channels is a key to an efficient, automated, accurate, and precise delivery of the objects to a target destination.

Portable And Cartridge-Based Surface Plasmon Resonance Sensing Systems

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US Patent:
20060279737, Dec 14, 2006
Filed:
Apr 5, 2006
Appl. No.:
11/398964
Inventors:
Timothy Chinowsky - Seattle WA, US
Scott Soelberg - Seattle WA, US
Peter Kauffman - Bainbridge Island WA, US
Clement Furlong - Bainbridge Island WA, US
Jared Tritz - Seattle WA, US
Michael Grow - Bothell WA, US
Alexei Naimushin - Bellevue WA, US
Sinclair Yee - Seattle WA, US
International Classification:
G01N 21/55
US Classification:
356445000
Abstract:
This specification discloses various improvements in the field of SPR sensing systems. One improvement relates to a portable SPR sensing system, e.g., a system contained within a suitcase that can be hand-carried to a monitoring site. Another improvement relates to a portable, cartridge-based SPR sensing system. In this system, selected portions of the system's electrical and fluidics systems are allocated between a base unit and a removable/disposable cartridge. Other improvements relate to methods or protocols for operating an SPR sensing system. Such methods provide for the elimination of false positives and increased sensitivity, e.g., by using secondary antibodies with specificity for different target epitopes and by sensor element redundancy. In addition, protocols are provided for the detection of small molecules. Such protocols may employ a competition type assay where the presence of the analyte inhibits the binding of antibodies to surface immobilized analyte, or a displacement assay, where antibodies bound to the analyte on the sensor surface are displaced by free analyte.
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Jared M Tritz from Ann Arbor, MI, age ~47 Get Report