Thomas H Grover

from Minneapolis, MN

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Thomas Grover Phones & Addresses

Minneapolis, MN
5574 Chatsworth St N, Shoreview, MN 55126 (651) 490-0217
1483 3010 S, Salt Lake City, UT 84106 (801) 487-0413
Salt Lake Cty, UT
Blaine, MN
Anoka, MN
Finlayson, MN
Mankato, MN

Resumes

Technical Supervisor

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Location:

Saint Paul, MN

Industry:

Electrical/Electronic Manufacturing

Work:

Det-Tronics (Detector Electronics Corporation)
Technical Supervisor

Electronic Technician Radioman

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Work:

Us Navy
Electronic Technician Radioman

Thomas Grover

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Electronic Technician Radioman

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Work:

Electronic Technician Radioman

Thomas Grover

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Thomas Grover

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Thomas Grover

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Thomas Grover

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Latest News

News

Albuquerque policeman who shot woman fired over camera lapse

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Dear's attorney, Thomas Grover, said his client was being unfairly made an example of as the first officer fired for not turning on a uniform camera in the wake of the Department of Justice findings on excessive force, released in April.

Date

Dec 02, 2014

Category:

U.S.

Source:

Google

Police scrutinized over of adversary's death

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In one police report, former Albuquerque officer Thomas Grover said he found it unusual that Han's car door and windows were open. He noted that in previous car suicides he had investigated, the windows were rolled up and the vehicles secured.

Date

Mar 13, 2013

Source:

Google

Publications

Us Patents

Noninvasive, Continuous Intraocular Pressure Monitor

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US Patent:

40893294, May 16, 1978

Filed:

Mar 18, 1976

Appl. No.:

5/668020

Inventors:

Lucien Alfred Couvillon - Salt Lake City UT
Thomas Reaks Grover - San Francisco CA
Charles Dewitt Baker - Salt Lake City UT
William Sanford Topham - Chagrin Falls OH

Assignee:

University of Utah Research Institute - Salt Lake City UT

International Classification:

A61B 316

US Classification:

128 2T

Abstract:

A noninvasive, continuous monitoring device for measuring intraocular pressure without interference with vision or normal activity of the patient. A miniature, planar-faced pressure transducer is fixed in a protruding section of a compliant hydrogel ring which has been tooled to conform to the spherical surface of the sclera. The hydrogel ring is placed noninvasively under the eyelids within the conjunctival cul-de-sac, the transducer being located in the lower temperal quadrant. Applanation of the sclera against the planar surface of the transducer results as a consequence of pressure from the separated tissues. Intraocular pressure readings are based on the variations in resistance in the strain gage elements of the transducer caused by the applied stress to the transducer diaphragm. Data is transmitted through connecting wires to a telemetry unit which transmits the data to a receiver-transcriber console. The total system permits free, uninhibited movement by the patient during the monitoring process and provides a record of intraocular pressure as a function of time-of-day.