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James A Wes

from Diamond Bar, CA
Age ~71
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Also known as:
James Andrew Wes, James J Wes, Joshua J Wes, Jim K Wes, Josh Wes
Phone and address:
3263 Bent Twig Ln, Pomona, CA 91765
(909) 861-3908
Related to:
Joshua J Wes, 46Cynthia J Wes, 73Theresa J Elfelt, 69Patrick L Elfelt, 44Rachel J Wes, 35Timothy J Wes, 39Theresa J Wes, 45
Connected to:
Vernon Wes, 70Carl A Wesarg, 72Todd M Wesaw, 56Brian S Wesbecher, 54Christina Wesberry, 32Joleta Wesbrock, 53Christopher Wesbrook, 47Veronica L Wesbrook, 51Dominique Wesby, 39

James Wes Phones & Addresses

  • 3263 Bent Twig Ln, Diamond Bar, CA 91765 (909) 861-3908
  • Pomona, CA
  • Brea, CA
  • Huntington Beach, CA
  • Compton, CA
  • 3263 Bent Twig Ln, Diamond Bar, CA 91765 (909) 255-4362

Work

Position: Production Occupations

Education

Degree: Graduate or professional degree

Business Records

Name / Title
Company / Classification
Phones & Addresses
James A. Wes
President
SCIENTIFIC APPLICATIONS & RESEARCH ASSOCIATES, INC
Commercial Physical Research · Acoustics Laser & Electronic Instrument Developer · Marketing Research & Public Open Polling
6300 Gtwy Dr, Cypress, CA 90630
2650 Yale Blvd SE, Albuquerque, NM 87106
3263 Bent Twig Ln, Diamond Bar, CA 91765
(505) 766-9844, (714) 224-4410, (714) 224-1710

Publications

Us Patents

Less Lethal Multi-Sensory Distraction Grenade

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US Patent:
6543364, Apr 8, 2003
Filed:
Feb 14, 2002
Appl. No.:
10/077625
Inventors:
James A. Wes - Diamond Bar CA
John P. Deering - Lakewood CA
Jay B. Cleckler - Long Beach CA
Michael W. Zintl - Huntington Beach CA
Assignee:
Scientific Applications Research Associates - Huntington Beach CA
International Classification:
F42B 1220
US Classification:
102490, 102482, 102487
Abstract:
A launchable, multi-sensory distraction grenade including a base, three outer grenade walls arranged together on the base to pivotally move from a first position, to a second position, extending outward laterally from the base in different directions, to form lateral legs to support the base after it lands on a surface, a plurality of spring fingers retaining the walls in contact with the base, at least two distraction devices mounted in the grenade for initiating an extended period of personnel distraction in the area of the grenade with its walls in their second position, a distraction device ignitor and safety trigger at least a portion of which is external the casing for controlling the ignition means.

Roll Measurement System For Flight Vehicle

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US Patent:
H2470, Apr 7, 1987
Filed:
Jul 11, 1986
Appl. No.:
6/887496
Inventors:
Lee K. Clark - Santa Ana CA
Michael C. Peron - Eltoro CA
James A. Wes - Diamond Bar CA
Assignee:
The United States of America as represented by the Secretary of the Army - Washington DC
International Classification:
G06F 1550
G05D 108
G01C 2300
US Classification:
364434
Abstract:
A roll measurement system for a flight vehicle, such as a tank-launched ged projectile or guided missile, includes a power source and a pulsed laser, such as a laser diode, which propagates a laser beam which is focused into a narrow conical beam and directed toward the earth. The laser beam's reflections from the earth are detected, for example, by a photo-diode, and converted into an analog electrical signal. The signal is converted to digital form and analyzed to determine its nadir (the shortest path-length to the earth). A microcomputer compares the immediate nadir determination with stored nadir determinations to compute the angle and rate of roll of the flight vehicle.

Atmospheric Scintillation Simulator

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US Patent:
53788907, Jan 3, 1995
Filed:
Apr 23, 1993
Appl. No.:
8/054656
Inventors:
James A. Wes - Diamond Bar CA
Harold J. Orlando - Costa Mesa CA
Steven R. Zammit - Redondo Beach CA
Assignee:
Northrop Grumman Corporation - Los Angeles CA
International Classification:
G01M 1100
US Classification:
2502521
Abstract:
An apparatus and method for simulating atmospheric scintillation includes a scintillation disk and a motor for rotating the disk at a substantially high speed. The disk has a dense varied pattern of substantially small closely spaced holes. The holes have different sizes and are arranged with a spatial distribution that is gaussian in amplitude and poisson distributed in separation. The motor can spin the disk to produce desired temporal variations as energy from the energy source passes through the holes of the disk.

Device To Spatially Encode A Beam Of Light

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US Patent:
44249446, Jan 10, 1984
Filed:
Nov 26, 1982
Appl. No.:
6/444643
Inventors:
James A. Wes - Diamond Bar CA
Raymond H. Ottoson - Garden Grove CA
Assignee:
Northrop Corporation - Hawthorne CA
International Classification:
F41G 726
US Classification:
249 313
Abstract:
A guidance system for a beam rider missile, having a novel coded light beam projector at an aiming station, for use by a missile-mounted receiver. The projecting means contains a rotating transparent reticle through which the beam is transmitted, the reticle having an opaque radial portion in a curved "leaf" shape. When the diameter of the projected beam is held constant at the missile distance during flight, the position of the missile in polar coordinate form is given by the relative angular position and duration of the blocked-out portion of the beam received at the missile.

Remote Guard-Presence System With Adjustable Effect And Process Of Using

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US Patent:
62047620, Mar 20, 2001
Filed:
Nov 9, 1999
Appl. No.:
9/436875
Inventors:
John P. Dering - Lakewood CA
James A. Wes - Diamond Bar CA
John F. Spadaro - Huntington Beach CA
Jay B. Cleckler - Long Beach CA
William E. Hutchinson - Long Beach CA
International Classification:
G08B 1300
US Classification:
340541
Abstract:
An apparatus for achieving remote guarding of an area with adjustable effect on unauthorized entrants, comprising an operator station including a signal receiver with television display, radiant energy selection control, and energy level controller, a first sensor means placed about the area for detecting the presence and movements of entrants to the area, the visual effects of later radiation directed toward them, and generating signals in response thereto, a source of radiant energy including at least one transmitter of the energy for broadcasting the energy into the area, upon selection of the type of radiant energy from the selection control, and of a level controlled by the energy level controller, the radiant energy of a nature and intensity capable of varying in strength and duration as to cause different observable effects on intruders present in the area who do not leave the area upon command, second sensor means placed about the area for detecting the onset of and intensity of the radiant energy broadcast into the area and generating signals in response thereto, first transfer means for transferring the generated signals from the first sensor means and separately transferring the generated signals from the second sensor means to the signal receiver in the operator station to allow the operator real-time observation of the area. and second transfer means for transferring control signals from the operator station to the radiant energy source and transmitter to vary the type and intensity of the radiant energy broadcast into the area to prevent further intrusion into the area.
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James A Wes from Diamond Bar, CA, age ~71 Get Report