Rulon Jason Nye
Plumbers in Salt Lake City, UT
License number
Utah 8274840-5510
Issued Date
Jul 9, 2015
Expiration Date
Nov 30, 2016
Category
Plumber
Type
Residential Journeyman Plumber
Address
Address
Salt Lake City, UT
Education
SALT LAKE COMMUNITY COLLEGE, Apr 1, 2015
Personal information
See more information about Rulon Jason Nye at radaris.comName
Address
Phone
3081 E Delsa Dr, Salt Lake City, UT 84124
Holladay, UT
3081 Delsa Dr, Salt Lake City, UT 84124
3355 Plaza Way, Salt Lake City, UT 84109
Professional information
Principal Systems Engineer, Rockwell Collins - Slc
Position:
Technical Solutions Manager at Seos, Ltd., Principal Systems Engineer at Rockwell Collins UK
Location:
Greater Salt Lake City Area
Industry:
Electrical/Electronic Manufacturing
Work:
Seos, Ltd.
-
Technical Solutions Manager
Rockwell Collins UK
since 2004
-
Principal Systems Engineer
Evans & Sutherland Computer Corp.
Jul 1981 - Mar 2003
-
Senior Hardware Engineer
Hang Gliding Simulation System With A Stereoscopic Display And Method Of Simulating Hang Gliding
US Patent:
5584696, Dec 17, 1996
Filed:
Jul 28, 1994
Appl. No.:
8/282925
Inventors:
Joe L. Walker - Salt Lake City UT
Paul C. Lyon - Sandy UT
Richard B. Linton - Salt Lake City UT
Rulon Nye - Salt Lake City UT
Ralph W. Fisher - Park City UT
Jeffrey B. Edwards - Salt Lake City UT
Clifford N. Cox - Salt Lake City UT
Paul C. Lyon - Sandy UT
Richard B. Linton - Salt Lake City UT
Rulon Nye - Salt Lake City UT
Ralph W. Fisher - Park City UT
Jeffrey B. Edwards - Salt Lake City UT
Clifford N. Cox - Salt Lake City UT
Assignee:
Evans & Sutherland Computer Corp. - Salt Lake City UT
International Classification:
G09B 924, G09B 934
US Classification:
434 43
Abstract:
The present invention is directed to a simulation system for simulating virtual reality experiences such as for the sport of hang gliding or the like. The simulation system has a stereoscopic and collimated virtual image display, for providing pupil forming simulated images to a rider at a fixed point of reference relative to the stereoscopic display. In the disclosed embodiment, the simulation system comprises a mechanical support structure for suspending the rider in a harness so as to allow freedom of movement. The rider is suspended to face a visual display over a movable control bar coupled to the mechanical support structure. By maneuvering the control bar, riders may view the results of their actions as by a simulated display. The visual display is coupled to the control bar to receive electrical signals indicative of the movements initiated by the riders as they maneuver through a programmed environment. The visual display provides stereoscopic "pupil forming" images of positional states of the hang glider to the riders at a fixed point of reference relative to the visual display.
Hang Gliding Simulation System With A Stereoscopic Display
US Patent:
5908300, Jun 1, 1999
Filed:
Dec 13, 1996
Appl. No.:
8/763717
Inventors:
Joe L. Walker - Salt Lake City UT
Paul C. Lyon - Sandy UT
Richard B. Linton - Salt Lake City UT
Rulon Nye - Salt Lake City UT
Ralph W. Fisher - Park City UT
Jeffrey B. Edwards - Salt Lake City UT
Clifford N. Cox - Salt Lake City UT
Paul C. Lyon - Sandy UT
Richard B. Linton - Salt Lake City UT
Rulon Nye - Salt Lake City UT
Ralph W. Fisher - Park City UT
Jeffrey B. Edwards - Salt Lake City UT
Clifford N. Cox - Salt Lake City UT
Assignee:
Evans & Sutherland Computer Corporation - Salt Lake City UT
International Classification:
G09B 924, G09B 934
US Classification:
434 43
Abstract:
The present invention is directed to a simulation system for simulating virtual reality experiences such as for the sport of hang gliding or the like. The simulation system has a stereoscopic and collimated virtual image display, for providing pupil forming simulated images to a rider at a fixed point of reference relative to the stereoscopic display. In the disclosed embodiment, the simulation system comprises a mechanical support structure for suspending the rider in a harness so as to allow freedom of movement. The rider is suspended to face a visual display over a movable control bar coupled to the mechanical support structure. By maneuvering the control bar, riders may view the results of their actions as by a simulated display. The visual display is coupled to the control bar to receive electrical signals indicative of the movements initiated by the riders as they maneuver through a programmed environment. The visual display provides stereoscopic "pupil forming" images of positional states of the hang glider to the riders at a fixed point of reference relative to the visual display.