Dr. O. Manuel Uy
Supervisor at Johns Hopkins Univ
SPIE Involvement:
Conference Program Committee | Conference Chair | Conference Co-Chair | Author | Instructor
Publications (41)

PROCEEDINGS ARTICLE | May 17, 2011
Proc. SPIE. 8035, Energy Harvesting and Storage: Materials, Devices, and Applications II
KEYWORDS: Logic, Safety, Sensors, Temperature sensors, Applied physics, Environmental sensing, Fuzzy logic, Temperature metrology, Phase shifts, Ranging

PROCEEDINGS ARTICLE | September 7, 2006
Proc. SPIE. 6291, Optical Systems Degradation, Contamination, and Stray Light: Effects, Measurements, and Control II
KEYWORDS: Diffractive optical elements, Coating, Manufacturing, Resistance, Corrosion, Chromium, Resistors, Space operations, Failure analysis, Oxidation

PROCEEDINGS ARTICLE | October 15, 2004
Proc. SPIE. 5526, Optical Systems Degradation, Contamination, and Stray Light: Effects, Measurements, and Control
KEYWORDS: Telescopes, Contamination, Sun, Sensors, Satellites, Data acquisition, Space telescopes, Space operations, Environmental sensing, Cryogenics

PROCEEDINGS ARTICLE | September 11, 2002
Proc. SPIE. 4774, Optical System Contamination: Effects, Measurements, and Control VII
KEYWORDS: Contamination, Data modeling, Sensors, Quartz, Crystals, Space telescopes, Photonic integrated circuits, Analog electronics, Space operations, Temperature metrology

Showing 5 of 41 publications
Conference Committee Involvement (6)
Optical System Contamination: Effects, Measurements, and Control 2012
13 August 2012 | San Diego, California, United States
Optical System Contamination: Effects, Measurements, and Control 2010
3 August 2010 | San Diego, California, United States
Optical System Contamination: Effects, Measurements and Control IX
15 August 2006 | San Diego, California, United States
Optical System Contamination: Effects, Measurements, and Control VIII
2 August 2004 | Denver, Colorado, United States
Optical System Contamination: Effects, Measurements and Control VII
10 July 2002 | Seattle, WA, United States
Showing 5 of 6 published special sections
Course Instructor
SC793: Practical Design of Experiments for Scientists and Engineers
This course will enable the participant to plan the most cost-effective experiment or test which will result with a successful conclusion of the experiment or test objectives. It will show how properly designed tests are easily analyzed and prepared for presentation in a report or paper. Many companies are reporting significant savings and increased productivity from their engineering, process control and R&D professionals. These companies apply statistical methods and statistically-designed experiments to their critical manufacturing processes, product designs, and laboratory experiments. Multifactor experimentation, often called Design of Experiments (DOE), will be shown to increase efficiencies, improve product quality, and decrease costs. This first course in experimental design will start you into statistical planning before you actually start taking data and will guide you to perform hands-on analysis of your results immediately after completing the last experimental run. During the course, you will learn how to design practical full factorial and fractional factorial experiments. You will learn how to systematically manipulate many variables simultaneously to discover the few major factors affecting performance and to develop a mathematical model of the actual instruments. The course is taught with each participant assigned to a group that performs statistical analysis using a demo version of modern statistical software. At the end of this course, participants will be able to design experiments and analyze them on their own desktop computers. Because emphasis of the course is on practical implementation of DOE, each participant is highly encouraged to bring a laptop computer.
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