An entire course, as well as an excellent desk reference, this edition presents students and professionals in engineering and science with a comprehensive tutorial of measurement uncertainty methods in a logically categorized and easy to use format.
What is new? - More detailed examples of uncertainty computation
- Discussion of new uncertainty technologies in U.S. and international standards, and their strengths and weaknesses
- A discussion of the rationale for the choice of the uncertainty model, ISO or ASME
- An abbreviated approach to uncertainty estimation
- An improved accumulation of the important equations in uncertainty analysis
This edition also focuses on: - Basics of the measurement uncertainty model
- Nonsymmetrical, systematic standard uncertainties
- Random standard uncertainties; the use of correlation
- Curve-fitting problems
- Probability plotting
- Combining results from different test methods
- Calibration errors
- Uncertainty propagation for both independent and dependent error sources
The author draws on years of experience in the industry to direct special attention to the problem of developing confidence in uncertainty analysis results and using measurement uncertainty to select instrumentation systems.
Auflage
Sprache
Verlagsort
Research Triangle Park
USA
Zielgruppe
Editions-Typ
Maße
Höhe: 229 mm
Breite: 152 mm
Gewicht
ISBN-13
978-1-941546-94-9 (9781941546949)
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Schweitzer Klassifikation
Ronald H. Dieck is an ISA Fellow and President of Ron Dieck Associates, Inc., an engineering consulting firm in Palm Beach Gardens, Florida. He possesses more than 35 years of experience in measurement uncertainty methods and applications for flow, temperature, pressure, gas analysis, and metrology, and the testing of instrumentation, temperature, thermocouples, air pollution, and gas analysis.
