Abstract
Interest in Measurement Uncertainty Analysis has grown in the past several years as it has spread to new fields of application, and research and development of uncertainty methodologies have continued. This paper discusses the subject from the perspectives of both research and calibration environments. It presents a history of the development and an overview of the principles of uncertaintyanalysis embodied in the United States National Standard, ANSI/ASME PTC 19.1-1985, Measurement Uncertainty. Examples are presented in which uncertainty analysis was utilized or is needed to gain further knowledge of a particular measurement process and to characterize final results. Measurement uncertainty analysis provides a quantitative estimate of the interval about a measured value or anexperiment result within which the true value of that quantity is expected to lie.
Original language | American English |
---|---|
Number of pages | 21 |
State | Published - 1992 |
Event | 3rd Annual Infrared Radiometric Sensor Calibration Symposium - Logan, Utah Duration: 14 Sep 1992 → 17 Sep 1992 |
Conference
Conference | 3rd Annual Infrared Radiometric Sensor Calibration Symposium |
---|---|
City | Logan, Utah |
Period | 14/09/92 → 17/09/92 |
Bibliographical note
Prepared for the 3rd Annual Infrared Radiometric Sensor Calibration Symposium, 14-17 September 1992, Logan, UtahNREL Publication Number
- NREL/TP-411-5165
Keywords
- experimentation
- radiometry
- standards