Title :
Propagation of uncertainty in modular measurement systems
Author_Institution :
Meas. Stand. Lab., Ind. Res. Ltd., Lower Hutt, New Zealand
Abstract :
A method is described for designing modular instrumentation systems and software frameworks that inherently propagate measurement uncertainty according to current international best-practice. The method uses a mathematical procedure that is equivalent to the \´Law of Propagation of Uncertainty\´ presented in the "Guide to the Expression of Uncertainty in Measurement [International Organization for Standardization, Geneva, 1995]. System components implement a simple communications interface which allows module details to be fully encapsulated. Advantages include: automated uncertain evaluation, simple conceptual design framework, supports dynamic module changes for plug-and-play operation, simplifies testing and validation.
Keywords :
ISO standards; measurement systems; measurement uncertainty; GUM ISO; automated uncertain evaluation; communications interface; dynamic module; measurement uncertainty; modular instrumentation systems; modular measurement systems; plug-and-play operation; software frameworks; uncertainty propagation; Application software; Automatic testing; Equations; Guidelines; ISO; Instruments; Laboratories; Measurement standards; Measurement uncertainty; Software systems;
Conference_Titel :
Advanced Methods for Uncertainty Estimation in Measurement, 2005. Proceedings of the 2005 IEEE International Workshop on
Print_ISBN :
0-7803-8979-4
DOI :
10.1109/AMUEM.2005.1594608
