English

Estimating dynamic mechanical quantities and their associated uncertainties: application guidance

Systems and Control 2018-11-12 v1

Abstract

Recently several European National Measurement Institutes have established traceable calibration methods for dynamic mechanical quantities, e.g., dynamic force, torque and pressure. However, the use in industry and elsewhere of dynamic calibration information provided on certificates is not straightforward. Typically it is necessary to employ deconvolution techniques to obtain estimates of measurands, and the deconvolution method itself and the associated algorithms are sources of uncertainty that must be included in uncertainty budgets. There is a need for practical guidance for end users on how to use the newly-available dynamic calibration information. To this end we set out an approach to the evaluation of uncertainties associated with dynamic measurements that we believe covers the most relevant cases. The methods have been embodied in publicly-available software and we show how they can be used to tackle some example problems. We believe that the methods lead to more reliable estimates of the relevant measurands and their associated uncertainties.

Keywords

Cite

@article{arxiv.1808.09652,
  title  = {Estimating dynamic mechanical quantities and their associated uncertainties: application guidance},
  author = {Trevor Esward and Sascha Eichstädt and Ian Smith and Thomas Bruns and Peter Davis and Peter Harris},
  journal= {arXiv preprint arXiv:1808.09652},
  year   = {2018}
}

Comments

21 pages, 10 figures

R2 v1 2026-06-23T03:47:30.116Z