The proposed metrological model of automated tests allows to determine the metrological characteristics of measurement means using data from their static and dynamic calibrations. Knowledge of these characteristics provides an ability to examine their impact on the accuracy of test results for the purposes of estimating statistical uncertainties caused by instrumentation errors and eliminating biases that occur as a consequence of inertial properties of measurement means.
Optimization of requirements for measurement errors to ensure a given accuracy of test results is discussed as well.
Proposed approaches and described methods are illustrated by test examples of turbomachinery products.
The proposed metrological model of automated tests allows to determine the metrological characteristics of measurement means using data from their static and dynamic calibrations. Knowledge of these characteristics provides an ability to examine their impact on the accuracy of test results for the purposes of estimating statistical uncertainties caused by instrumentation errors and eliminating biases that occur as a consequence of inertial properties of measurement means.
Optimization of requirements for measurement errors to ensure a given accuracy of test results is discussed as well.
Proposed approaches and described methods are illustrated by test examples of turbomachinery products.
Metrology of Automated Tests: Static and Dynamic Characteristics
114
Metrology of Automated Tests: Static and Dynamic Characteristics
114Paperback
Product Details
| ISBN-13: | 9783110666649 |
|---|---|
| Publisher: | De Gruyter |
| Publication date: | 04/06/2020 |
| Series: | De Gruyter STEM |
| Pages: | 114 |
| Product dimensions: | 6.69(w) x 9.45(h) x (d) |
| Age Range: | 18 Years |