9 - 13 Jun 2025
London (UK)
Hotel : Landmark Office Space - Oxford Street
Cost : 5775 € Euro
ISO 5725 uses two terms, “trueness” and “precision”, to describe the accuracy of a measurement method. “Trueness” refers to the closeness of agreement between the expectation of a measurement result and a true value. "Precision" refers to the closeness of agreement between independent measurement results obtained under stipulated conditions.
Participants for this training course will learn:
specifies basic methods for estimating the bias of a measurement method and the laboratory bias when a measurement method is applied
provides a practical approach of a basic method for routine use in estimating the bias of measurement methods and laboratory bias
provides a brief guidance to all personnel concerned with designing, performing or analyzing the results of the measurements for estimating bias.
measurement methods which yield measurements on a continuous scale and give a single value as the measurement result, although the single value can be the outcome of a calculation from a set of observations.
the measurement method has been standardized and all measurements are carried out according to that measurement method.
This training is aimed for anyone looking to expand their knowledge of Accuracy (trueness and precision) of measurement methods and results.
Day 1
Introduction
Scope
Normative references
Terms and definitions
Symbols
Day 2
Determination of the bias of a standard measurement method by an interlaboratory experiment
Experimental design considerations
Objective
Layout of the experiment
Cross-references to ISO 5725-1 and ISO 5725-2
The statistical model
Required number of laboratories and measurements
Day 3
Requirements of the accepted reference value
Approaches to assigning the accepted reference value
Materials used in the experiment
Requirements of measurement uncertainty of the accepted reference value
Carrying out the experiment
Evaluation of precision
Check of precision
Estimation of the bias of the standard measurement method
Example
Day 4
Determination of the laboratory bias of one laboratory using a standard measurement method
Experimental design considerations
Objective
Layout of the experiment
Cross-references to ISO 5725-1 and ISO 5725-
The statistical model
Number of measurement results
Requirements of the accepted reference values
Day 5
Carrying out the experiment
Check of the within-laboratory standard deviation
Estimation of the laboratory bias
Report to the panel and decisions to be taken by the panel
Cross-reference to ISO 5725-2
Report by the statistical expert
Decisions by the panel