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Commit 602a3e57 authored by Daniel Hutzschenreuter's avatar Daniel Hutzschenreuter
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<?xml version="1.0" encoding="UTF-8"?>
<examples id="EXAMPLES_03_list">
<!--###########################
# Examples of lists with real quantities
#-->
<!-- atomic list of real quantities -->
<si:list>
<si:real>
<si:value>2.34</si:value>
<si:unit>\metre</si:unit>
</si:real>
<si:real>
<si:value>3.34</si:value>
<si:unit>\metre</si:unit>
</si:real>
<si:real>
<si:value>4.34</si:value>
<si:unit>\metre</si:unit>
</si:real>
</si:list>
<!-- basic list of real quantities with
global expanded measurement uncertainty -->
<si:list>
<si:real>
<si:value>2.34</si:value>
<si:unit>\metre</si:unit>
</si:real>
<si:real>
<si:value>3.34</si:value>
<si:unit>\metre</si:unit>
</si:real>
<!-- global uncertainty statement -->
<si:uncertainty>0.01</si:uncertainty>
<si:coverageFactor>2</si:coverageFactor>
<si:coverageProbability>0.95</si:coverageProbability>
<si:distribution>normal</si:distribution>
</si:list>
<!-- basic list of real quantities
- global unit-->
<si:list>
<si:real>
<si:value>2.34</si:value>
</si:real>
<si:real>
<si:value>3.34</si:value>
</si:real>
<si:real>
<si:value>4.34</si:value>
</si:real>
<si:unit>\metre</si:unit>
</si:list>
<!-- basic list of real quantities
- various labels -->
<si:list>
<si:real>
<si:value>2.34</si:value>
<si:unit>\metre</si:unit>
<!-- local label of real quantity -->
<si:label>length of standard</si:label>
</si:real>
<si:real>
<si:value>3.34</si:value>
<si:unit>\kilogram</si:unit>
<!-- local label of real quantity -->
<si:label>mass of standard</si:label>
</si:real>
<si:real>
<si:value>4.34</si:value>
<si:unit>\ampere</si:unit>
</si:real>
<!-- global label of list -->
<si:label>vector-quantity</si:label>
</si:list>
<!-- basic list of real quantities with hyper-ellipsoid coverage region
- Details on the options for stating coverage regions are defined
in file Examples_04_coverageRegions.xml.-->
<si:list>
<si:real>
<si:value>2.34</si:value>
<si:unit>\metre</si:unit>
</si:real>
<si:real>
<si:value>3.34</si:value>
<si:unit>\metre</si:unit>
</si:real>
<!-- element for elliptic region -->
<si:ellipsoidRegion>
[..]
</si:ellipsoidRegion>
</si:list>
<!-- basic list of real quantities with hyper-rectangle coverage region
- Details on the options for stating coverage regions are defined
in file Examples_04_coverageRegions.xml.-->
<si:list>
<si:real>
<si:value>2.34</si:value>
<si:unit>\metre</si:unit>
</si:real>
<si:real>
<si:value>3.34</si:value>
<si:unit>\metre</si:unit>
</si:real>
<!-- element for rectangle region -->
<si:rectangleRegion>
[..]
</si:rectangleRegion>
</si:list>
<!--###########################
# Examples of forbidden combinations with lists of real quantities
#-->
<!-- forbidden mix of local and global uncertainties
- also applicable for global and local units -->
<si:list>
<si:real>
<si:value>2.34</si:value>
<si:unit>\metre</si:unit>
<!-- forbidden local uncertainty statement -->
<si:uncertainty>0.01</si:uncertainty>
<si:coverageFactor>2</si:coverageFactor>
<si:coverageProbability>0.95</si:coverageProbability>
<si:distribution>normal</si:distribution>
</si:real>
<si:real>
<si:value>3.34</si:value>
<si:unit>\metre</si:unit>
</si:real>
<!-- global uncertainty statement -->
<si:uncertainty>0.01</si:uncertainty>
<si:coverageFactor>2</si:coverageFactor>
<si:coverageProbability>0.95</si:coverageProbability>
<si:distribution>normal</si:distribution>
</si:list>
<!--###########################
# Examples of lists with complex quantities.
# Due to simplicity it is only presented for option B and D.
# Options A and C add more components to the examples for B and D.
# The basic concept is not different to B and D.
#-->
<!-- list of complex quantities (option B) -->
<si:list>
<si:complex>
<si:value1>-10.3</si:value1>
<si:value2>0.0</si:value2>
<si:unit>\metre</si:unit>
</si:complex>
<si:complex>
<si:value1>-10.3</si:value1>
<si:value2>0.0</si:value2>
<si:unit>\metre</si:unit>
</si:complex>
</si:list>
<!-- list of complex quantities (option B.1)
with global bivariate uncertainty -->
<si:list>
<!-- list of complex quantities -->
<si:complex>
<si:value1>-10.3</si:value1>
<si:value2>0.0</si:value2>
<si:unit>\metre</si:unit>
</si:complex>
<si:complex>
<si:value1>-10.3</si:value1>
<si:value2>0.0</si:value2>
<si:unit>\metre</si:unit>
</si:complex>
<!-- global bivariate uncertainty -->
<si:uncertainty1>0.1</si:uncertainty1>
<si:uncertainty2>0.2</si:uncertainty2>
<si:covariance>-0.5</si:covariance>
<si:coverageFactor>2.80</si:coverageFactor>
<si:coverageProbability>0.95</si:coverageProbability>
</si:list>
<!-- list of complex quantities (option B.2)
with global bivariate uncertainty -->
<si:list>
<!-- list of complex quantities -->
<si:complex>
<si:value1>-10.3</si:value1>
<si:value2>0.0</si:value2>
<si:unit>\metre</si:unit>
</si:complex>
<si:complex>
<si:value1>-10.3</si:value1>
<si:value2>0.0</si:value2>
<si:unit>\metre</si:unit>
</si:complex>
<!-- multivariate uncertainty -->
<si:ellipsoidRegion>
<!-- covariance matrix (2x2) -->
<si:uncertainty>0.2</si:uncertainty>
<si:covariance>-0.5</si:covariance>
<si:uncertainty>0.2</si:uncertainty>
<!-- coverage information -->
<si:coverageFactor>2.80</si:coverageFactor>
<si:coverageProbability>0.95</si:coverageProbability>
<si:distribution>normal</si:distribution>
</si:ellipsoidRegion>
</si:list>
<!-- list of complex quantities (option B)
with multivariate uncertainty -->
<si:list>
<!-- list of complex quantities -->
<si:complex>
<si:value1>-10.3</si:value1>
<si:value2>0.0</si:value2>
<si:unit>\metre</si:unit>
</si:complex>
<si:complex>
<si:value1>-10.3</si:value1>
<si:value2>0.0</si:value2>
<si:unit>\metre</si:unit>
</si:complex>
<!-- multivariate uncertainty -->
<si:ellipsoidRegion>
<!-- covariance matrix (4x4) -->
<si:uncertainty>0.1</si:uncertainty>
<si:covariance>-0.5</si:covariance>
<si:covariance>-0.5</si:covariance>
<si:covariance>-0.5</si:covariance>
<si:uncertainty>0.2</si:uncertainty>
<si:covariance>-0.5</si:covariance>
<si:covariance>-0.5</si:covariance>
<si:uncertainty>0.2</si:uncertainty>
<si:covariance>-0.5</si:covariance>
<si:uncertainty>0.2</si:uncertainty>
<!-- coverage information -->
<si:coverageFactor>2.80</si:coverageFactor>
<si:coverageProbability>0.95</si:coverageProbability>
<si:distribution>normal</si:distribution>
</si:ellipsoidRegion>
</si:list>
</examples>
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