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R-Lum · Feb 16, 2024 · 4c4ce86 · 4c4ce86
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diff --git a/.zenodo.json b/.zenodo.json
@@ -16,10 +16,10 @@
       "resource_type": "software"
     }
   ],
-  "version": "0.9.24.9000-15",
+  "version": "0.9.24.9000-18",
   "upload_type": "software",
   "keywords": ["Luminescence", "Luminescence dating", "Chronology", "Age models"],
-  "publication_date": "2024-02-12",
+  "publication_date": "2024-02-16",
   "creators": [
     {
       "orcid": "0000-0002-0734-2199",

diff --git a/DESCRIPTION b/DESCRIPTION
@@ -1,8 +1,8 @@
 Package: Luminescence
 Type: Package
 Title: Comprehensive Luminescence Dating Data Analysis
-Version: 0.9.24.9000-15
-Date: 2024-02-12
+Version: 0.9.24.9000-18
+Date: 2024-02-16
 Author: Sebastian Kreutzer [aut, trl, cre, dtc] (<https://orcid.org/0000-0002-0734-2199>),
     Christoph Burow [aut, trl, dtc] (<https://orcid.org/0000-0002-5023-4046>),
     Michael Dietze [aut] (<https://orcid.org/0000-0001-6063-1726>),

diff --git a/...escence-Ex.timings.0.9.24.9000-15.WARNING → ...escence-Ex.timings.0.9.24.9000-18.WARNING b/...escence-Ex.timings.0.9.24.9000-15.WARNING → ...escence-Ex.timings.0.9.24.9000-18.WARNING
diff --git a/...escence-TimingExamples.0.9.24.9000-15.pdf → ...escence-TimingExamples.0.9.24.9000-18.pdf b/...escence-TimingExamples.0.9.24.9000-15.pdf → ...escence-TimingExamples.0.9.24.9000-18.pdf
diff --git a/Luminescence.BuildResults/Luminescence_0.9.24.9000-15.tar.gz b/Luminescence.BuildResults/Luminescence_0.9.24.9000-15.tar.gz
diff --git a/...Luminescence_0.9.24.9000-15-Functions.csv → ...Luminescence_0.9.24.9000-18-Functions.csv b/...Luminescence_0.9.24.9000-15-Functions.csv → ...Luminescence_0.9.24.9000-18-Functions.csv
@@ -58,7 +58,7 @@
 ",NA,NA,"Sebastian Kreutzer, Institute of Geography, Heidelberg University (Germany)<br /> , RLum Developer Team",NA
 "calc_HomogeneityTest","Apply a simple homogeneity test after Galbraith (2003)","A simple homogeneity test for De estimates","0.3.0
 ",NA,NA,"Christoph Burow, University of Cologne (Germany), Sebastian Kreutzer,<br /> IRAMAT-CRP2A, Université Bordeaux Montaigne (France)<br /> , RLum Developer Team",NA
-"calc_Huntley2006","Apply the Huntley (2006) model","A function to calculate the expected sample specific fraction of saturation based on the model of Huntley (2006) using the approach as implemented in Kars et al. (2008) or Guralnik et al. (2015).","0.4.2
+"calc_Huntley2006","Apply the Huntley (2006) model","A function to calculate the expected sample specific fraction of saturation based on the model of Huntley (2006) using the approach as implemented in Kars et al. (2008) or Guralnik et al. (2015).","0.4.3
 ",NA,NA,"Georgina E. King, University of Lausanne (Switzerland)  <br /> Christoph Burow, University of Cologne (Germany)  <br /> Sebastian Kreutzer, Ruprecht-Karl University of Heidelberg (Germany)<br /> , RLum Developer Team",NA
 "calc_IEU","Apply the internal-external-uncertainty (IEU) model after Thomsen et al.<br /> (2007) to a given De distribution","Function to calculate the IEU De for a De data set.","0.1.1
 ",NA,NA,"Rachel Smedley, Geography & Earth Sciences, Aberystwyth University (United Kingdom)  <br /> Based on an excel spreadsheet and accompanying macro written by Kristina Thomsen.<br /> , RLum Developer Team",NA
@@ -184,7 +184,7 @@
 ",NA,NA,"Sebastian Kreutzer, Institute of Geography, Heidelberg University (Germany) <br /> Michael Dietze, GFZ Potsdam (Germany)<br /> , RLum Developer Team",NA
 "plot_FilterCombinations","Plot filter combinations along with the (optional) net transmission window","The function allows to plot transmission windows for different filters. Missing data for specific wavelengths are automatically interpolated for the given filter data using the function  approx . With that a standardised output is reached and a net transmission window can be shown.","0.3.2
 ",NA,NA,"Sebastian Kreutzer, Institute of Geography, Heidelberg University (Germany)<br /> , RLum Developer Team",NA
-"plot_GrowthCurve","Fit and plot a dose-response curve for luminescence data (Lx/Tx against dose)","A dose-response curve is produced for luminescence measurements using a regenerative or additive protocol. The function supports interpolation and extrapolation to calculate the equivalent dose.","1.11.10
+"plot_GrowthCurve","Fit and plot a dose-response curve for luminescence data (Lx/Tx against dose)","A dose-response curve is produced for luminescence measurements using a regenerative or additive protocol. The function supports interpolation and extrapolation to calculate the equivalent dose.","1.11.11
 ",NA,NA,"Sebastian Kreutzer, Institute of Geography, Heidelberg University (Germany) <br /> Michael Dietze, GFZ Potsdam (Germany)<br /> , RLum Developer Team",NA
 "plot_Histogram","Plot a histogram with separate error plot","Function plots a predefined histogram with an accompanying error plot as suggested by Rex Galbraith at the UK LED in Oxford 2010.","0.4.5
 ",NA,NA,"Michael Dietze, GFZ Potsdam (Germany) <br /> Sebastian Kreutzer, Institute of Geography, Heidelberg University (Germany)<br /> , RLum Developer Team",NA

diff --git a/...uminescence_0.9.24.9000-15-Functions.html → ...uminescence_0.9.24.9000-18-Functions.html b/...uminescence_0.9.24.9000-15-Functions.html → ...uminescence_0.9.24.9000-18-Functions.html
@@ -1,6 +1,6 @@
 
 <p class='character'><h2 align="center">Major functions in the R package 'Luminescence'</h2>
-           <h4 align="center"> [version: 0.9.24.9000-15 ]</h4>
+           <h4 align="center"> [version: 0.9.24.9000-18 ]</h4>
            <style type="text/css">
            <!--
 
@@ -729,7 +729,7 @@ <h4 align="center"> [version: 0.9.24.9000-15 ]</h4>
 </td>
 <td class=cellinside>A function to calculate the expected sample specific fraction of saturation based on the model of Huntley (2006) using the approach as implemented in Kars et al. (2008) or Guralnik et al. (2015).
 </td>
-<td class=cellinside>0.4.2
+<td class=cellinside>0.4.3
 
 </td>
 <td class=cellinside> 
@@ -2242,7 +2242,7 @@ <h4 align="center"> [version: 0.9.24.9000-15 ]</h4>
 </td>
 <td class=cellinside>A dose-response curve is produced for luminescence measurements using a regenerative or additive protocol. The function supports interpolation and extrapolation to calculate the equivalent dose.
 </td>
-<td class=cellinside>1.11.10
+<td class=cellinside>1.11.11
 
 </td>
 <td class=cellinside> 
@@ -3258,7 +3258,7 @@ <h4 align="center"> [version: 0.9.24.9000-15 ]</h4>
  <br>
 
 <p class='character'><h2 align="center">Major functions in the R package 'Luminescence'</h2>
-           <h4 align="center"> [version: 0.9.24.9000-15 ]</h4>
+           <h4 align="center"> [version: 0.9.24.9000-18 ]</h4>
            <style type="text/css">
            <!--
 
@@ -3987,7 +3987,7 @@ <h4 align="center"> [version: 0.9.24.9000-15 ]</h4>
 </td>
 <td class=cellinside>A function to calculate the expected sample specific fraction of saturation based on the model of Huntley (2006) using the approach as implemented in Kars et al. (2008) or Guralnik et al. (2015).
 </td>
-<td class=cellinside>0.4.2
+<td class=cellinside>0.4.3
 
 </td>
 <td class=cellinside> 
@@ -5500,7 +5500,7 @@ <h4 align="center"> [version: 0.9.24.9000-15 ]</h4>
 </td>
 <td class=cellinside>A dose-response curve is produced for luminescence measurements using a regenerative or additive protocol. The function supports interpolation and extrapolation to calculate the equivalent dose.
 </td>
-<td class=cellinside>1.11.10
+<td class=cellinside>1.11.11
 
 </td>
 <td class=cellinside> 

diff --git a/...Luminescence_0.9.24.9000-15-Functions.tex → ...Luminescence_0.9.24.9000-18-Functions.tex b/...Luminescence_0.9.24.9000-15-Functions.tex → ...Luminescence_0.9.24.9000-18-Functions.tex
@@ -63,7 +63,7 @@
  &  &  & Sebastian Kreutzer, Institute of Geography, Heidelberg University (Germany)$<$br /$>$ , RLum Developer Team &  \\ 
   32 & calc\_HomogeneityTest & Apply a simple homogeneity test after Galbraith (2003) & A simple homogeneity test for De estimates & 0.3.0
  &  &  & Christoph Burow, University of Cologne (Germany), Sebastian Kreutzer,$<$br /$>$ IRAMAT-CRP2A, Université Bordeaux Montaigne (France)$<$br /$>$ , RLum Developer Team &  \\ 
-  33 & calc\_Huntley2006 & Apply the Huntley (2006) model & A function to calculate the expected sample specific fraction of saturation based on the model of Huntley (2006) using the approach as implemented in Kars et al. (2008) or Guralnik et al. (2015). & 0.4.2
+  33 & calc\_Huntley2006 & Apply the Huntley (2006) model & A function to calculate the expected sample specific fraction of saturation based on the model of Huntley (2006) using the approach as implemented in Kars et al. (2008) or Guralnik et al. (2015). & 0.4.3
  &  &  & Georgina E. King, University of Lausanne (Switzerland)  $<$br /$>$ Christoph Burow, University of Cologne (Germany)  $<$br /$>$ Sebastian Kreutzer, Ruprecht-Karl University of Heidelberg (Germany)$<$br /$>$ , RLum Developer Team &  \\ 
   34 & calc\_IEU & Apply the internal-external-uncertainty (IEU) model after Thomsen et al.$<$br /$>$ (2007) to a given De distribution & Function to calculate the IEU De for a De data set. & 0.1.1
  &  &  & Rachel Smedley, Geography \& Earth Sciences, Aberystwyth University (United Kingdom)  $<$br /$>$ Based on an excel spreadsheet and accompanying macro written by Kristina Thomsen.$<$br /$>$ , RLum Developer Team &  \\ 
@@ -189,7 +189,7 @@
  &  &  & Sebastian Kreutzer, Institute of Geography, Heidelberg University (Germany) $<$br /$>$ Michael Dietze, GFZ Potsdam (Germany)$<$br /$>$ , RLum Developer Team &  \\ 
   105 & plot\_FilterCombinations & Plot filter combinations along with the (optional) net transmission window & The function allows to plot transmission windows for different filters. Missing data for specific wavelengths are automatically interpolated for the given filter data using the function  approx . With that a standardised output is reached and a net transmission window can be shown. & 0.3.2
  &  &  & Sebastian Kreutzer, Institute of Geography, Heidelberg University (Germany)$<$br /$>$ , RLum Developer Team &  \\ 
-  106 & plot\_GrowthCurve & Fit and plot a dose-response curve for luminescence data (Lx/Tx against dose) & A dose-response curve is produced for luminescence measurements using a regenerative or additive protocol. The function supports interpolation and extrapolation to calculate the equivalent dose. & 1.11.10
+  106 & plot\_GrowthCurve & Fit and plot a dose-response curve for luminescence data (Lx/Tx against dose) & A dose-response curve is produced for luminescence measurements using a regenerative or additive protocol. The function supports interpolation and extrapolation to calculate the equivalent dose. & 1.11.11
  &  &  & Sebastian Kreutzer, Institute of Geography, Heidelberg University (Germany) $<$br /$>$ Michael Dietze, GFZ Potsdam (Germany)$<$br /$>$ , RLum Developer Team &  \\ 
   107 & plot\_Histogram & Plot a histogram with separate error plot & Function plots a predefined histogram with an accompanying error plot as suggested by Rex Galbraith at the UK LED in Oxford 2010. & 0.4.5
  &  &  & Michael Dietze, GFZ Potsdam (Germany) $<$br /$>$ Sebastian Kreutzer, Institute of Geography, Heidelberg University (Germany)$<$br /$>$ , RLum Developer Team &  \\