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README.md
In ImpactEffectsize: Calculation and Visualization of the Impact Effect Size Measure
ImpactEffectsize
An R package for calculating and visualizing the Impact effect size measure, which combines central tendency differences with morphological differences in data distribution shapes between two groups.
Overview
The Impact effect size measure provides a comprehensive assessment of differences between two groups by considering both:
- Central tendency component (CT): Differences in group medians normalized by the Gini Mean Difference
- Morphological component (Morph): Differences in the shapes of probability density functions using Pareto Density Estimation
This dual approach makes Impact particularly effective for detecting group differences that traditional effect size measures might miss, especially when groups have similar central tendencies but different distribution shapes.
Features
- Dual-component analysis: Combines location and shape-based differences
- Robust median-based calculations: Less sensitive to outliers than mean-based measures
- Pareto Density Estimation: Non-parametric approach for capturing distribution shape differences
- Built-in visualization: Optional density plot generation with customizable aesthetics
- Automatic data validation: Handles missing values and validates input requirements
- Kolmogorov-Smirnov integration: Uses KS test to assess distributional differences
Installation
You can install ImpactEffectsize from CRAN:
install.packages("ImpactEffectsize")
Or install the development version directly from GitHub:
devtools::install_github("JornLotsch/ImpactEffectsize")
For more information, visit the CRAN package page: https://cran.r-project.org/package=ImpactEffectsize
Dependencies
The package requires:
- caTools (for numerical integration)
- methods (for argument checking)
- matrixStats (for matrix operations)
- stats (for statistical functions)
Quick start
Basic usage
library(ImpactEffectsize)
# Load example data
data("FeatureselectionData")
# Calculate Impact effect size
result <- Impact(Data = FeatureselectionDataVar0011, Cls = FeatureselectionDataClasses)
# View results
print(resultImpact) # Main effect size measure print(resultCTDiff) # Central tendency component print(result$MorphDiff) # Morphological component
With visualization
# Calculate Impact with density plot
result <- Impact(Data = FeatureselectionDataVar0011, Cls = FeatureselectionDataClasses, PlotIt = TRUE, col = c("red", "blue"), meanLines = TRUE, medianLines = TRUE)
Main function: Impact()
Call
result <- Impact(Data, Cls, PlotIt = FALSE, pde = TRUE, col = c("red", "blue"), meanLines = FALSE, medianLines = FALSE, ...)
Parameters
| Parameter | Type | Default | Description |
|-----------|------|---------|-------------|
| Data | numeric vector | - | The data of both groups as a vector |
| Cls | vector | - | Class information vector of similar length as Data |
| PlotIt | logical | FALSE | Whether to plot the probability density functions |
| pde | logical | TRUE | Use Pareto density estimation (TRUE) vs standard density (FALSE) |
| col | character vector | c("red", "blue") | Colors for the two density lines in plots |
| meanLines | logical | FALSE | Add perpendicular lines at group means |
| medianLines | logical | FALSE | Add perpendicular lines at group medians |
| ... | - | - | Additional graphical parameters for plotting |
Output
| Output | Type | Description |
|--------|------|-------------|
| Impact | numeric | The main Impact effect size measure |
| CTDiff | numeric | Central tendency difference component |
| MorphDiff | numeric | Morphological difference component |
Examples
Example 1: Basic Impact calculation
data("FeatureselectionData") result <- Impact(Data = FeatureselectionDataVar0011, Cls = FeatureselectionDataClasses, PlotIt = TRUE)
cat("Impact Effect Size:", resultImpact, "\n") cat("CT Component:", resultCTDiff, "\n") cat("Morphological Component:", result$MorphDiff, "\n")
Example 2: Custom visualization
data("BcellLymphomaCD79") result <- Impact(Data = BcellLymphomaCD79SomeVariable, Cls = BcellLymphomaCD79Classes, PlotIt = TRUE, col = c("darkred", "darkblue"), meanLines = TRUE, medianLines = TRUE, main = "Impact Analysis with Reference Lines")
Interpretation
The Impact effect size measure ranges from 0 to positive values:
- 0: No meaningful difference between groups
- > 0: Increasing difference between groups
- Positive/Negative values: Direction indicates which group has higher central tendency
The measure combines:
- CTDiff: Captures location differences (similar to standardized mean difference)
- MorphDiff: Captures shape differences not detected by location-based measures
License
GPL-3
Citation
Lötsch J, Ultsch A. A non-parametric effect-size measure capturing changes in central tendency and data distribution shape. PLoS One. 2020 Sep 24;15(9):e0239623. doi: 10.1371/journal.pone.0239623. PMID: 32970758; PMCID: PMC7514071.
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ImpactEffectsize documentation built on Sept. 9, 2025, 5:49 p.m.
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
ImpactEffectsize
An R package for calculating and visualizing the Impact effect size measure, which combines central tendency differences with morphological differences in data distribution shapes between two groups.
Overview
The Impact effect size measure provides a comprehensive assessment of differences between two groups by considering both: - Central tendency component (CT): Differences in group medians normalized by the Gini Mean Difference - Morphological component (Morph): Differences in the shapes of probability density functions using Pareto Density Estimation
This dual approach makes Impact particularly effective for detecting group differences that traditional effect size measures might miss, especially when groups have similar central tendencies but different distribution shapes.
Features
- Dual-component analysis: Combines location and shape-based differences
- Robust median-based calculations: Less sensitive to outliers than mean-based measures
- Pareto Density Estimation: Non-parametric approach for capturing distribution shape differences
- Built-in visualization: Optional density plot generation with customizable aesthetics
- Automatic data validation: Handles missing values and validates input requirements
- Kolmogorov-Smirnov integration: Uses KS test to assess distributional differences
Installation
You can install ImpactEffectsize from CRAN:
install.packages("ImpactEffectsize")
Or install the development version directly from GitHub:
devtools::install_github("JornLotsch/ImpactEffectsize")
For more information, visit the CRAN package page: https://cran.r-project.org/package=ImpactEffectsize
Dependencies
The package requires:
- caTools (for numerical integration)
- methods (for argument checking)
- matrixStats (for matrix operations)
- stats (for statistical functions)
Quick start
Basic usage
library(ImpactEffectsize)
# Load example data
data("FeatureselectionData")
# Calculate Impact effect size
result <- Impact(Data = FeatureselectionDataVar0011, Cls = FeatureselectionDataClasses)
# View results
print(resultImpact) # Main effect size measure print(resultCTDiff) # Central tendency component print(result$MorphDiff) # Morphological component
With visualization
# Calculate Impact with density plot
result <- Impact(Data = FeatureselectionDataVar0011, Cls = FeatureselectionDataClasses, PlotIt = TRUE, col = c("red", "blue"), meanLines = TRUE, medianLines = TRUE)
Main function: Impact()
Call
result <- Impact(Data, Cls, PlotIt = FALSE, pde = TRUE, col = c("red", "blue"), meanLines = FALSE, medianLines = FALSE, ...)
Parameters
| Parameter | Type | Default | Description |
|-----------|------|---------|-------------|
| Data | numeric vector | - | The data of both groups as a vector |
| Cls | vector | - | Class information vector of similar length as Data |
| PlotIt | logical | FALSE | Whether to plot the probability density functions |
| pde | logical | TRUE | Use Pareto density estimation (TRUE) vs standard density (FALSE) |
| col | character vector | c("red", "blue") | Colors for the two density lines in plots |
| meanLines | logical | FALSE | Add perpendicular lines at group means |
| medianLines | logical | FALSE | Add perpendicular lines at group medians |
| ... | - | - | Additional graphical parameters for plotting |
Output
| Output | Type | Description |
|--------|------|-------------|
| Impact | numeric | The main Impact effect size measure |
| CTDiff | numeric | Central tendency difference component |
| MorphDiff | numeric | Morphological difference component |
Examples
Example 1: Basic Impact calculation
data("FeatureselectionData") result <- Impact(Data = FeatureselectionDataVar0011, Cls = FeatureselectionDataClasses, PlotIt = TRUE)
cat("Impact Effect Size:", resultImpact, "\n") cat("CT Component:", resultCTDiff, "\n") cat("Morphological Component:", result$MorphDiff, "\n")
Example 2: Custom visualization
data("BcellLymphomaCD79") result <- Impact(Data = BcellLymphomaCD79SomeVariable, Cls = BcellLymphomaCD79Classes, PlotIt = TRUE, col = c("darkred", "darkblue"), meanLines = TRUE, medianLines = TRUE, main = "Impact Analysis with Reference Lines")
Interpretation
The Impact effect size measure ranges from 0 to positive values: - 0: No meaningful difference between groups - > 0: Increasing difference between groups - Positive/Negative values: Direction indicates which group has higher central tendency
The measure combines: - CTDiff: Captures location differences (similar to standardized mean difference) - MorphDiff: Captures shape differences not detected by location-based measures
License
GPL-3
Citation
Lötsch J, Ultsch A. A non-parametric effect-size measure capturing changes in central tendency and data distribution shape. PLoS One. 2020 Sep 24;15(9):e0239623. doi: 10.1371/journal.pone.0239623. PMID: 32970758; PMCID: PMC7514071.
Try the ImpactEffectsize package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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