A Partition-Based Framework for Building and Validating Regression Models

Regression models play a key role in many application domains for analyzing or predicting a quantitative dependent variable based on one or more independent variables. Automated approaches for building regression models are typically limited with respect to incorporating domain knowledge in the proc...

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Bibliographic Details
Published in:IEEE transactions on visualization and computer graphics 2013-12, Vol.19 (12), p.1962-1971
Main Authors: Muhlbacher, Thomas, Piringer, Harald
Format: Article
Language:English
Subjects:
Algorithms
Complexity theory
Computational modeling
Computer Graphics
Computer Simulation
data partitioning
Feature extraction
feature selection
Feedback
Frequency-domain analysis
guided visualization
Mathematical analysis
Mathematical models
model building
Modeling
Models, Statistical
Natural gas
Partitioning
Ranking
Regression
Regression Analysis
Reproducibility of Results
Sensitivity and Specificity
Studies
User-Computer Interface
Variables
visual knowledge discovery
Visualization
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Description
Summary:Regression models play a key role in many application domains for analyzing or predicting a quantitative dependent variable based on one or more independent variables. Automated approaches for building regression models are typically limited with respect to incorporating domain knowledge in the process of selecting input variables (also known as feature subset selection). Other limitations include the identification of local structures, transformations, and interactions between variables. The contribution of this paper is a framework for building regression models addressing these limitations. The framework combines a qualitative analysis of relationship structures by visualization and a quantification of relevance for ranking any number of features and pairs of features which may be categorical or continuous. A central aspect is the local approximation of the conditional target distribution by partitioning 1D and 2D feature domains into disjoint regions. This enables a visual investigation of local patterns and largely avoids structural assumptions for the quantitative ranking. We describe how the framework supports different tasks in model building (e.g., validation and comparison), and we present an interactive workflow for feature subset selection. A real-world case study illustrates the step-wise identification of a five-dimensional model for natural gas consumption. We also report feedback from domain experts after two months of deployment in the energy sector, indicating a significant effort reduction for building and improving regression models.
ISSN:1077-2626
1941-0506
DOI:10.1109/TVCG.2013.125