VisGBT: Visually Analyzing Evolving Datasets for Adaptive LearningProceedings of the 5th International Conference on Collaborative Computing, Networking, Applications and Worksharing
Document TypeConference Proceeding
Catalog RecordCatalog Record
AbstractMany machine learning problems involve changes in both feature distribution and label distribution, such as domain adaptation and learning drifting concepts from data streams. Correctly detecting, identifying, and understanding the changes of data distributions can help us properly select data samples or algorithms for learning models. However, since the training datasets are often in high dimensionality and large size, it has been difficult to effectively analyze them. Furthermore, the joint distribution between features and labels makes the problem more difficult to handle. In this paper, we propose a visual analysis method (VisGBT) that combines the gradient-boosting-trees (GBT) modeling method, regression analysis, and multidimensional visualization to capture the mismatches between datasets and models. The GBT model consists of a series of trees with a predefined number of terminal (leaf) nodes per tree. These terminal nodes partition the high dimensional space with a few most informative features to minimize the label prediction error. VisGBT maps various kinds of detailed model information to the terminal node matrix (TNM) and visualizes it with an appropriate design. With this visual analysis method, we can easily find out the detailed differences between datasets with the help of a learned model. We will illustrate the use of various visual patterns and in particular show how this method can help us analyze domain similarity for domain adaptation.
Citation InformationKeke Chen and Fengguang Tian. "VisGBT: Visually Analyzing Evolving Datasets for Adaptive Learning" Proceedings of the 5th International Conference on Collaborative Computing, Networking, Applications and Worksharing (2009) p. 1 - 10 ISSN: 9789639799769
Available at: http://works.bepress.com/keke_chen/27/