Efficient Knowledge Discovery in Subspaces of High Dimensional Databases

In many recent applications such as sensor network analysis, customer segmentation or gene expression analysis tremendous amount of data is gathered. As collecting and storing of data is cheap, users tend to record everything they can. Thus, in today's applications for each object one uses many attributes to provide as much information as possible. However, the valuable knowledge to be learned out of this information is hidden in subsets of the given attributes. Considering any of these subspaces one expands the search space significantly. This poses novel challenges to data mining techniques which aim at extracting this knowledge out of high dimensional databases.

 

This work has its focus on clustering as one of the main data mining tasks. Clustering is an established technique for grouping objects based on mutual similarity. As traditional clustering approaches are unable to detect clusters hidden in subspaces of high dimensional databases, recent subspace clustering models have been proposed that detect groups of similar objects in any subset of the given attributes. However, as the number of possible subspaces scales exponentially with the number of attributes, development of efficient techniques is crucial for knowledge discovery in subspaces of high dimensional databases.

 

In this work we propose both novel subspace clustering models aiming at high quality results and efficient processing schemes for these models. We start with novel subspace cluster definitions ensuring the detection of clusters in arbitrary subspaces. We highlight the general challenges of redundancy in recent subspace clustering models and propose novel non-redundant subspace clustering definitions. In this context, our aim is to reduce result sizes to all and only novel knowledge by optimizing the overall subspace clustering result. According to these models not all subspace clusters are valuable for the final result. Based on this general observation we propose efficient processing schemes. Our novel algorithmic solutions overcome efficiency problems caused by exhaustive search of almost all subspace projections and costly database access. We select only the most promising subspace regions for efficient subspace clustering. Overall, our techniques are scalable to large and high dimensional databases providing only few but high quality subspace clusters.

 

Furthermore, as a general contribution to the community we provide a systematic evaluation study on a broad set of approaches. We show both efficiency and quality characteristics of major paradigms. As major aspect for sustained scientific research we ensure repeatability and comparability for all of our empirical results. Our evaluation framework is available as open source project and provides a basis for future enhancements in this research area. Thus, this thesis provides not only novel methods for efficient cluster and also outlier detection in subspaces of high dimensional data, but it is a fundamental basis for repeatable comparison of recent data mining approaches.

Authors: Müller E.
Published in: Dissertation, Fakultät für Mathematik, Informatik und Naturwissenschaften, RWTH Aachen University.
Sprache: EN
Jahr: 2010
Additional:

Tag der mündlichen Prüfung: 09.06.2010

URL:RWTH Bibliothek
Typ: Dissertationen
Forschungsgebiet: Data Analysis and Knowledge Extraction