Title :
Building k edge-disjoint spanning trees of minimum total length for isometric data embedding
Author_Institution :
Dept. of Comput. Sci., Western Michigan Univ., Kalamazoo, MI, USA
Abstract :
Isometric data embedding requires construction of a neighborhood graph that spans all data points so that geodesic distance between any pair of data points could be estimated by distance along the shortest path between the pair on the graph. This paper presents an approach for constructing k-edge-connected neighborhood graphs. It works by finding k edge-disjoint spanning trees the sum of whose total lengths is a minimum. Experiments show that it outperforms the nearest neighbor approach for geodesic distance estimation.
Keywords :
data encapsulation; edge detection; pattern classification; trees (mathematics); geodesic distance estimation; isometric data embedding; k edge-disjoint spanning trees; minimum total length; nearest neighbor approach; neighborhood graph; Buildings; Data mining; Data processing; Geometry; Humans; Level measurement; Nearest neighbor searches; Pattern analysis; Tree graphs; Visual perception; Index Terms- Data embedding; dimensionality reduction; manifold learning; minimum spanning tree; neighborhood graph.; Algorithms; Artificial Intelligence; Database Management Systems; Databases, Factual; Imaging, Three-Dimensional; Information Storage and Retrieval; Pattern Recognition, Automated;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
DOI :
10.1109/TPAMI.2005.192
