Title :
A Combinatorial Approach to Multidimensional Scaling
Author :
Alencar, Jorge ; Lavor, Carlile ; Bonates, Tiberius O.
Author_Institution :
Dept. of Appl. Math., Univ. of Campinas, Campinas, Brazil
fDate :
June 27 2014-July 2 2014
Abstract :
In standard Multidimensional Scaling (MDS) one is concerned with finding a low-dimensional representation of a set of n objects, so that pairwise dissimilarities among the original objects are realized as distances in the embedded space with minimum error. We propose an MDS algorithm that, in addition to minimizing a usual Stress function, can accommodate additional optimization criteria, as well as side constraints associated with the underlying visualization task. We present an application in which we attempt to minimize a secondary objective funcion: the cluster membership discrepancy between a given cluster structure in the original data and the resulting cluster structure in the low-dimensional embedding. Preliminary computational experiments show that the algorithm is able to find MDS embeddings that preserve the original cluster structure while incurring a relatively small increase in Stress, as compared to standard MDS. Finally, we discuss a few properties of the algorithm that make it an interesting choice for Big Data visualization.
Keywords :
Big Data; combinatorial mathematics; data analysis; Big Data visualization; MDS algorithm; cluster membership discrepancy; combinatorial approach; low-dimensional representation; multidimensional scaling; optimization criteria; secondary objective funcion; Clustering algorithms; Data visualization; Euclidean distance; Partitioning algorithms; Standards; Stress; Tin; branch-andprune; clustering; large-scale visualization; multidimensional scaling;
Conference_Titel :
Big Data (BigData Congress), 2014 IEEE International Congress on
Conference_Location :
Anchorage, AK
Print_ISBN :
978-1-4799-5056-0
DOI :
10.1109/BigData.Congress.2014.87
