Title :
Memory-Efficient Computation of Persistent Homology for 3D Images Using Discrete Morse Theory
Author :
Günther, David ; Reininghaus, Jan ; Hotz, Ingrid ; Wagner, Hubert
Author_Institution :
Zuse Inst. Berlin, Berlin, Germany
Abstract :
We propose a memory-efficient method that computes persistent homology for 3D gray-scale images. The basic idea is to compute the persistence of the induced Morse-Smale complex. Since in practice this complex is much smaller than the input data, significantly less memory is required for the subsequent computations. We propose a novel algorithm that efficiently extracts the Morse-Smale complex based on algorithms from discrete Morse theory. The proposed algorithm is thereby optimal with a computational complexity of O(n2). The persistence is then computed using the Morse-Smale complex by applying an existing algorithm with a good practical running time. We demonstrate that our method allows for the computation of persistent homology for large data on commodity hardware.
Keywords :
computational complexity; data handling; image processing; solid modelling; 3D gray scale image; commodity hardware; computational complexity; discrete Morse theory; induced Morse-smale complex; memory efficient method; persistent homology; subsequent computation; Algorithm design and analysis; Computational complexity; Feature extraction; Indexes; Memory management; Three dimensional displays; Morse-Smale complex; discrete Morse theory; large data; persistent homology;
Conference_Titel :
Graphics, Patterns and Images (Sibgrapi), 2011 24th SIBGRAPI Conference on
Conference_Location :
Maceio, Alagoas
Print_ISBN :
978-1-4577-1674-4
DOI :
10.1109/SIBGRAPI.2011.24
