Local Variation as a Statistical Hypothesis Test

Local Variation as a Statistical Hypothesis Test

The goal of image oversegmentation is to divide an image into several pieces, each of which should ideally be part of an object. One of the simplest and yet most effective oversegmentation algorithms is known as local variation (LV) Felzenszwalb and Huttenlocher in Efficient graph-based image segmen...

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Veröffentlicht in:International journal of computer vision 2016-04, Vol.117 (2), p.131-141
Hauptverfasser: Baltaxe, Michael, Meer, Peter, Lindenbaum, Michael
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Analysis
Artificial Intelligence
Computer Imaging
Computer Science
Computer vision
Decisions
Graph representations
Hypotheses
Hypothesis testing
Image processing
Image Processing and Computer Vision
Image processing systems
Image segmentation
Mathematical analysis
Methods
Pattern Recognition
Pattern Recognition and Graphics
Probability theory
State of the art
Statistics
Studies
Vision
Vision systems
Watersheds
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Beschreibung
Zusammenfassung:The goal of image oversegmentation is to divide an image into several pieces, each of which should ideally be part of an object. One of the simplest and yet most effective oversegmentation algorithms is known as local variation (LV) Felzenszwalb and Huttenlocher in Efficient graph-based image segmentation. IJCV 59(2):167–181 ( 2004 ). In this work, we study this algorithm and show that algorithms similar to LV can be devised by applying different statistical models and decisions, thus providing further theoretical justification and a well-founded explanation for the unexpected high performance of the LV approach. Some of these algorithms are based on statistics of natural images and on a hypothesis testing decision; we denote these algorithms probabilistic local variation (pLV). The best pLV algorithm, which relies on censored estimation, presents state-of-the-art results while keeping the same computational complexity of the LV algorithm.
ISSN:0920-5691
1573-1405
DOI:10.1007/s11263-015-0855-4