An optimal graph theoretic approach to data clustering: theory and its application to image segmentation

Wu, Zhenyu; Leahy, Richard M.

doi:10.1109/34.244673

Cited by 954 publications

(501 citation statements)

References 18 publications

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“…They seek a set of recursive bipartitions that globally minimize a cost function based on the nodes in a segment and/or the edges between segments. Wu and Leahy [26] were the first to segment images using graph cuts, minimizing the sum of the edge weights across cut boundaries. However, their algorithm is biased toward short boundaries, leading to the creation of small regions.…”

Section: Introductionmentioning

confidence: 99%

TurboPixels: Fast Superpixels Using Geometric Flows

Levinshtein

Stere

Kutulakos

et al. 2009

IEEE Trans. Pattern Anal. Mach. Intell.

1,055

676

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Abstract-We describe a geometric-flow-based algorithm for computing a dense oversegmentation of an image, often referred to as superpixels. It produces segments that, on one hand, respect local image boundaries, while, on the other hand, limiting undersegmentation through a compactness constraint. It is very fast, with complexity that is approximately linear in image size, and can be applied to megapixel sized images with high superpixel densities in a matter of minutes. We show qualitative demonstrations of high-quality results on several complex images. The Berkeley database is used to quantitatively compare its performance to a number of oversegmentation algorithms, showing that it yields less undersegmentation than algorithms that lack a compactness constraint while offering a significant speedup over N-cuts, which does enforce compactness.

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Section: Introductionmentioning

confidence: 99%

TurboPixels: Fast Superpixels Using Geometric Flows

Levinshtein

Stere

Kutulakos

et al. 2009

IEEE Trans. Pattern Anal. Mach. Intell.

1,055

676

View full text Add to dashboard Cite

show abstract

“…The worst disadvantage of these approaches, as can be seen in Refs. [13][14][15], is that these algorithms are very time consuming, which prohibits their implementation for real-time applications.…”

Section: Graph Partitioning Greedy Algorithm For Colour Image Segmentmentioning

confidence: 99%

Graph-based representations and techniques for image processing and image analysis

Sanfeliu

Alquézar

Andrade

et al. 2002

Pattern Recognition

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In this paper we will discuss the use of some graph-based representations and techniques for image processing and analysis. Instead of making an extensive review of the graph techniques in this field, we will explain how we are using these techniques in an active vision system for an autonomous mobile robot developed in the Institut de Robòtica i Informàtica Industrial within the project "Active Vision System with Automatic Learning Capacity for Industrial Applications (CICYT TAP98-0473)". Specifically we will discuss the use of graph-based representations and techniques for image segmentation, image perceptual grouping and object recognition. We first present a generalisation of a graph partitioning greedy algorithm for colour image segmentation. Next we describe a novel fusion of colour-based segmentation and depth from stereo that yields a graph representing every object in the scene. Finally we describe a new representation of a set of attributed graphs (AGs), denominated Function Described Graphs (FDGs), a distance measure for matching AGs with FDGs and some applications for robot vision.

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“…The graph cut algorithm is designed to minimize energy function in weighted graph where the energy function defines segmentation. This technique is widely used in standard image segmentation [3,4,5] or in segmentation of range images or stereo matching [6,7]. Several works benefits from graph cuts for 3D mesh segmentation [8,9] or surface extraction [10,11,12].…”

Section: Related Workmentioning

confidence: 99%

Graph Cut Based Point-Cloud Segmentation for Polygonal Reconstruction

Sedlacek

Žára

2009

Advances in Visual Computing

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Abstract. The reconstruction of 3D objects from a point-cloud is based on sufficient separation of the points representing objects of interest from the points of other, unwanted objects. This operation called segmentation is discussed in this paper. We present an interactive unstructured pointcloud segmentation based on graph cut method where the cost function is derived from euclidean distance of point-cloud points. The graph topology and direct 3D point-cloud segmentation are the novel parts of our work. The segmentation is presented on real application, the terrain reconstruction of a complex miniature paper model, the Langweil model of Prague.

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An optimal graph theoretic approach to data clustering: theory and its application to image segmentation

Cited by 954 publications

References 18 publications

TurboPixels: Fast Superpixels Using Geometric Flows

TurboPixels: Fast Superpixels Using Geometric Flows

Graph-based representations and techniques for image processing and image analysis

Graph Cut Based Point-Cloud Segmentation for Polygonal Reconstruction

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