Hybrid two-stage active contour method with region and edge information for intensity inhomogeneous image segmentation.

Shafiullah Soomro,Kwang Nam Choi,Asad Munir,Yuanquan Wang

doi:10.1371/journal.pone.0191827

Shafiullah Soomro, Kwang Nam Choi + Show 2 more

Open Access

https://doi.org/10.1371/journal.pone.0191827

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Journal: PloS one	Publication Date: Jan 29, 2018
Citations: 43	License type: CC BY 4.0

Affiliation: Chung-Ang University

Abstract

This paper presents a novel two-stage image segmentation method using an edge scaled energy functional based on local and global information for intensity inhomogeneous image segmentation. In the first stage, we integrate global intensity term with a geodesic edge term, which produces a preliminary rough segmentation result. Thereafter, by taking final contour of the first stage as initial contour, we begin second stage segmentation process by integrating local intensity term with geodesic edge term to get final segmentation result. Due to the suitable initialization from the first stage, the second stage precisely achieves desirable segmentation result for inhomogeneous image segmentation. Two stage segmentation technique not only increases the accuracy but also eliminates the problem of initial contour existed in traditional local segmentation methods. The energy function of the proposed method uses both global and local terms incorporated with compacted geodesic edge term in an additive fashion which uses image gradient information to delineate obscured boundaries of objects inside an image. A Gaussian kernel is adapted for the regularization of the level set function and to avoid an expensive re-initialization. The experiments were carried out on synthetic and real images. Quantitative validations were performed on Multimodal Brain Tumor Image Segmentation Benchmark (BRATS) 2015 and PH2 skin lesion database. The visual and quantitative comparisons will demonstrate the efficiency of the proposed method.

Highlights

Image segmentation is the well-defined scheme of partitioning an image into several regions and it has a great significance in image processing and computer vision [1]
It is unable to capture objects with intensity inhomogeneity. In this stage we extend global region-edge active contour method (GREAC) to local region-edge active contour method (LREAC) by using local binary fitting energy from local binary fitted (LBF) [14] method
We have presented a hybrid novel two-stage segmentation method with application to synthetic and real images combining global, local and edge intensity information

Summary

Introduction

Image segmentation is the well-defined scheme of partitioning an image into several regions and it has a great significance in image processing and computer vision [1]. Active contour models have been popular techniques for those type of images [2] GAC method [5] is regarded as a standard active contour method which uses image gradient information from the boundary of the object. R is an input image and C(q) is a closed curve They proposed the following energy functional: Z1. @t 1⁄4 gdiv jr0j jr0j þ rg:r0 ð4Þ This method relies on edge based contour evolution which can only capture objects with edges defined by its gradient. This method doesn’t support regional information and fall into local minimum when the initial contour is not placed near object boundaries

Methods

Results

Conclusion