Abstract
The active contour model is a comprehensive research technique used for salient object detection. Most active contour models of saliency detection are developed in the context of natural scenes, and their role with synthetic and medical images is not well investigated. Existing active contour models perform efficiently in many complexities but facing challenges on synthetic and medical images due to the limited time like, precise automatic fitted contour and expensive initialization computational cost. Our intention is detecting automatic boundary of the object without re-initialization which further in evolution drive to extract salient object. For this, we propose a simple novel derivative of a numerical solution scheme, using fast Fourier transformation (FFT) in active contour (Snake) differential equations that has two major enhancements, namely it completely avoids the approximation of expansive spatial derivatives finite differences, and the regularization scheme can be generally extended more. Second, FFT is significantly faster compared to the traditional solution in spatial domain. Finally, this model practiced Fourier-force function to fit curves naturally and extract salient objects from the background. Compared with the state-of-the-art methods, the proposed method achieves at least a 3% increase of accuracy on three diverse set of images. Moreover, it runs very fast, and the average running time of the proposed methods is about one twelfth of the baseline.
Highlights
Active contour models serve as a powerful tool in various domains of image processing such as salient object detection and segmentation tasks
We introduce a Fourier force function that works without trigonometric function for extracting saliency object detection for the active contour
This paper presents a novel fast Fourier convolution approach for salient object detection in active contour model (ACM) that has the capability of fitting curve without re-initialization, reiteration, and detect boundary of the object during the initialization time in the presence of intensity inhomogeneity and noise
Summary
Active contour models serve as a powerful tool in various domains of image processing such as salient object detection and segmentation tasks. With an active contour using fast Fourier transformation, i.e., a frequency domain fitted curve during initialization, the incorporation of a spectral residual function highlights the salient object inside the boundary and distinct object from the background using the Fourier force function. A new hybrid active contour model using FFT comprising efficient features of the local region-based and global region-based fitting energies for salient object detection is proposed. The basic idea behind the proposed algorithm is generating a high level fast active contour model which increases computational efficiency and maximizes effectiveness for saliency detection on complex synthetic and medical images.
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