An adaptive-scale active contour model for inhomogeneous image segmentation and bias field estimation
作者:
Highlights:
• A novel adaptive scale operator is proposed based on image entropy and Gaussian kernel function, which not only realizes the adaptive adjustment of scale for the ASACM according to the different degrees of intensity inhomogeneity but also improves the segmentation speed and robustness to initial contours and to noise.
• By distributing a dependent-membership function for each pixel, we construct an improved bias field estimation term to estimate the bias field of severe intensity inhomogeneous image that further improves the segmentation accuracy.
• To avoid the time-consuming re-initialization process and to solve the instability in traditional penalty term, we define an improved penalty term using piecewise polynomial.
摘要
•A novel adaptive scale operator is proposed based on image entropy and Gaussian kernel function, which not only realizes the adaptive adjustment of scale for the ASACM according to the different degrees of intensity inhomogeneity but also improves the segmentation speed and robustness to initial contours and to noise.•By distributing a dependent-membership function for each pixel, we construct an improved bias field estimation term to estimate the bias field of severe intensity inhomogeneous image that further improves the segmentation accuracy.•To avoid the time-consuming re-initialization process and to solve the instability in traditional penalty term, we define an improved penalty term using piecewise polynomial.
论文关键词:Active contour model,Image segmentation,Intensity inhomogeneous image,Adaptive scale operator,Bias field estimation
论文评审过程:Received 2 October 2017, Revised 22 March 2018, Accepted 5 May 2018, Available online 7 May 2018, Version of Record 15 June 2018.
论文官网地址:https://doi.org/10.1016/j.patcog.2018.05.008
