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- Title
A variational level set model combining with local Gaussian fitting and Markov random field regularization.
- Authors
Ren, Yanjun; Tang, Liming; Zhang, Honglu; Zheng, Jie
- Abstract
To effectively and accurately segment images in the presence of intensity inhomogeneity and noise, a variational level set model based on maximum a posteriori (MAP) criterion is proposed in this paper. In the Bayesian framework, the posterior probability of the corrected smooth image under the observation condition is described by a likelihood function of the observation multiplied by a prior probability of the corrected smooth image. In the model, the likelihood function of the observation is computed under the assumption that the observed image obeys the local Gaussian distribution with both varying means and variances; and based on Markov random field (MRF) model, the prior probability of the corrected smooth image is defined as a Gibbs energy function that is related to the total variation. Maximizing the likelihood function can effectively capture the local change of image intensity, and maximizing the prior probability can restrain the influence of noise. An alternating direction iterative algorithm combining with fixed point iteration and gradient descent is introduced to solve the proposed model. The experiments for both synthetic and real images validate the proposed model. In addition, compared with several state-of-the-art variational level set models, the proposed model show the best segmentation performance.
- Subjects
GAUSSIAN Markov random fields; MARKOV random fields; GAUSSIAN distribution; MATHEMATICAL regularization; GIBBS' free energy
- Publication
Multimedia Tools & Applications, 2022, Vol 81, Issue 3, p4511
- ISSN
1380-7501
- Publication type
Article
- DOI
10.1007/s11042-021-11783-2