Robust Automatic Segmentation of Inflamed Appendix from Ultrasonography with Double-Layered Outlier Rejection Fuzzy C-Means Clustering

Kim, Kwang-Baek; Song, Doo Heon; Park, Hyun Jun

doi:10.3390/app12115753

Cited by 5 publications

(2 citation statements)

References 34 publications

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“…Two papers focused on biomedical image classification using fuzzy-based learning approaches. The first one, by Kim et al [4], proposed and evaluated a robust automatic segmentation method using double-layered outlier rejection fuzzy c-means (DORFCM) to identify an inflamed appendix from abdominal ultrasound images. The second one, by Kim et al [5], also proposed and evaluated a hierarchical combination of the fuzzy unsupervised learning component (FCM) and supervised learning component (FMM: fuzzy max-min neural network) in diabetes diagnosis, a highly noisy domain with not much labelled data and many missing values in the dataset.…”

Section: Future Information and Communication Engineering 2022mentioning

confidence: 99%

Current Research in Future Information and Communication Engineering 2022

Kim

et al. 2023

Applied Sciences

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Section: Future Information and Communication Engineering 2022mentioning

confidence: 99%

Current Research in Future Information and Communication Engineering 2022

Kim

et al. 2023

Applied Sciences

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“…Automatic segmentation with pixel-level clustering may be a solution to this human error. Developing such system has become challenging in the case of medical imaging owing to poor contrast and noise during acquisition [22,23], but has shown positive effects in many medical image analysis domains [24][25][26][27][28][29].…”

Section: Introductionmentioning

confidence: 99%

Combining Hough Transform and Fuzzy Unsupervised Learning Strategy in Automatic Segmentation of Large Bowel Obstruction Area from Erect Abdominal Radiographs

Kim,

Song,

Park

2023

JICCE

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The number of senior citizens with large bowel obstruction is steadily growing in Korea. Plain radiography was used to examine the severity and treatment of this phenomenon. To avoid examiner subjectivity in radiography readings, we propose an automatic segmentation method to identify fluid-filled areas indicative of large bowel obstruction. Our proposed method applies the Hough transform to locate suspicious areas successfully and applies the possibilistic fuzzy c-means unsupervised learning algorithm to form the target area in a noisy environment. In an experiment with 104 real-world large-bowel obstruction radiographs, the proposed method successfully identified all suspicious areas in 73 of 104 input images and partially identified the target area in another 21 images. Additionally, the proposed method shows a true-positive rate of over 91% and false-positive rate of less than 3% for pixel-level area formation. These performance evaluation statistics are significantly better than those of the possibilistic c-means and fuzzy c-means-based strategies; thus, this hybrid strategy of automatic segmentation of large bowel suspicious areas is successful and might be feasible for real-world use.

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