Alternative Thresholding Technique for Image Segmentation Based on Cuckoo Search and Generalized Gaussians

Muñoz‐Minjares, Jorge; Vite–Chavez, Osbaldo; Flores-Troncoso, Jorge; Cruz–Duarte, Jorge M.

doi:10.3390/math9182287

Cited by 5 publications

(2 citation statements)

References 45 publications

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“…Following the calculation of the spectral indices, the extent of each fire was delineated by thresholding the RBR index based on the Otsu algorithm [41], which is one of the best thresholding methods commonly used for image segmentation [42]. The Otsu thresholding method aims to find the optimal threshold (t) by maximizing the between-class variance in the segmented image [42]. [31] Burned area index for Sentinel 2 (BAIS2)…”

Section: Field Data Collectionmentioning

confidence: 99%

Predicting Spatially Explicit Composite Burn Index (CBI) from Different Spectral Indices Derived from Sentinel 2A: A Case of Study in Tunisia

2023

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Fire severity, which quantifies the degree of organic matter consumption, is an important component of the fire regime. High-severity fires have major ecological implications, affecting carbon uptake, storage and emissions, soil nutrients, and plant regeneration, among other ecosystem services. Accordingly, spatially explicit maps of the fire severity are required to develop improved tools to manage and restore the most damaged areas. The aim of this study is to develop spatially explicit maps of the field-based fire severity (composite burn index—CBI) from different spectral indices derived from Sentinel 2A images and using several regression models. The study areas are two recent large fires that occurred in Tunisia in the summer of 2021. We employed different spectral severity indices derived from the normalized burn ratio (NBR): differenced NBR (dNBR), relative differenced NBR (RdNBR), and relativized burn Ratio (RBR). In addition, we calculated the burned area index for Sentinel 2 (BAIS2) and the thermal anomaly index (TAI). Different tree decision models (i.e., the recursive partitioning regression method [RPART], bagging regression trees [Bagging], and boosted regression trees [BRT]), as well as a generalized additive model [GAM]), were applied to predict the CBI. The main results indicated that RBR, followed by dNBR, were the most important spectral severity indices for predicting the field-based CBI. Moreover, BRT was the best regression model, explaining 92% of the CBI variance using the training set of points and 88% when using the validation set. These results suggested the adequacy of RBR index derived from Sentinel 2A for assessing and mapping forest fire severity in Mediterranean forests. These spatially explicit maps of field-based CBI could help improve post-fire recovery and restoration efforts.

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Section: Field Data Collectionmentioning

confidence: 99%

Predicting Spatially Explicit Composite Burn Index (CBI) from Different Spectral Indices Derived from Sentinel 2A: A Case of Study in Tunisia

2023

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“…The images examined are monochromatic (gray-scale) because the crack on the image usually manifests as an area of lower intensity (darker). Many thresholding methods commonly used for this problem fail because the gray density distributions representing the background and foreground are not normal or appear as quasi-unimodal functions [64]. In addition to thresholding methods, a clustering approach is also useful.…”

Section: Crack Image Segmentationmentioning

confidence: 99%

On Methods for Merging Mixture Model Components Suitable for Unsupervised Image Segmentation Tasks

et al. 2022

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Unsupervised image segmentation is one of the most important and fundamental tasks in many computer vision systems. Mixture model is a compelling framework for unsupervised image segmentation. A segmented image is obtained by clustering the pixel color values of the image with an estimated mixture model. Problems arise when the selected optimal mixture model contains a large number of mixture components. Then, multiple components of the estimated mixture model are better suited to describe individual segments of the image. We investigate methods for merging the components of the mixture model and their usefulness for unsupervised image segmentation. We define a simple heuristic for optimal segmentation with merging of the components of the mixture model. The experiments were performed with gray-scale and color images. The reported results and the performed comparisons with popular clustering approaches show clear benefits of merging components of the mixture model for unsupervised image segmentation.

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Image informatics for clinical and preclinical biomedical analysis

Yadav,

Kolekar,

Patil

et al. 2025

Mining Biomedical Text, Images and Visual Features for Information Retrieval

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Alternative Thresholding Technique for Image Segmentation Based on Cuckoo Search and Generalized Gaussians

Cited by 5 publications

References 45 publications

Predicting Spatially Explicit Composite Burn Index (CBI) from Different Spectral Indices Derived from Sentinel 2A: A Case of Study in Tunisia

Predicting Spatially Explicit Composite Burn Index (CBI) from Different Spectral Indices Derived from Sentinel 2A: A Case of Study in Tunisia

On Methods for Merging Mixture Model Components Suitable for Unsupervised Image Segmentation Tasks

Image informatics for clinical and preclinical biomedical analysis

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