Bidimensional Distribution Entropy to Analyze the Irregularity of Small-Sized Textures

Azami, Hamed; Escudero, Javier; Humeau-Heurtier, Anne

doi:10.1109/lsp.2017.2723505

Cited by 29 publications

(31 citation statements)

References 17 publications

(24 reference statements)

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“…Moreover, DistEn 2D is more rapid than SampEn 2D [254]. DistEn 2D is also rotation-invariant [253], [254].…”

Section: B Two-dimensional Distribution Entropy 1) Conceptmentioning

confidence: 98%

“…In order to overcome the drawbacks of SampEn 2D (undefined values or unreliable values for small-sized textures, long computation time), Azami et al [254] recently proposed the bi-dimensional distribution entropy (DistEn 2D ). Its algorithm for an image I with width W and height H is the following [254] 1) Normalize I between 0 and 1. Create all twodimensional matrices (template matrices) X m kl , (k = 1, 2, .…”

Section: B Two-dimensional Distribution Entropy 1) Conceptmentioning

confidence: 99%

“…, W −(m w −1)) with size m h ×m w as described in [254] It has been shown that DistEn 2D is not very sensitive to its parameter values [254] and gives values even for low image sizes, by opposition to SampEn 2D [254]. Moreover, DistEn 2D is more rapid than SampEn 2D [254]. DistEn 2D is also rotation-invariant [253], [254].…”

Section: B Two-dimensional Distribution Entropy 1) Conceptmentioning

confidence: 99%

“…DistEn 2D is able to detect different amounts of noise, and distinguish periodic from synthetized textures [254].…”

Section: ) Examples Of Applicationsmentioning

confidence: 99%

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Texture Feature Extraction Methods: A Survey

2019

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Texture analysis is used in a very broad range of fields and applications, from texture classification (e.g., for remote sensing) to segmentation (e.g., in biomedical imaging), passing through image synthesis or pattern recognition (e.g., for image inpainting). For each of these image processing procedures, first, it is necessary to extract-from raw images-meaningful features that describe the texture properties. Various feature extraction methods have been proposed in the last decades. Each of them has its advantages and limitations: performances of some of them are not modified by translation, rotation, affine, and perspective transform; others have a low computational complexity; others, again, are easy to implement; and so on. This paper provides a comprehensive survey of the texture feature extraction methods. The latter are categorized into seven classes: statistical approaches, structural approaches, transform-based approaches, model-based approaches, graph-based approaches, learning-based approaches, and entropybased approaches. For each method in these seven classes, we present the concept, the advantages, and the drawbacks and give examples of application. This survey allows us to identify two classes of methods that, particularly, deserve attention in the future, as their performances seem interesting, but their thorough study is not performed yet.

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“…Moreover, DistEn 2D is more rapid than SampEn 2D [254]. DistEn 2D is also rotation-invariant [253], [254].…”

Section: B Two-dimensional Distribution Entropy 1) Conceptmentioning

confidence: 98%

Section: B Two-dimensional Distribution Entropy 1) Conceptmentioning

confidence: 99%

Section: B Two-dimensional Distribution Entropy 1) Conceptmentioning

confidence: 99%

“…DistEn 2D is able to detect different amounts of noise, and distinguish periodic from synthetized textures [254].…”

Section: ) Examples Of Applicationsmentioning

confidence: 99%

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Texture Feature Extraction Methods: A Survey

2019

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“…Stantchev based the probabilities on the number of connections of a given node in a graph. The entropy from [ 13 , 46 ] calculates probabilities from distances between neighboring vertexes and connections weights; Humeau-Heurtier and her co-workers generalized the sample entropy, which uses probabilities consisting of the ratio of the number of cases when two sample vectors froming a series have sufficiently small distance, and a similar number for their shortened versions [ 36 , 47 , 48 , 49 ]. All these methods introduce quite complicated concepts, which are scale-dependent.…”

Section: The Rényi Entropy-based Structural Entropymentioning

confidence: 99%

On Structural Entropy and Spatial Filling Factor Analysis of Colonoscopy Pictures

Nagy

Sziová

Pipek

2019

Entropy

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Colonoscopy is the standard device for diagnosing colorectal cancer, which develops from little lesions on the bowel wall called polyps. The Rényi entropies-based structural entropy and spatial filling factor are two scale- and resolution-independent quantities that characterize the shape of a probability distribution with the help of characteristic curves of the structural entropy–spatial filling factor map. This alternative definition of structural entropy is easy to calculate, independent of the image resolution, and does not require the calculation of neighbor statistics, unlike the other graph-based structural entropies.The distant goal of this study was to help computer aided diagnosis in finding colorectal polyps by making the Rényi entropy based structural entropy more understood. The direct goal was to determine characteristic curves that can differentiate between polyps and other structure on the picture. After analyzing the distribution of colonoscopy picture color channels, the typical structures were modeled with simple geometrical functions and the structural entropy–spatial filling factor characteristic curves were determined for these model structures for various parameter sets. A colonoscopy image analying method, i.e., the line- or column-wise scanning of the picture, was also tested, with satisfactory matching of the characteristic curve and the image.

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Entropy Analysis in Health Informatics

Humeau-Heurtier

2020

Intelligent Systems Reference Library

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Bidimensional Distribution Entropy to Analyze the Irregularity of Small-Sized Textures

Cited by 29 publications

References 17 publications

Texture Feature Extraction Methods: A Survey

Texture Feature Extraction Methods: A Survey

On Structural Entropy and Spatial Filling Factor Analysis of Colonoscopy Pictures

Entropy Analysis in Health Informatics

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