Presentation is loading. Please wait.

Presentation is loading. Please wait.

Propriedades da Entropia Paulo Sérgio Rodrigues PEL205.

Published byMilton Lester Modified over 9 years ago

Similar presentations

Presentation on theme: "Propriedades da Entropia Paulo Sérgio Rodrigues PEL205."— Presentation transcript:

1 Propriedades da Entropia Paulo Sérgio Rodrigues PEL205

2 Entropia Não-Extensiva Constantino Tsallis

3 Entropia Não-Extensiva

4 Additive property of Shannon Entropy Tsallis Entropy formula Pseudo-Additive property of Tsallis Entropy

5 Background and Foreground distribution Background and Foreground Tsallis Entropy

6 Pseudo-Additivity for Background and Foreground distribution Here, topt is ideal partition (that maximizes) the pseudo additivity of Tsallis Entropy

7 A new partition of Background and Foreground for new application of Tsallis entropy

8 Respectivelly news Tsallis entropy for the new background and foregrounds

9 General Equation of Pseudo-additivity for one recurssion

10 Here, topt is ideal partition (that maximizes) the pseudo additivity of Tsallis Entropy for the new partition

11 Ultrasound original Benign Tumor Left Column: 1 recurssion; Right column: 3 recurssions row 1: q = 0.00001; row 2: q = 1.0 (Shannon) ; row 3: q = 4 Visual Segmentation Results

12 Left Column: 1 recurssion; Right column: 3 recurssions row 1: q = 0.00001; row 2: q = 1.0 (Shannon) ; row 3: q = 4 Ultrasound original Malignant Tumor Visual Segmentation Results

13 Left upper: NESRA with 16 clusters (3 recurssions); right upper: fuzzy c-means with 16 clusters Left bellow: k-means with 8 clusters; right bellow: SOM with 16 neurons Visual Segmentation Results Benign Tumor

14 Left upper: NESRA with 16 clusters (3 recurssions); right upper: fuzzy c-means with 16 clusters Left bellow: k-means with 8 clusters; right bellow: SOM with 16 neurons Visual Segmentation Results Malignant Tumor

15 Results of application of three approaches for image segmentation: column 1: proposed (NESRA) method; column 2: bootstrap; column 3: fuzzy c-means Some Natural Image Results NESRABootstrapFuzzy C-means

16 Results of application of three approaches for image segmentation: column 1: proposed (NESRA) method; column 2: bootstrap; column 3: fuzzy c-means Some Natural Image Results NESRABootstrapFuzzy C-means

17 Results of application of three approaches for image segmentation: column 1: k-means; column 2: SOM; column 3: watershed Some Natural Image Results K-meansSOMWatershed

18 Results of application of three approaches for image segmentation: column 1: k-means; column 2: SOM; column 3: watershed Some Natural Image Results K-meansSOMWatershed

19 The synthetic image used to compare the robustness of the methods and increasing application of gaussian noise. The two concentric circles have radius 100 and 50, and the intensities for the background, outer and inner circles are 150, 100 and 50 respectively. The letfmost image is the original image; the three others, from left to right, have μ =0 and σ 2 = 0.01, 0.05 and 0.1 gaussian noise respectively. Synthetic Image Results

20 The result segmentation of the six considered algorithms in this paper. In this illustration, for all the original image we have applied a gaussian noise with zero μ and σ 2 = 0.1 which is the highest noise used, and after, a 9 x 9 2D adaptive filter was used for smoothing the noise. In the specific case of NESRA algorithm we use the parameter q = 0.001 since it generates the best visual result with more homogeneous and noiseless regions. Synthetic Image Results NESRA Bootstrap Fuzzy C-meansK-means SOMWatershed

21 The estimated (black ones) and original (white ones) curves superimposed over the original image corresponding to the segmentations of synthetic image. Only the watershed was traced manually since we do not have good precision of the boundary in this case. NESRA Bootstrap Fuzzy C-meansK-means SOMWatershed

22 Comparative performance of the five used methods as a function of increasing gaussian noise. The x-line is the σ 2 and y-line is Robustness Outer Circle

23 Comparative performance of the five used methods as a function of increasing gaussian noise. The x-line is the σ 2 and y-line is Robustness Inner Circle

24 Comparative performance for the five used methods according to the estimated area inside inner, outer and background regions. The performance percentage is an average of the estimated area of the three regions. The x-line is the σ 2 and y-line is the average of estimated area (for the three regions) divided by real area. Performance in Achieving Homogeneous Regions

Download ppt "Propriedades da Entropia Paulo Sérgio Rodrigues PEL205."

Similar presentations

An Active contour Model without Edges

An Active contour Model without Edges
A Graph based Geometric Approach to Contour Extraction from Noisy Binary Images Amal Dev Parakkat, Jiju Peethambaran, Philumon Joseph and Ramanathan Muthuganapathy.

A Graph based Geometric Approach to Contour Extraction from Noisy Binary Images Amal Dev Parakkat, Jiju Peethambaran, Philumon Joseph and Ramanathan Muthuganapathy.
Road-Sign Detection and Recognition Based on Support Vector Machines Saturnino, Sergio et al. Yunjia Man ECG 782 Dr. Brendan.

Road-Sign Detection and Recognition Based on Support Vector Machines Saturnino, Sergio et al. Yunjia Man ECG 782 Dr. Brendan.
Unbalanced Assignment Model

Unbalanced Assignment Model
R. DOSIL, X. M. PARDO, A. MOSQUERA, D. CABELLO Grupo de Visión Artificial Departamento de Electrónica e Computación Universidade de Santiago de Compostela.

R. DOSIL, X. M. PARDO, A. MOSQUERA, D. CABELLO Grupo de Visión Artificial Departamento de Electrónica e Computación Universidade de Santiago de Compostela.
November 12, 2013Computer Vision Lecture 12: Texture 1Signature Another popular method of representing shape is called the signature. In order to compute.

November 12, 2013Computer Vision Lecture 12: Texture 1Signature Another popular method of representing shape is called the signature. In order to compute.
Segmentation of Medical Images with Regional Inhomogeneities D.K. Iakovidis, M.A. Savelonas, S.A. Karkanis + & D.E. Maroulis University of Athens Department.

Segmentation of Medical Images with Regional Inhomogeneities D.K. Iakovidis, M.A. Savelonas, S.A. Karkanis + & D.E. Maroulis University of Athens Department.
E.G.M. PetrakisImage Segmentation1 Segmentation is the process of partitioning an image into regions –region: group of connected pixels with similar properties.

E.G.M. PetrakisImage Segmentation1 Segmentation is the process of partitioning an image into regions –region: group of connected pixels with similar properties.
A Spatially Adaptive Filter Reducing Arc Stripe Noise for Sector Scan Medical Ultrasound Imaging Qianren Xu Mohamed Kamel Magdy M. A. Salama.

A Spatially Adaptive Filter Reducing Arc Stripe Noise for Sector Scan Medical Ultrasound Imaging Qianren Xu Mohamed Kamel Magdy M. A. Salama.
An Adaptive Image Enhancement Algorithm for Face Detection By Lizuo Jin, Shin’ichi Satoh, and Masao Sakauchi. ECE 738 In Young Chung.

An Adaptive Image Enhancement Algorithm for Face Detection By Lizuo Jin, Shin’ichi Satoh, and Masao Sakauchi. ECE 738 In Young Chung.
Image Segmentation Image segmentation (segmentace obrazu) –division or separation of the image into segments (connected regions) of similar properties.

Image Segmentation Image segmentation (segmentace obrazu) –division or separation of the image into segments (connected regions) of similar properties.
Copyright © 2012 Elsevier Inc. All rights reserved.. Chapter 4 Thresholding Techniques.

Copyright © 2012 Elsevier Inc. All rights reserved.. Chapter 4 Thresholding Techniques.
Modeling Pixel Process with Scale Invariant Local Patterns for Background Subtraction in Complex Scenes (CVPR’10) Shengcai Liao, Guoying Zhao, Vili Kellokumpu,

Modeling Pixel Process with Scale Invariant Local Patterns for Background Subtraction in Complex Scenes (CVPR’10) Shengcai Liao, Guoying Zhao, Vili Kellokumpu,
0 6.1. Thresholding Otsu’s Thresholding Method 6.1.1 Threshold Detection Methods 6.1.2 Optimal Thresholding 6.1.3 Multi-Spectral Thresholding 6.2. Edge-based.

Thresholding Otsu’s Thresholding Method Threshold Detection Methods Optimal Thresholding Multi-Spectral Thresholding 6.2. Edge-based.
Normalized Cuts and Image Segmentation Jianbo Shi and Jitendra Malik, Presented by: Alireza Tavakkoli.

Normalized Cuts and Image Segmentation Jianbo Shi and Jitendra Malik, Presented by: Alireza Tavakkoli.
Image processing. Image operations Operations on an image –Linear filtering –Non-linear filtering –Transformations –Noise removal –Segmentation.

Image processing. Image operations Operations on an image –Linear filtering –Non-linear filtering –Transformations –Noise removal –Segmentation.
Expectation Maximization Method Effective Image Retrieval Based on Hidden Concept Discovery in Image Database By Sanket Korgaonkar Masters Computer Science.

Expectation Maximization Method Effective Image Retrieval Based on Hidden Concept Discovery in Image Database By Sanket Korgaonkar Masters Computer Science.
Cluster Analysis.  What is Cluster Analysis?  Types of Data in Cluster Analysis  A Categorization of Major Clustering Methods  Partitioning Methods.

Cluster Analysis.  What is Cluster Analysis?  Types of Data in Cluster Analysis  A Categorization of Major Clustering Methods  Partitioning Methods.
Segmentation Divide the image into segments. Each segment:

Segmentation Divide the image into segments. Each segment:
MSU CSE 803 Stockman Linear Operations Using Masks Masks are patterns used to define the weights used in averaging the neighbors of a pixel to compute.

MSU CSE 803 Stockman Linear Operations Using Masks Masks are patterns used to define the weights used in averaging the neighbors of a pixel to compute.

Similar presentations

Ads by Google