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1. Progressive Tree-like Curvilinear Structure Reconstruction with Structured Ranking Learning and Graph Algorithm

Author

Jeong, Seong-Gyun, Tarabalka, Yuliya, Nisse, Nicolas, and Zerubia, Josiane

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We propose a novel tree-like curvilinear structure reconstruction algorithm based on supervised learning and graph theory. In this work we analyze image patches to obtain the local major orientations and the rankings that correspond to the curvilinear structure. To extract local curvilinear features, we compute oriented gradient information using steerable filters. We then employ Structured Support Vector Machine for ordinal regression of the input image patches, where the ordering is determined by shape similarity to latent curvilinear structure. Finally, we progressively reconstruct the curvilinear structure by looking for geodesic paths connecting remote vertices in the graph built on the structured output rankings. Experimental results show that the proposed algorithm faithfully provides topological features of the curvilinear structures using minimal pixels for various datasets.

Published
2016

3. A higher-order active contour model of a `gas of circles' and its application to tree crown extraction

Author

Horvath, Peter, Jermyn, Ian, Kato, Zoltan, and Zerubia, Josiane

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Many image processing problems involve identifying the region in the image domain occupied by a given entity in the scene. Automatic solution of these problems requires models that incorporate significant prior knowledge about the shape of the region. Many methods for including such knowledge run into difficulties when the topology of the region is unknown a priori, for example when the entity is composed of an unknown number of similar objects. Higher-order active contours (HOACs) represent one method for the modelling of non-trivial prior knowledge about shape without necessarily constraining region topology, via the inclusion of non-local interactions between region boundary points in the energy defining the model. The case of an unknown number of circular objects arises in a number of domains, e.g. medical, biological, nanotechnological, and remote sensing imagery. Regions composed of an a priori unknown number of circles may be referred to as a `gas of circles'. In this report, we present a HOAC model of a `gas of circles'. In order to guarantee stable circles, we conduct a stability analysis via a functional Taylor expansion of the HOAC energy around a circular shape. This analysis fixes one of the model parameters in terms of the others and constrains the rest. In conjunction with a suitable likelihood energy, we apply the model to the extraction of tree crowns from aerial imagery, and show that the new model outperforms other techniques.

Published
2006

4. CRFNet: A Deep Convolutional Network to Learn the Potentials of a CRF for the Semantic Segmentation of Remote Sensing Images

Author

Pastorino, Martina, Moser, Gabriele, Serpico, Sebastiano B., and Zerubia, Josiane

Abstract

This article presents a method for the automatic learning of the potentials of a stochastic model, in particular a conditional random field (CRF), in a non-parametric fashion. The proposed model is based on a neural architecture, in order to leverage the modeling capabilities of deep learning (DL) approaches to directly learn semantic and spatial information from the input data. Specifically, the methodology is based on fully convolutional networks and fully connected neural networks. The idea is to access the multiscale information intrinsically extracted in the intermediate layers of a fully convolutional network through the integration of fully connected neural networks at different scales, while favoring the interpretability of the hidden layers as posterior probabilities. The potentials of the CRF are learned through an additional convolutional layer, whose kernel models the local spatial information considered. The loss function is computed as a linear combination of cross-entropy losses, accounting for the multiscale and the spatial information. To evaluate the capabilities of the proposed approach for the semantic segmentation of remote sensing images, the experimental validation was conducted with the ISPRS 2-D semantic labeling challenge Vaihingen and Potsdam datasets and with the IEEE GRSS data fusion contest Zeebruges dataset. As the ground truths of these benchmark datasets are spatially exhaustive, they have been modified to approximate the spatially sparse ground truths common in real remote sensing applications. The results are significant, as the proposed approach obtains higher average classification accuracies than recent state-of-the-art techniques considered in this article. The code is available at https://github.com/Ayana-Inria/CRFNet-RS.

Published
2024
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8. Blind deconvolution for thin-layered confocal imaging

Author

Pankajakshan, Praveen, Zhang, Bo, Blanc-Feraud, Laure, Kam, Zvi, Olivo-Marin, Jean-Christophe, and Zerubia, Josiane

Subjects
Confocal laser scanning microscopy -- Models, Astronomy, Physics
Abstract

We propose an alternate minimization algorithm for estimating the point-spread function (PSF) of a confocal laser scanning microscope and the specimen fluorescence distribution. A three-dimensional separable Gaussian model is used to restrict the PSF solution space and a constraint on the specimen is used so as to favor the stabilization and convergence of the algorithm. The results obtained from the simulation show that the PSF can be estimated to a high degree of accuracy, and those on real data show better deconvolution as compared to a full theoretical PSF model. OCIS codes: 100.1455, 180.1790, 100.3190.

Published
2009

9. A marked point process of rectangles and segments for automatic analysis of digital elevation models

Author

Ortner, Mathias, Descombes, Xavier, and Zerubia, Josiane

Subjects
Algorithm, Technology application, Algorithms -- Methods, Image processing -- Technology application, Poisson processes -- Evaluation, Simulated annealing (Mathematics) -- Evaluation
Abstract

This work presents a framework for automatic feature extraction from images using stochastic geometry. Features in images are modeled as realizations of a spatial point process of geometrical shapes. This framework allows the incorporation of a priori knowledge on the spatial repartition of features. More specifically, we present a model based on the superposition of a process of segments and a process of rectangles. The former is dedicated to the detection of linear networks of discontinuities, whereas the latter aims at segmenting homogeneous areas. An energy is defined, favoring connections of segments, alignments of rectangles, and a relevant interaction between both types of objects. The estimation is performed by minimizing the energy using a simulated annealing algorithm. The proposed model is applied to the analysis of Digital Elevation Models (DEMs). These images are raster data representing the altimetry of a dense urban area. We present results on real data provided by the French National Geographic Institute (IGN) consisting in low-quality DEMs of various types. Index Terms--Image processing, Poisson point process, stochastic geometry, dense urban area, Digital Elevation Models, land register, building detection, MCMC, RJMCMC, simulated annealing.

Published
2008

12. Gaussian approximations of fluorescence microscope point-spread function models

Author

Zhang, Bo, Zerubia, Josiane, and Olivo-Marin, Jean-Christophe

Subjects
Fluorescence -- Analysis, Gaussian processes -- Usage, Least squares -- Analysis, Astronomy, Physics
Abstract

We comprehensively study the least-squares Gaussian approximations of the diffraction-limited 2D-3D paraxial-nonparaxial point-spread functions (PSFs) of the wide field fluorescence microscope (WFFM), the laser scanning confocal microscope (LSCM), and the disk scanning confocal microscope (DSCM). The PSFs are expressed using the Debye integral. Under an [L.sup.[inifinity]] constraint imposing peak matching, optimal and near-optimal Gaussian parameters are derived for the PSFs. With an [L.sup.1] constraint imposing energy conservation, an optimal Gaussian parameter is derived for the 2D paraxial WFFM PSF. We found that (1) the 2D approximations are all very accurate; (2) no accurate Gaussian approximation exists for 3D WFFM PSFs; and (3) with typical pinhole sizes, the 3D approximations are accurate for the DSCM and nearly perfect for the LSCM. All the Gaussian parameters derived in this study are in explicit analytical form, allowing their direct use in practical applications. OCIS codes: 999.9999, 000.4430, 180.2520, 180.1790, 180.6900, 110.0180

Published
2007

13. SAR image filtering based on the heavy-tailed Rayleigh model

Author

Achim, Alin, Kuruoglu, Ercan E., and Zerubia, Josiane

Subjects
Synthetic aperture radar -- Usage, Rayleigh number -- Analysis, Image processing -- Methods, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A novel homomorphic statistical maximum a posteriori (MAP) filter for speckle noise removal in synthetic aperture radar (SAR) images is presented, based on the heavy-tailed Rayleigh model for the amplitude of the radar cross section (RCS). The developed despeckling filter is applied to simulated and real speckle images, and results reveal that this filter is among the best for speckle removal.

Published
2006

14. SAR amplitude probability density function estimation based on a generalized Gaussian model

Author

Moser, Gabriele, Zerubia, Josiane, and Serpico, Sebastiano B.

Subjects
Synthetic aperture radar -- Analysis, Backscattering -- Analysis, Probabilities -- Analysis, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A distinct parametric estimation technique for synthetic aperture radar (SAR) amplitude data that assumes a Generalized Gaussian (GG) model for complex SAR backscattered signals is described. The tests show that the method-of-log cumulants (MoLC) estimates are acceptable, consistent, and the amplitude probability density function (PDF) is better than other proposed models.

Published
2006

15. Dictionary-based stochastic expectation--maximization for SAR amplitude probability density function estimation

Author

Moser, Gabriele, Zerubia, Josiane, and Serpico, Sebastiano B.

Subjects
Synthetic aperture radar -- Observations, Parameter estimation -- Methods, Probabilities -- Analysis, Satellite imaging -- Observations, Business, Earth sciences, Electronics and electrical industries
Abstract

In remotely sensed data analysis, a crucial problem is represented by the need to develop accurate models for the statistics of the pixel intensities. This paper deals with the problem of probability density function (pdf) estimation in the context of synthetic aperture radar (SAR) amplitude data analysis. Several theoretical and heuristic models for the pdfs of SAR data have been proposed in the literature, which have been proved to be effective for different land-cover typologies, thus making the choice of a single optimal parametric pdf a hard task, especially when dealing with heterogeneous SAR data. In this paper, an innovative estimation algorithm is described, which faces such a problem by adopting a finite mixture model for the amplitude pdf, with mixture components belonging to a given dictionary of SAR-specific pdfs. The proposed method automatically integrates the procedures of selection of the optimal model for each component, of parameter estimation, and of optimization of the number of components by combining the stochastic expectation-maximization iterative methodology with the recently developed 'method-of-log-cumulants' for parametric pdf estimation in the case of nonnegative random variables. Experimental results on several real SAR images are reported, showing that the proposed method accurately models the statistics of SAR amplitude data. Index Terms--Finite mixture models (FMMs), parametric estimation, probability density function (pdf) estimation, stochastic expectation maximization (SEM), synthetic aperture radar (SAR) images.

Published
2006

18. Point processes for unsupervised line network extraction in remote sensing

Author

Lacoste, Caroline, Descombes, Xavier, and Zerubia, Josiane

Subjects
Algorithm, Remote sensing -- Research, Machine vision -- Research, Algorithms, Monte Carlo method
Abstract

This paper addresses the problem of unsupervised extraction of line networks (for example, road or hydrographic networks) from remotely sensed images. We model the target line network by an object process, where the objects correspond to interacting line segments. The prior model, called "Quality Candy," is designed to exploit as fully as possible the topological properties of the network under consideration, while the radiometric properties of the network are modeled using a data term based on statistical tests. Two techniques are used to compute this term: one is more accurate, the other more efficient. A calibration technique is used to choose the model parameters. Optimization is done via simulated annealing using a Reversible Jump Markov Chain Monte Carlo (RJMCMC) algorithm. We accelerate convergence of the algorithm by using appropriate proposal kernels. The results obtained on satellite and aerial images are quantitatively evaluated with respect to manual extractions. A comparison with the results obtained using a previous model, called the "Candy" model, shows the interest of adding quality coefficients with respect to interactions in the prior density. The relevance of using an offline computation of the data potential is shown, in particular, when a proposal kernel based on this computation is added in the RJMCMC algorithm. Index Terms--Stochastic processes, Monte Carlo, simulated annealing, edge and feature detection, remote sensing.

Published
2005

19. Supervised segmentation of remote sensing images based on a tree-structured MRF model

Author

Poggi, Giovanni, Scarpa, Giuseppe, and Zerubia, Josiane B.

Subjects
Regression analysis, Markov processes, Earth sciences, Algorithms, Algorithm, Business, Earth sciences, Electronics and electrical industries
Abstract

Most remote sensing images exhibit a clear hierarchical structure which can be taken into account by defining a suitable model for the unknown segmentation map. To this end, one can resort to the tree-structured Markov random field (MRF) model, which describes a K-ary field by means of a sequence of binary MRFs, each one corresponding to a node in the tree. Here we propose to use the tree-structured MRF model for supervised segmentation. The prior knowledge on the number of classes and their statistical features allows us to generalize the model so that the binary MRFs associated with the nodes can be adapted freely, together with their local parameters, to better fit the data. In addition, it allows us to define a suitable likelihood term to be coupled with the TS-MRF prior so as to obtain a precise global model of the image. Given the complete model, a recursive supervised segmentation algorithm is easily defined. Experiments on a test SPOT image prove the superior performance of the proposed algorithm with respect to other comparable MRF-based or variational algorithms. Index Terms--Hierarchical fields, image classification, image segmentation, Markov random fields (MRFs), regression trees, structured images.

Published
2005

21. Texture feature analysis using a Gauss-Markov model in hyperspectral image classification

Author

Rellier, Guillaume, Descombes, Xavier, Fazon, Frederic, and Zerubia, Josiane

Subjects
Remote sensing -- Research, Business, Earth sciences, Electronics and electrical industries
Abstract

Texture analysis has been widely investigated in the monospectral and multispectral imagery domains. At the same time, new image sensors with a large number of bands (more than ten) have been designed. They are able to provide images with both fine spectral and spatial sampling, and are called hyperspectral images. The aim of this work is to perform a joint texture analysis in both discrete spaces. To achieve this goal, we propose a probabilistic vector texture model, using a Gauss-Markov random field (MRF). The MRF parameters allow the characterization of different hyperspectral textures. A possible application of this work is the classification of urban areas. These areas are not well characterized by radiometry alone, and so we use the MRF parameters as new features in a maximum-likelihood classification algorithm. The results obtained on Airborne Visible/Infrared Imaging Spectrometer hyperspectral images demonstrate that a better classification is achieved when texture information is included in the analysis. Index Terms--Classification, hyperspectral image processing, Markov random fields (MRFs), texture features.

Published
2004

22. An adaptive Gaussian model for satellite image deblurring

Author

Jalobeanu, Andre, Blanc-Feraud, Laure, and Zerubia, Josiane

Subjects
Estimation theory -- Usage, Image processing -- Analysis, Satellite imaging -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

An automatic image deblurring algorithm based on an adaptive Gaussian model giving good deconvolution results on high resolution satellite data is proposed. Results of the hybrid method called complex wavelet packet thresholding (COWPATH) on high resolution satellite images exhibits sharp edges, restored textures and a high SNR in homogeneous areas adapting to the local characteristics of the data.

Published
2004

23. Modeling SAR images with a generalization of the Rayleigh distribution

Author

Kuruoglu, Ercan E. and Zerubia, Josiane

Subjects
Distribution (Probability theory) -- Research, Synthetic aperture radar -- Analysis, Image processing, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A study on the development of a generalization of the classical Rayleigh models for synthetic aperture radar (SAR) images namely the alpha-stable distribution, which is a popular heavytailed noise Rayleigh-mixture model for radar clutter, is presented. It is used in modeling SAR speckle and belongs to the family of spherically invariant random processes (SIRP).

Published
2004

25. Extension of phase correlation to subpixel registration

Author

Foroosh, Hassan, Zerubia, Josiane B., and Berhod, Marc

Subjects
Image processing -- Research, Image processing equipment industry -- Research, Imaging technology, Business, Computers, Electronics, Electronics and electrical industries
Abstract

Analytic expressions for the phase correlation of downsampled images are obtained. It is shown that the signal power in the phase correlation is not concentrated in one peak, but rather, occurs in several peaks, usually adjacent to each other.

Published
2002

27. A generalized sampling theory without band-limiting constraints

Author

Unser, Michael and Zerubia, Josiane

Subjects
Statistical sampling -- Analysis, Signal processing -- Analysis, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract

We consider the problem of the reconstruction of a continuous-time function f(x) [element of] H from the samples of the responses of m linear shift-invariant systems sampled at 1/m the reconstruction rate. We extend Papoulis' generalized sampling theory in two important respects. First, our class of admissible input signals (typ. H = [L.sub.2]) is considerably larger than the subspace of band-limited functions. Second, we use a more general specification of the reconstruction subspace V([Phi]), so that the output of the system can take the form of a band-limited function, a spline, or a wavelet expansion. Since we have enlarged the class of admissible input functions, we have to give up Shannon and Papoulis' principle of an exact reconstruction. Instead, we seek an approximation [Mathematical Expression Omitted] that is consistent in the sense that it produces exactly the same measurements as the input of the system. This leads to a generalization of Papoulis' sampling theorem and a practical reconstruction algorithm that takes the form of a multivariate filter. In particular, we show that the corresponding system acts as a projector from H onto V([Phi]). We then propose two complementary polyphase and modulation domain interpretations of our solution. The polyphase representation leads to a simple understanding of our reconstruction algorithm in terms of a perfect reconstruction filter bank. The modulation analysis, on the other hand, is useful in providing the connection with Papoulis' earlier results for the band-limited case. Finally, we illustrate the general applicability of our theory by presenting new examples of interlaced and derivative sampling using splines.

Published
1998

28. Generaized sampling: stability and performance analysis

Author

Unser, Michael and Zerubia, Josiane

Subjects
Distributions, Theory of (Functional analysis) -- Research, Algorithms -- Research, Error analysis -- Research, Splines -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A stability and performance analysis on generalized sampling was conducted to determine the stability of the algorithm and the strength of the system against noise. Result showed that generalized sampling provides a means for recovering an unknown input function from sample responses. Furthermore, the generalized sampling solution is equivalent to the optimal minimum error approximation.

Published
1997

29. Markov random field image segmentation using cellular neural network

Author

Sziranyi, Tamas and Zerubia, Josiane

Subjects
Image processing -- Digital techniques, Neural networks -- Models, Machine vision -- Research, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract

Markovian approaches to early vision processes need a huge amount of computing power. These algorithms can usually be implemented on parallel computing structures. With the Cellular Neural Networks (CNN), a new image processing tool is coming into consideration. Its VLSI implementation takes place on a single analog chip containing several thousands of cells. Herein we use the CNN UM architecture for statistical image segmentation. The Modified Metropolis Dynamics (MMD) method can be implemented into the raw analog architecture of the CNN. We are able to implement a (pseudo) random field generator using one layer (one memory/cell) of the CNN. We can introduce the whole pseudostochastic segmentation process in the CNN architecture using 8 memories/cell. We use simple arithmetic functions (addition, multiplication), equality-test between neighboring pixels and very simple nonlinear output functions (step, jigsaw). With this architecture, a real VLSI CNN chip can execute a pseudostochastic relaxation algorithm of about 100 iterations in about 1 ms. In the proposed solution the segmentation is unsupervised. We have developed a pixel-level statistical estimation model. The CNN turns the original image into a smooth one. Then we have two gray-level values for every pixel: the original and the smoothed one. These two values are used for estimating the probability distribution of region label at a given pixel. Using the conventional first-order Markov Random Field (MRF) model, some misclassification errors remained at the region boundaries, because of the estimation difficulties in case of low SNR. By using a greater neighborhood, this problem has been avoided. In our CNN experiments, we used a simulation system with a fixed-point integer precision of 16 bits. Our results show that even in the case of the very constrained conditions of value-representations (the interval is (-64, +64), the accuracy is 0.002) can result in an effective and acceptable segmentation.

Published
1997

30. New prospects in line detection by dynamic programming

Author

Merlet, Nicolas and Zerubia, Josiane

Subjects
Dynamic programming -- Research, Image processing -- Digital techniques, Image transmission -- Research
Abstract

The detection of lines in satellite images has drawn a lot of attention within the last 15 years. Problems of resolution, noise, and image understanding are involved, and one of the best methods developed so far is the [F.sup.*] algorithm of Fischler, which achieves robustness, rightness, and rapidity. Like other methods of dynamic programming, it consists of defining a cost which depends on local information; then a summation-minimization process in the image is performed. We present herein a mathematical formalization of the [F.sup.*] algorithm, which allows us to extend the cost both to cliques of more than two points (to deal with the contrast), and to neighborhoods of size larger than one (to take into account the curvature). Thus, all the needed information (contrast, grey-level, curvature) is synthesized in a unique cost function defined on the digital original image. This cost is used to detect roads and valleys in satellite images (SPOT). Index Terms - Line detection, energy minimization, dynamic programming, curvature, satellite images.

Published
1996

31. Mean field annealing using compound Gauss-Markov random fields for edge detection and image estimation

Author

Zerubia, Josiane and Chellappa, Rama

Subjects
Random noise theory -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

In this paper, we consider the problem of edge detection and image estimation in nonstationary images corrupted by additive Gaussian noise. The noise-free image is represented using the compound Gauss-Markov random field of Jeng and Woods and the problem of image estimation and edge detection is posed as a maximum a posteriori estimation problem. Since the a posteriori probability function is nonconvex, computationally intensive stochastic relaxation algorithms are normally required. We proposed a deterministic relaxation method based on mean field annealing with a compound Gauss-Markov random (CGMRF) field model. We present a set of iterative equations for the mean values of the intensity and both horizontal and vertical line processes with or without taking into account some interaction between them. We show the relationship between this technique and two other methods, that described by Geiger and Girosi and the one proposed by Simchony et al. Finally, we present edge detection and image estimation results on several noisy images.

Published
1993

33. A Nonlinear Entropic Variational Model for Image Filtering

Author

Krim Hamid, Zerubia Josiane, and Ben Hamza A

Subjects
MAP estimation, variational methods, robust statistics, differential entropy, gradient descent flows, image denoising, Telecommunication, TK5101-6720, Electronics, TK7800-8360
Abstract

We propose an information-theoretic variational filter for image denoising. It is a result of minimizing a functional subject to some noise constraints, and takes a hybrid form of a negentropy variational integral for small gradient magnitudes and a total variational integral for large gradient magnitudes. The core idea behind this approach is to use geometric insight in helping to construct regularizing functionals and avoiding a subjective choice of a prior in maximum a posteriori estimation. Illustrative experimental results demonstrate a much improved performance of the approach in the presence of Gaussian and heavy-tailed noise.

Published
2004
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34. Hyperspectral Imaging and Classification for Grading Skin Erythema

Author

Abdlaty, Ramy, primary, Doerwald-Munoz, Lilian, additional, Madooei, Ali, additional, Sahli, Samir, additional, Yeh, Shu-Chi A., additional, Zerubia, Josiane, additional, Wong, Raimond K. W., additional, Hayward, Joseph E., additional, Farrell, Thomas J., additional, and Fang, Qiyin, additional

Published
2018
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36. DPA: a deterministic approach to the MAP problem

Author

Berthod, Marc, Kato, Zoltan, and Zerubia, Josiane

Subjects
Simulated annealing (Mathematics) -- Usage, Mathematical optimization -- Usage, Image processing -- Methods, Business, Computers, Electronics, Electronics and electrical industries
Abstract

Deterministic pseudo-annealing (DPA) solves the maximum a posteriori problem in a Markov random field by extending the tentative labeling probability. A merit function and continuous relaxation labeling are used for this extension. The method is deterministic and allows a high degree of parallelism. A change in the definition domain of DPA produces a convex probability function. Randomly weighted graphs are used to evaluate DPA.

Published
1995

37. A Variational Model for Image Classification and Restoration

Author

Samson, Christophe, Blanc-Feraud, Laure, Aubert, Gilles, and Zerubia, Josiane

Subjects
Variational principles -- Analysis, Images, Optical -- Analysis
Abstract

Herein, we present a variational model devoted to image classification coupled with an edge-preserving regularization process. The discrete nature of classification (i.e., to attribute a label to each pixel) has led to the development of many probabilistic image classification models, but rarely to variational ones. In the last decade, the variational approach has proven its efficiency in the field of edge-preserving restoration. In this paper, we add a classification capability which contributes to provide images composed of homogeneous regions with regularized boundaries, a region being defined as a set of pixels belonging to the same class. The soundness of our model is based on the works developed on the phase transition theory in mechanics. The proposed algorithm is fast, easy to implement, and efficient. We compare our results on both synthetic and satellite images with the ones obtained by a stochastic model using a Potts regularization. Index Terms--Variational model, classification, labeling, phase transition theory, edge-preserving regularization, minimization, satellite images.

Published
2000

46. A higher-order active contour model of a 'gas of circles' and its application to tree crown extraction

Author

Horvath, Peter, Jermyn, Ian, Kato, Zoltan, Zerubia, Josiane, Horvath, Peter, Jermyn, Ian, Kato, Zoltan, and Zerubia, Josiane

Abstract

Many image processing problems involve identifying the region in the image domain occupied by a given entity in the scene. Automatic solution of these problems requires models that incorporate significant prior knowledge about the shape of the region. Many methods for including such knowledge run into difficulties when the topology of the region is unknown a priori, for example when the entity is composed of an unknown number of similar objects. Higher-order active contours (HOACs) represent one method for the modelling of non-trivial prior knowledge about shape without necessarily constraining region topology, via the inclusion of non-local interactions between region boundary points in the energy defining the model. The case of an unknown number of circular objects arises in a number of domains, e.g. medical, biological, nanotechnological, and remote sensing imagery. Regions composed of an a priori unknown number of circles may be referred to as a `gas of circles'. In this report, we present a HOAC model of a `gas of circles'. In order to guarantee stable circles, we conduct a stability analysis via a functional Taylor expansion of the HOAC energy around a circular shape. This analysis fixes one of the model parameters in terms of the others and constrains the rest. In conjunction with a suitable likelihood energy, we apply the model to the extraction of tree crowns from aerial imagery, and show that the new model outperforms other techniques.

Published
2006

48. Averaged Template Matching Equations

Author

Figueiredo, Mário, Zerubia, Josiane, Jain, Anil K., Hirani, Anil N., Marsden, Jerrold E., Arvo, James, Figueiredo, Mário, Zerubia, Josiane, Jain, Anil K., Hirani, Anil N., Marsden, Jerrold E., and Arvo, James

Abstract

By exploiting an analogy with averaging procedures in fluid dynamics, we present a set of averaged template matching equations. These equations are analogs of the exact template matching equations that retain all the geometric properties associated with the diffeomorphismgrou p, and which are expected to average out small scale features and so should, as in hydrodynamics, be more computationally efficient for resolving the larger scale features. Froma geometric point of view, the new equations may be viewed as coming from a change in norm that is used to measure the distance between images. The results in this paper represent first steps in a longer termpro gram: what is here is only for binary images and an algorithm for numerical computation is not yet operational. Some suggestions for further steps to develop the results given in this paper are suggested.

Published
2001

50. Image segmentation using Markov random field model in fully parallel cellular network architectures

Author

Szirányi, Tamás, Zerubia, Josiane B., Czúni, László, Geldreich, David, Kato, Zoltán, Szirányi, Tamás, Zerubia, Josiane B., Czúni, László, Geldreich, David, and Kato, Zoltán

Abstract

Markovian approaches to early vision processes need a huge amount of computing power. These algorithms call usually be implemented on parallel computing structures. Herein, we show that the Markovian labeling approach can be implemented in fully parallel cellular network architectures, using simple functions and data representations. This makes possible to implement our model in parallel imaging VLSI chips. As an example, we have developed a simplified statistical image segmentation algorithm for the Cellular Neural/Nonlinear Networks Universal Machine (CNN-UM), which is a new image processing tool, containing thousands of cells with analog dynamics, local memories and processing units. The Modified Metropolis Dynamics (MMD) optimization method can be implemented into the raw analog architecture of the CNN-UM. We can introduce the whole pseudo-stochastic segmentation process in the CNN architecture using 8 memories/cell. We use simple arithmetic functions (addition, multiplication), equality-test between neighboring pixels and very simple nonlinear output functions (step, jigsaw). With this architecture, the proposed VLSI CNN chip can execute a pseudo-stochastic relaxation algorithm of about 100 iterations in about 100 CLS. In the suggested solution the segmentation is unsupervised, where a pixel-level statistical estimation model is used. We have tested different monogrid and multigrid architectures. In our CNN-UM model several complex preprocessing steps can be involved, such as texture-classification or anisotropic diffusion. With these preprocessing steps, our fully parallel cellular system may work as a high-level image segmentation machine, using only simple functions based on the close-neighborhood of a pixel. (C) 2000 Academic Press.

Published
2000

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