Stochastic geometry for image analysis /

"This book develops the stochastic geometry framework for image analysis purpose. Two main frameworks are described: marked point process and random closed sets models. We derive the main issues for defining an appropriate model. The algorithms for sampling and optimizing the models as well as...

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Λεπτομέρειες βιβλιογραφικής εγγραφής
Άλλοι συγγραφείς: Descombes, Xavier
Μορφή: Ηλ. βιβλίο
Γλώσσα:English
Έκδοση: London : ISTE ; 2012.
Hoboken, NJ : Wiley, 2012.
Σειρά:Digital signal and image processing series.
Θέματα:
Διαθέσιμο Online:Full Text via HEAL-Link
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049 |a MAIN 
245 0 0 |a Stochastic geometry for image analysis /  |c edited by Xavier Descombes. 
264 1 |a London :  |b ISTE ;  |c 2012. 
264 1 |a Hoboken, NJ :  |b Wiley,  |c 2012. 
300 |a 1 online resource (x, 345 pages) :  |b illustrations. 
336 |a text  |b txt  |2 rdacontent 
337 |a computer  |b c  |2 rdamedia 
338 |a online resource  |b cr  |2 rdacarrier 
490 1 |a Digital signal and image processing series 
520 |a "This book develops the stochastic geometry framework for image analysis purpose. Two main frameworks are described: marked point process and random closed sets models. We derive the main issues for defining an appropriate model. The algorithms for sampling and optimizing the models as well as for estimating parameters are reviewed. Numerous applications, covering remote sensing images, biological and medical imaging, are detailed. This book provides all the necessary tools for developing an image analysis application based on modern stochastic modeling"--  |c Provided by publisher. 
504 |a Includes bibliographical references and index. 
505 0 0 |g Chapter 1.  |t Introduction /  |r X. Descombes --  |g Chapter 2.  |t Marked Point Processes for Object Detection /  |r X. Descombes --  |g 2.1.  |t Principal definitions --  |g 2.2.  |t Density of a point process --  |g 2.3.  |t Marked point processes --  |g 2.4.  |t Point processes and image analysis --  |g 2.4.1.  |t Bayesian versus non-Bayesian --  |g 2.4.2.  |t A priori versus reference measure --  |g Chapter 3.  |t Random Sets for Texture Analysis /  |r C. Lantǔjoul, M. Schmitt --  |g 3.1.  |t Introduction --  |g 3.2.  |t Random sets --  |g 3.2.1.  |t Insufficiency of the spatial law --  |g 3.2.2.  |t Introduction of a topological context --  |g 3.2.3.  |t The theory of random closed sets (RACS) --  |g 3.2.4.  |t Some examples --  |g 3.2.5.  |t Stationarity and isotropy --  |g 3.3.  |t Some geostatistical aspects --  |g 3.3.1.  |t The ergodicity assumption --  |g 3.3.2.  |t Inference of the DF of a stationary ergodic RACS --  |g 3.3.2.1.  |t Construction of the estimator --  |g 3.3.2.2.  |t On sampling --  |g 3.3.3.  |t Individual analysis of objects --  |g 3.4.  |t Some morphological aspects --  |g 3.4.1.  |t Geometric interpretation --  |g 3.4.1.1.  |t Point --  |g 3.4.1.2.  |t Pair of points --  |g 3.4.1.3.  |t Segment --  |g 3.4.1.4.  |t Ball --  |g 3.4.2.  |t Filtering --  |g 3.4.2.1.  |t Opening and closing --  |g 3.4.2.2.  |t Sequential alternate filtering --  |g 3.5.  |t Appendix: demonstration of Miles' formulae for the Boolean model --  |g Chapter 4.  |t Simulation and Optimization /  |r F. Lafarge, X. Descombes, E. Zhizhina, R. Minlos --  |g 4.1.  |t Discrete simulations: Markov chain Monte Carlo algorithms --  |g 4.1.1.  |t Irreducibility, recurrence, and ergodicity --  |g 4.1.1.1.  |t Definitions --  |g 4.1.1.2.  |t Stationarity --  |g 4.1.1.3.  |t Convergence --  |g 4.1.1.4.  |t Irreducibility --  |g 4.1.1.5.  |t Aperiodicity --  |g 4.1.1.6.  |t Harris recurrence --  |g 4.1.1.7.  |t Ergodicity --  |g 4.1.1.8.  |t Geometric ergodicity --  |g 4.1.1.9.  |t Central limit theorem --  |g 4.1.2.  |t Metropolis-Hastings algorithm --  |g 4.1.3.  |t Dimensional jumps --  |g 4.1.3.1.  |t Mixture of kernels --  |g 4.1.3.2.  |t & pi;-reversibility --  |g 4.1.4.  |t Standard proposition kernels --  |g 4.1.4.1.  |t Simple perturbations --  |g 4.1.4.2.  |t Model switch --  |g 4.1.4.3.  |t Birth and death --  |g 4.1.5.  |t Specific proposition kernels --  |g 4.1.5.1.  |t Creating complex transitions from standard transitions --  |g 4.1.5.2.  |t Data-driven perturbations --  |g 4.1.5.3.  |t Perturbations directed by the current state --  |g 4.1.5.4.  |t Composition of kernels --  |g 4.2.  |t Continuous simulations --  |g 4.2.1.  |t Diffusion algorithm --  |g 4.2.2.  |t Birth and death algorithm --  |g 4.2.3.  |t Muliple births and deaths algorithm --  |g 4.2.3.1.  |t Convergence of the distributions --  |g 4.2.3.2.  |t Birth and death process --  |g 4.2.4.  |t Discrete approximation --  |g 4.2.4.1.  |t Acceleration of the multiple births and deaths algorithm --  |g 4.3.  |t Mixed simulations --  |g 4.3.1.  |t Jump process --  |g 4.3.2.  |t Diffusion process --  |g 4.3.3.  |t Coordination of jumps and diffusions --  |g 4.4.  |t Simulated annealing --  |g 4.4.1.  |t Cooling schedule --  |g 4.4.2.  |t Initial temperature T<sub>0</sub> --  |g 4.4.3.  |t Logarithmic decrease --  |g 4.4.4.  |t Geometric decrease --  |g 4.4.5.  |t Adaptive reduction --  |g 4.4.6.  |t Stopping criterion/final temperature --  |g Chapter 5.  |t Parametric Inference for Marked Point Processes in Image Analysis /  |r R. Stoica, F. Chatelain, M. Sigelle --  |g 5.1.  |t Introduction --  |g 5.2.  |t First question: what and where are the objects in the image? --  |g 5.3.  |t Second question: what are the parameters of the point process that models the objects observed in the image? --  |g 5.3.1.  |t Complete data --  |g 5.3.1.1.  |t Maximum likelihood --  |g 5.3.1.2.  |t Maximum pseudolikelihood --  |g 5.3.2.  |t Incomplete data: EM algorithm --  |g 5.4.  |t Conclusion and perspectives --  |g 5.5.  |t Acknowledgments --  |g Chapter 6.  |t How to Set Up a Point Process? /  |r X. Descombes --  |g 6.1.  |t From disks to polygons, via a discussion of segments --  |g 6.2.  |t From no overlap to alignment --  |g 6.3.  |t From the likelihood to a hypothesis test --  |g 6.4.  |t From Metropolis-Hastings to multiple births and deaths --  |g Chapter 7.  |t Population Counting /  |r X. Descombes --  |g 7.1.  |t Detection of Virchow-Robin spaces --  |g 7.1.1.  |t Data modeling --  |g 7.1.2.  |t Marked point process --  |g 7.1.3.  |t Reversible jump MCMC algorithm --  |g 7.1.4.  |t Results --  |g 7.2.  |t Evaluation of forestry resources --  |g 7.2.1.  |t 2D model --  |g 7.2.1.1.  |t Prior --  |g 7.2.1.2.  |t Data term --  |g 7.2.1.3.  |t Optimization --  |g 7.2.1.4.  |t Results --  |g 7.2.2.  |t 3D model --  |g 7.2.2.1.  |t Results --  |g 7.3.  |t Counting a population of flamingos --  |g 7.3.1.  |t Estimation of the flamingo color --  |g 7.3.2.  |t Simulation and optimization by multiple births and deaths --  |g 7.3.3.  |t Results --  |g 7.4.  |t Counting the boats at a port --  |g 7.4.1.  |t Initialization of the optimization algorithm --  |g 7.4.1.1.  |t Parameter & gamma;<sub>d</sub> --  |g 7.4.1.2.  |t Calibration of the do parameter --  |g 7.4.2.  |t Initial results --  |g 7.4.3.  |t Modification of the data energy --  |g 7.4.3.1.  |t First modification of the prior energy --  |g 7.4.3.2.  |t Second modification of the prior energy --  |g Chapter 8.  |t Structure Extraction /  |r F. Lafarge, X. Descombes --  |g 8.1.  |t Detection of the road network --  |g 8.2.  |t Extraction of building footprints --  |g 8.3.  |t Representation of natural textures --  |g 8.3.1.  |t Simple model --  |g 8.3.1.1.  |t Data term --  |g 8.3.1.2.  |t Sampling by jump diffusion --  |g 8.3.1.3.  |t Results --  |g 8.3.2.  |t Models with complex interactions --  |g Chapter 9.  |t Shape Recognition /  |r F. Lafarge, C. Mallet --  |g 9.1.  |t Modeling of a LIDAR signal --  |g 9.1.1.  |t Motivation --  |g 9.1.2.  |t Model library --  |g 9.1.2.1.  |t Energy formulation --  |g 9.1.3.  |t Sampling --  |g 9.1.4.  |t Results --  |g 9.1.4.1.  |t Simulated data --  |g 9.1.4.2.  |t Satellite data: large footprint waveforms --  |g 9.1.4.3.  |t Airborne data: small footprint waveforms --  |g 9.1.4.4.  |t Application to the classification of 3D point clouds --  |g 9.2.  |t 3D reconstruction of buildings --  |g 9.2.1.  |t Library of 3D models --  |g 9.2.2.  |t Bayesian formulation --  |g 9.2.2.1.  |t Likelihood --  |g 9.2.2.2.  |t A priori --  |g 9.2.3.  |t Optimization --  |g 9.2.4.  |t Results and discussion --  |t Bibliography --  |t List of Authors --  |t Index. 
588 0 |a Print version record. 
650 0 |a Image processing  |x Statistical methods. 
650 0 |a Stochastic geometry. 
650 4 |a Image processing  |x Statistical methods. 
650 4 |a Stochastic geometry. 
650 7 |a TECHNOLOGY & ENGINEERING  |x Imaging Systems.  |2 bisacsh 
650 7 |a Image processing  |x Statistical methods.  |2 fast  |0 (OCoLC)fst00967528 
650 7 |a Stochastic geometry.  |2 fast  |0 (OCoLC)fst01133509 
650 7 |a Image processing / Statistical methods.  |2 local 
650 7 |a Stochastic geometry.  |2 local 
655 4 |a Electronic books. 
700 1 |a Descombes, Xavier. 
776 0 8 |i Print version:  |t Stochastic geometry for image analysis.  |d London : ISTE ; Hoboken, NJ : Wiley, 2012  |z 9781848212404  |w (DLC) 2011036864  |w (OCoLC)751824143 
830 0 |a Digital signal and image processing series. 
856 4 0 |u https://doi.org/10.1002/9781118601235  |z Full Text via HEAL-Link 
994 |a 92  |b DG1