Información de una colección
|
|
Documentos disponibles dentro de esta colección (16)
Refinar búsquedaAdvances in Multiresolution for Geometric Modelling / SpringerLink (Online service) ; Neil A. Dodgson ; Michael S. Floater ; Malcolm A. Sabin (2005)
Título : Advances in Multiresolution for Geometric Modelling Tipo de documento: documento electrónico Autores: SpringerLink (Online service) ; Neil A. Dodgson ; Michael S. Floater ; Malcolm A. Sabin Editorial: Berlin, Heidelberg : Springer Berlin Heidelberg Fecha de publicación: 2005 Colección: Mathematics and Visualization, ISSN 1612-3786 Número de páginas: XII, 436 p Il.: online resource ISBN/ISSN/DL: 978-3-540-26808-6 Idioma : Inglés (eng) Palabras clave: Mathematics Computer simulation graphics mathematics Visualization Mathematical models Geometry Modeling and Industrial Simulation Graphics Computational Science Engineering Clasificación: 51 Matemáticas Resumen: Multiresolution methods in geometric modelling are concerned with the generation, representation, and manipulation of geometric objects at several levels of detail. Applications include fast visualization and rendering as well as coding, compression, and digital transmission of 3D geometric objects. This book marks the culmination of the four-year EU-funded research project, Multiresolution in Geometric Modelling (MINGLE). The book contains seven survey papers, providing a detailed overview of recent advances in the various fields within multiresolution modelling, and sixteen additional research papers. Each of the seven parts of the book starts with a survey paper, followed by the associated research papers in that area. All papers were originally presented at the MINGLE 2003 workshop held at Emmanuel College, Cambridge, UK, 9-11 September 2003 Nota de contenido: Compression -- Recent Advances in Compression of 3D Meshes -- Shape Compression using Spherical Geometry Images -- Data Structures -- A Survey on Data Structures for Level-of-Detail Models -- An Algorithm for Decomposing Multi-dimensional Non-manifold Objects into Nearly Manifold Components -- Encoding Level-of-Detail Tetrahedral Meshes -- Multi-Scale Geographic Maps -- Modelling -- Constrained Multiresolution Geometric Modelling -- Multi-scale and Adaptive CS-RBFs for Shape Reconstruction from Clouds of Points -- Parameterization -- Surface Parameterization: a Tutorial and Survey -- Variations on Angle Based Flattening -- Subdivision -- Recent Progress in Subdivision: a Survey -- Optimising 3D Triangulations: Improving the Initial Triangulation for the Butterfly Subdivision Scheme -- Simple Computation of the Eigencomponents of a Subdivision Matrix in the Fourier Domain -- Subdivision as a Sequence of Sampled Cp Surfaces -- Reverse Subdivision -- $$\sqrt 5 $$ -subdivision -- Geometrically Controlled 4-Point Interpolatory Schemes -- Thinning -- Adaptive Thinning for Terrain Modelling and Image Compression -- Simplification of Topologically Complex Assemblies -- Topology Preserving Thinning of Vector Fields on Triangular Meshes -- Wavelets -- Periodic and Spline Multiresolution Analysis and the Lifting Scheme -- Nonstationary Sibling Wavelet Frames on Bounded Intervals: the Duality Relation -- Haar Wavelets on Spherical Triangulations En línea: http://dx.doi.org/10.1007/b138117 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=35250 Advances in Multiresolution for Geometric Modelling [documento electrónico] / SpringerLink (Online service) ; Neil A. Dodgson ; Michael S. Floater ; Malcolm A. Sabin . - Berlin, Heidelberg : Springer Berlin Heidelberg, 2005 . - XII, 436 p : online resource. - (Mathematics and Visualization, ISSN 1612-3786) .
ISBN : 978-3-540-26808-6
Idioma : Inglés (eng)
Palabras clave: Mathematics Computer simulation graphics mathematics Visualization Mathematical models Geometry Modeling and Industrial Simulation Graphics Computational Science Engineering Clasificación: 51 Matemáticas Resumen: Multiresolution methods in geometric modelling are concerned with the generation, representation, and manipulation of geometric objects at several levels of detail. Applications include fast visualization and rendering as well as coding, compression, and digital transmission of 3D geometric objects. This book marks the culmination of the four-year EU-funded research project, Multiresolution in Geometric Modelling (MINGLE). The book contains seven survey papers, providing a detailed overview of recent advances in the various fields within multiresolution modelling, and sixteen additional research papers. Each of the seven parts of the book starts with a survey paper, followed by the associated research papers in that area. All papers were originally presented at the MINGLE 2003 workshop held at Emmanuel College, Cambridge, UK, 9-11 September 2003 Nota de contenido: Compression -- Recent Advances in Compression of 3D Meshes -- Shape Compression using Spherical Geometry Images -- Data Structures -- A Survey on Data Structures for Level-of-Detail Models -- An Algorithm for Decomposing Multi-dimensional Non-manifold Objects into Nearly Manifold Components -- Encoding Level-of-Detail Tetrahedral Meshes -- Multi-Scale Geographic Maps -- Modelling -- Constrained Multiresolution Geometric Modelling -- Multi-scale and Adaptive CS-RBFs for Shape Reconstruction from Clouds of Points -- Parameterization -- Surface Parameterization: a Tutorial and Survey -- Variations on Angle Based Flattening -- Subdivision -- Recent Progress in Subdivision: a Survey -- Optimising 3D Triangulations: Improving the Initial Triangulation for the Butterfly Subdivision Scheme -- Simple Computation of the Eigencomponents of a Subdivision Matrix in the Fourier Domain -- Subdivision as a Sequence of Sampled Cp Surfaces -- Reverse Subdivision -- $$\sqrt 5 $$ -subdivision -- Geometrically Controlled 4-Point Interpolatory Schemes -- Thinning -- Adaptive Thinning for Terrain Modelling and Image Compression -- Simplification of Topologically Complex Assemblies -- Topology Preserving Thinning of Vector Fields on Triangular Meshes -- Wavelets -- Periodic and Spline Multiresolution Analysis and the Lifting Scheme -- Nonstationary Sibling Wavelet Frames on Bounded Intervals: the Duality Relation -- Haar Wavelets on Spherical Triangulations En línea: http://dx.doi.org/10.1007/b138117 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=35250 Ejemplares
Signatura Medio Ubicación Sub-localización Sección Estado ningún ejemplar
Título : Algebraic Geometry and Geometric Modeling Tipo de documento: documento electrónico Autores: SpringerLink (Online service) ; Mohamed Elkadi ; Bernard Mourrain ; Ragni Piene Editorial: Berlin, Heidelberg : Springer Berlin Heidelberg Fecha de publicación: 2006 Colección: Mathematics and Visualization, ISSN 1612-3786 Número de páginas: X, 252 p. 52 illus., 27 illus. in color Il.: online resource ISBN/ISSN/DL: 978-3-540-33275-6 Idioma : Inglés (eng) Palabras clave: Mathematics Computer science Algebraic geometry Mathematical models Applied mathematics Engineering Geometry Modeling and Industrial Math Applications in Science Appl.Mathematics/Computational Methods of Clasificación: 51 Matemáticas Resumen: Algebraic Geometry provides an impressive theory targeting the understanding of geometric objects defined algebraically. Geometric Modeling uses every day, in order to solve practical and difficult problems, digital shapes based on algebraic models. In this book, we have collected articles bridging these two areas. The confrontation of the different points of view results in a better analysis of what the key challenges are and how they can be met. We focus on the following important classes of problems: implicitization, classification, and intersection. The combination of illustrative pictures, explicit computations and review articles will help the reader to handle these subjects Nota de contenido: Algebraic geometry and geometric modeling: insight and computation -- Implicitization using approximation complexes -- Piecewise approximate implicitization: experiments using industrial data -- Computing with parameterized varieties -- Implicitization and Distance Bounds -- Singularities and their deformations: how they change the shape and view of objects -- Overview of topological properties of real algebraic surfaces -- Illustrating the classification of real cubic surfaces -- Bézier patches on almost toric surfaces -- On parametric surfaces of low degree in P3(C) -- On the intersection with revolution and canal surfaces -- A sampling algorithm computing self-intersections of parametric surfaces -- Elimination in generically rigid 3D geometric constraint systems -- Minkowski decomposition of convex lattice polygons -- Reducing the number of variables of a polynomial En línea: http://dx.doi.org/10.1007/978-3-540-33275-6 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34957 Algebraic Geometry and Geometric Modeling [documento electrónico] / SpringerLink (Online service) ; Mohamed Elkadi ; Bernard Mourrain ; Ragni Piene . - Berlin, Heidelberg : Springer Berlin Heidelberg, 2006 . - X, 252 p. 52 illus., 27 illus. in color : online resource. - (Mathematics and Visualization, ISSN 1612-3786) .
ISBN : 978-3-540-33275-6
Idioma : Inglés (eng)
Palabras clave: Mathematics Computer science Algebraic geometry Mathematical models Applied mathematics Engineering Geometry Modeling and Industrial Math Applications in Science Appl.Mathematics/Computational Methods of Clasificación: 51 Matemáticas Resumen: Algebraic Geometry provides an impressive theory targeting the understanding of geometric objects defined algebraically. Geometric Modeling uses every day, in order to solve practical and difficult problems, digital shapes based on algebraic models. In this book, we have collected articles bridging these two areas. The confrontation of the different points of view results in a better analysis of what the key challenges are and how they can be met. We focus on the following important classes of problems: implicitization, classification, and intersection. The combination of illustrative pictures, explicit computations and review articles will help the reader to handle these subjects Nota de contenido: Algebraic geometry and geometric modeling: insight and computation -- Implicitization using approximation complexes -- Piecewise approximate implicitization: experiments using industrial data -- Computing with parameterized varieties -- Implicitization and Distance Bounds -- Singularities and their deformations: how they change the shape and view of objects -- Overview of topological properties of real algebraic surfaces -- Illustrating the classification of real cubic surfaces -- Bézier patches on almost toric surfaces -- On parametric surfaces of low degree in P3(C) -- On the intersection with revolution and canal surfaces -- A sampling algorithm computing self-intersections of parametric surfaces -- Elimination in generically rigid 3D geometric constraint systems -- Minkowski decomposition of convex lattice polygons -- Reducing the number of variables of a polynomial En línea: http://dx.doi.org/10.1007/978-3-540-33275-6 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34957 Ejemplares
Signatura Medio Ubicación Sub-localización Sección Estado ningún ejemplar
Título : Innovations for Shape Analysis : Models and Algorithms Tipo de documento: documento electrónico Autores: SpringerLink (Online service) ; Michael Breuß ; Alfred Bruckstein ; Petros Maragos Editorial: Berlin, Heidelberg : Springer Berlin Heidelberg Fecha de publicación: 2013 Otro editor: Imprint: Springer Colección: Mathematics and Visualization, ISSN 1612-3786 Número de páginas: XXIV, 496 p Il.: online resource ISBN/ISSN/DL: 978-3-642-34141-0 Idioma : Inglés (eng) Palabras clave: Mathematics Computer graphics mathematics Visualization Imaging, Vision, Pattern Recognition and Graphics Computational Numerical Analysis Clasificación: 51 Matemáticas Resumen: The concept of 'shape' is at the heart of image processing and computer vision, yet researchers still have some way to go to replicate the human brain's ability to extrapolate meaning from the most basic of outlines. This volume reflects the advances of the last decade, which have also opened up tough new challenges in image processing. Today's applications require flexible models as well as efficient, mathematically justified algorithms that allow data processing within an acceptable timeframe. Examining important topics in continuous-scale and discrete modeling, as well as in modern algorithms, the book is the product of a key seminar focused on innovations in the field. It is a thorough introduction to the latest technology, especially given the tutorial style of a number of chapters. It also succeeds in identifying promising avenues for future research. The topics covered include mathematical morphology, skeletonization, statistical shape modeling, continuous-scale shape models such as partial differential equations and the theory of discrete shape descriptors. Some authors highlight new areas of enquiry such as partite skeletons, multi-component shapes, deformable shape models, and the use of distance fields. Combining the latest theoretical analysis with cutting-edge applications, this book will attract both academics and engineers Nota de contenido: Part I Discrete Shape Analysis: 1 Modeling Three-Dimensional Morse and Morse-Smale Complexes by L. Comic et al -- 2 Geodesic Regression and its Application to Shape Analysis by P.Th.Fletcher -- 3 Segmentation and Skeletonization on Arbitrary Graphs Using Multiscale Morphology and Active Contours by P.Maragos and K.Drakopoulos -- 4 Refined Homotopic Thinning Algorithms and Quality Measures for Skeletonisation Methods by P.Peter and M.Breuß -- 5 Nested Sphere Statistics of Skeletal Models by S.M.Pizer et al -- 6 3D Curve Skeleton Computation and Use for Discrete Shape Analysis by G.Sanniti di Baja and C.Arcelli -- 7 Orientation and Anisotropy of Multi-component Shapes by J. Žunic and P.L.Rosin -- Part II Partial Differential Equations for Shape Analysis: 8 Stable semi-local features for non-rigid shapes by R.Litman et al -- 9 A brief survey on semi-Lagrangian schemes for image processing by E.Carlini et al -- 10 Shape reconstruction of symmetric surfaces using Photometric Stereo by R.Mecca and S.Tozza -- 11 Remeshing by Curvature Driven Diffusion by S.Morigi and M.Rucci -- 12 Group-valued Regularization for Motion Segmentation of Articulated Shapes by G.Rosman et al -- 13 Point Cloud Segmentation and Denoising via Constrained Nonlinear Least Squares Normal Estimates by E.Castillo et al -- 14 Distance Images and the Enclosure Field: Applications in Intermediate-Level Computer and Biological Vision by S.W.Zucker -- Part III Optimization Methods for Shape Analysis: 15 Non-rigid Shape Correspondence Using Pointwise Surface Descriptors and Metric Structures by A.Dubrovina et al -- 16 A Review of Geometry Recovery from a Single Image Focusing on Curved Object Reconstruction by M.R.Oswald et al -- 17 On Globally Optimal Local Modeling: From Moving Least Squares to Over-Parametrization by S. Shem-Tov et al -- 18 Incremental Level Set Tracking by S.Dekel et al -- 19 Simultaneous Convex Optimization of Regions and Region Parameters in Image Segmentation Models by E.Bae et al -- 20 Fluctuating Distance Fields, Parts, Three-Partite Skeletons by S.Tari -- 21 Integrated DEM Construction and Calibration of Hyperspectral Imagery: A Remote Sensing Perspective by Ch.Wöhler and A.Grumpe -- Index En línea: http://dx.doi.org/10.1007/978-3-642-34141-0 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=32547 Innovations for Shape Analysis : Models and Algorithms [documento electrónico] / SpringerLink (Online service) ; Michael Breuß ; Alfred Bruckstein ; Petros Maragos . - Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2013 . - XXIV, 496 p : online resource. - (Mathematics and Visualization, ISSN 1612-3786) .
ISBN : 978-3-642-34141-0
Idioma : Inglés (eng)
Palabras clave: Mathematics Computer graphics mathematics Visualization Imaging, Vision, Pattern Recognition and Graphics Computational Numerical Analysis Clasificación: 51 Matemáticas Resumen: The concept of 'shape' is at the heart of image processing and computer vision, yet researchers still have some way to go to replicate the human brain's ability to extrapolate meaning from the most basic of outlines. This volume reflects the advances of the last decade, which have also opened up tough new challenges in image processing. Today's applications require flexible models as well as efficient, mathematically justified algorithms that allow data processing within an acceptable timeframe. Examining important topics in continuous-scale and discrete modeling, as well as in modern algorithms, the book is the product of a key seminar focused on innovations in the field. It is a thorough introduction to the latest technology, especially given the tutorial style of a number of chapters. It also succeeds in identifying promising avenues for future research. The topics covered include mathematical morphology, skeletonization, statistical shape modeling, continuous-scale shape models such as partial differential equations and the theory of discrete shape descriptors. Some authors highlight new areas of enquiry such as partite skeletons, multi-component shapes, deformable shape models, and the use of distance fields. Combining the latest theoretical analysis with cutting-edge applications, this book will attract both academics and engineers Nota de contenido: Part I Discrete Shape Analysis: 1 Modeling Three-Dimensional Morse and Morse-Smale Complexes by L. Comic et al -- 2 Geodesic Regression and its Application to Shape Analysis by P.Th.Fletcher -- 3 Segmentation and Skeletonization on Arbitrary Graphs Using Multiscale Morphology and Active Contours by P.Maragos and K.Drakopoulos -- 4 Refined Homotopic Thinning Algorithms and Quality Measures for Skeletonisation Methods by P.Peter and M.Breuß -- 5 Nested Sphere Statistics of Skeletal Models by S.M.Pizer et al -- 6 3D Curve Skeleton Computation and Use for Discrete Shape Analysis by G.Sanniti di Baja and C.Arcelli -- 7 Orientation and Anisotropy of Multi-component Shapes by J. Žunic and P.L.Rosin -- Part II Partial Differential Equations for Shape Analysis: 8 Stable semi-local features for non-rigid shapes by R.Litman et al -- 9 A brief survey on semi-Lagrangian schemes for image processing by E.Carlini et al -- 10 Shape reconstruction of symmetric surfaces using Photometric Stereo by R.Mecca and S.Tozza -- 11 Remeshing by Curvature Driven Diffusion by S.Morigi and M.Rucci -- 12 Group-valued Regularization for Motion Segmentation of Articulated Shapes by G.Rosman et al -- 13 Point Cloud Segmentation and Denoising via Constrained Nonlinear Least Squares Normal Estimates by E.Castillo et al -- 14 Distance Images and the Enclosure Field: Applications in Intermediate-Level Computer and Biological Vision by S.W.Zucker -- Part III Optimization Methods for Shape Analysis: 15 Non-rigid Shape Correspondence Using Pointwise Surface Descriptors and Metric Structures by A.Dubrovina et al -- 16 A Review of Geometry Recovery from a Single Image Focusing on Curved Object Reconstruction by M.R.Oswald et al -- 17 On Globally Optimal Local Modeling: From Moving Least Squares to Over-Parametrization by S. Shem-Tov et al -- 18 Incremental Level Set Tracking by S.Dekel et al -- 19 Simultaneous Convex Optimization of Regions and Region Parameters in Image Segmentation Models by E.Bae et al -- 20 Fluctuating Distance Fields, Parts, Three-Partite Skeletons by S.Tari -- 21 Integrated DEM Construction and Calibration of Hyperspectral Imagery: A Remote Sensing Perspective by Ch.Wöhler and A.Grumpe -- Index En línea: http://dx.doi.org/10.1007/978-3-642-34141-0 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=32547 Ejemplares
Signatura Medio Ubicación Sub-localización Sección Estado ningún ejemplar
Título : Mathematical Foundations of Scientific Visualization, Computer Graphics, and Massive Data Exploration Tipo de documento: documento electrónico Autores: SpringerLink (Online service) ; Torsten Möller ; Bernd Hamann ; Robert D. Russell Editorial: Berlin, Heidelberg : Springer Berlin Heidelberg Fecha de publicación: 2009 Colección: Mathematics and Visualization, ISSN 1612-3786 Número de páginas: X, 350 p. 183 illus., 134 illus. in color Il.: online resource ISBN/ISSN/DL: 978-3-540-49926-8 Idioma : Inglés (eng) Palabras clave: Computer science Computers Mathematics graphics Application software mathematics Science Applications Theory of Computation Computational and Numerical Analysis Graphics Computing Engineering Clasificación: 51 Matemáticas Resumen: Visualization is one of the most active and exciting areas of Mathematics and Computing Science, and indeed one which is only beginning to mature. Current visualization algorithms break down for very large data sets. While present approaches use multi-resolution ideas, future data sizes will not be handled that way. New algorithms based on sophisticated mathematical modeling techniques must be devised which will permit the extraction of high-level topological structures that can be visualized. For these reasons a workshop was organized at the Banff International Research Station, focused specifically on mathematical issues. A primary objective of the workshop was to gather together a diverse set of researchers in the mathematical areas relevant to the recent advances in order to discuss the research challenges facing this field in the next several years. The workshop was organized into five different thrusts: - Topology and Discrete Methods - Signal and Geometry Processing - Partial Differential Equations - Data Approximation Techniques - Massive Data Applications This book presents a summary of the research ideas presented at this workshop Nota de contenido: Maximizing Adaptivity in Hierarchical Topological Models Using Cancellation Trees -- The TOPORRERY: computation and presentation of multi-resolution topology -- Isocontour based Visualization of Time-varying Scalar Fields -- DeBruijn Counting for Visualization Algorithms -- Topological Methods for Visualizing Vortical Flows -- Stability and Computation of Medial Axes - a State-of-the-Art Report -- Local Geodesic Parametrization: an Ant’s Perspective -- Tensor-Fields Visualization Using a Fabric-like Texture Applied to Arbitrary Two-dimensional Surfaces -- Flow Visualization via Partial Differential Equations -- Iterative Twofold Line Integral Convolution for Texture-Based Vector Field Visualization -- Constructing 3D Elliptical Gaussians for Irregular Data -- From Sphere Packing to the Theory of Optimal Lattice Sampling -- Reducing Interpolation Artifacts by Globally Fairing Contours -- Time- and Space-efficient Error Calculation for Multiresolution Direct Volume Rendering -- Massive Data Visualization: A Survey -- Compression and Occlusion Culling for Fast Isosurface Extraction from Massive Datasets -- Volume Visualization of Multiple Alignment of Large Genomic DNA -- Model-based Visualization - Computing Perceptually Optimal Visualizations En línea: http://dx.doi.org/10.1007/b106657 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34006 Mathematical Foundations of Scientific Visualization, Computer Graphics, and Massive Data Exploration [documento electrónico] / SpringerLink (Online service) ; Torsten Möller ; Bernd Hamann ; Robert D. Russell . - Berlin, Heidelberg : Springer Berlin Heidelberg, 2009 . - X, 350 p. 183 illus., 134 illus. in color : online resource. - (Mathematics and Visualization, ISSN 1612-3786) .
ISBN : 978-3-540-49926-8
Idioma : Inglés (eng)
Palabras clave: Computer science Computers Mathematics graphics Application software mathematics Science Applications Theory of Computation Computational and Numerical Analysis Graphics Computing Engineering Clasificación: 51 Matemáticas Resumen: Visualization is one of the most active and exciting areas of Mathematics and Computing Science, and indeed one which is only beginning to mature. Current visualization algorithms break down for very large data sets. While present approaches use multi-resolution ideas, future data sizes will not be handled that way. New algorithms based on sophisticated mathematical modeling techniques must be devised which will permit the extraction of high-level topological structures that can be visualized. For these reasons a workshop was organized at the Banff International Research Station, focused specifically on mathematical issues. A primary objective of the workshop was to gather together a diverse set of researchers in the mathematical areas relevant to the recent advances in order to discuss the research challenges facing this field in the next several years. The workshop was organized into five different thrusts: - Topology and Discrete Methods - Signal and Geometry Processing - Partial Differential Equations - Data Approximation Techniques - Massive Data Applications This book presents a summary of the research ideas presented at this workshop Nota de contenido: Maximizing Adaptivity in Hierarchical Topological Models Using Cancellation Trees -- The TOPORRERY: computation and presentation of multi-resolution topology -- Isocontour based Visualization of Time-varying Scalar Fields -- DeBruijn Counting for Visualization Algorithms -- Topological Methods for Visualizing Vortical Flows -- Stability and Computation of Medial Axes - a State-of-the-Art Report -- Local Geodesic Parametrization: an Ant’s Perspective -- Tensor-Fields Visualization Using a Fabric-like Texture Applied to Arbitrary Two-dimensional Surfaces -- Flow Visualization via Partial Differential Equations -- Iterative Twofold Line Integral Convolution for Texture-Based Vector Field Visualization -- Constructing 3D Elliptical Gaussians for Irregular Data -- From Sphere Packing to the Theory of Optimal Lattice Sampling -- Reducing Interpolation Artifacts by Globally Fairing Contours -- Time- and Space-efficient Error Calculation for Multiresolution Direct Volume Rendering -- Massive Data Visualization: A Survey -- Compression and Occlusion Culling for Fast Isosurface Extraction from Massive Datasets -- Volume Visualization of Multiple Alignment of Large Genomic DNA -- Model-based Visualization - Computing Perceptually Optimal Visualizations En línea: http://dx.doi.org/10.1007/b106657 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=34006 Ejemplares
Signatura Medio Ubicación Sub-localización Sección Estado ningún ejemplar
Título : New Developments in the Visualization and Processing of Tensor Fields Tipo de documento: documento electrónico Autores: SpringerLink (Online service) ; David H. Laidlaw ; Anna Vilanova Editorial: Berlin, Heidelberg : Springer Berlin Heidelberg Fecha de publicación: 2012 Otro editor: Imprint: Springer Colección: Mathematics and Visualization, ISSN 1612-3786 Número de páginas: XXI, 384 p. 153 illus., 129 illus. in color Il.: online resource ISBN/ISSN/DL: 978-3-642-27343-8 Idioma : Inglés (eng) Palabras clave: Mathematics Computer graphics Visualization Imaging, Vision, Pattern Recognition and Graphics Clasificación: 51 Matemáticas Resumen: Bringing together key researchers in disciplines ranging from visualization and image processing to applications in structural mechanics, fluid dynamics, elastography, and numerical mathematics, the workshop that generated this edited volume was the third in the successful Dagstuhl series. Its aim, reflected in the quality and relevance of the papers presented, was to foster collaboration and fresh lines of inquiry in the analysis and visualization of tensor fields, which offer a concise model for numerous physical phenomena. Despite their utility, there remains a dearth of methods for studying all but the simplest ones, a shortage the workshops aim to address. Documenting the latest progress and open research questions in tensor field analysis, the chapters reflect the excitement and inspiration generated by this latest Dagstuhl workshop, held in July 2009. The topics they address range from applications of the analysis of tensor fields to purer research into their mathematical and analytical properties. They show how cooperation and the sharing of ideas and data between those engaged in pure and applied research can open new vistas in the study of tensor fields Nota de contenido: Part I Structure-Tensor Computation -- Part II Tensor-Field Visualization -- Part III Applications of Tensor-Field Analysis and Visualization -- Part IV Diffusion Weighted MRI Visualization -- Part V Beyond Second-Order Diffusion Tensor MRI -- Part VI Tensor Metrics -- Part VII Tensor Analysis En línea: http://dx.doi.org/10.1007/978-3-642-27343-8 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=32966 New Developments in the Visualization and Processing of Tensor Fields [documento electrónico] / SpringerLink (Online service) ; David H. Laidlaw ; Anna Vilanova . - Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2012 . - XXI, 384 p. 153 illus., 129 illus. in color : online resource. - (Mathematics and Visualization, ISSN 1612-3786) .
ISBN : 978-3-642-27343-8
Idioma : Inglés (eng)
Palabras clave: Mathematics Computer graphics Visualization Imaging, Vision, Pattern Recognition and Graphics Clasificación: 51 Matemáticas Resumen: Bringing together key researchers in disciplines ranging from visualization and image processing to applications in structural mechanics, fluid dynamics, elastography, and numerical mathematics, the workshop that generated this edited volume was the third in the successful Dagstuhl series. Its aim, reflected in the quality and relevance of the papers presented, was to foster collaboration and fresh lines of inquiry in the analysis and visualization of tensor fields, which offer a concise model for numerous physical phenomena. Despite their utility, there remains a dearth of methods for studying all but the simplest ones, a shortage the workshops aim to address. Documenting the latest progress and open research questions in tensor field analysis, the chapters reflect the excitement and inspiration generated by this latest Dagstuhl workshop, held in July 2009. The topics they address range from applications of the analysis of tensor fields to purer research into their mathematical and analytical properties. They show how cooperation and the sharing of ideas and data between those engaged in pure and applied research can open new vistas in the study of tensor fields Nota de contenido: Part I Structure-Tensor Computation -- Part II Tensor-Field Visualization -- Part III Applications of Tensor-Field Analysis and Visualization -- Part IV Diffusion Weighted MRI Visualization -- Part V Beyond Second-Order Diffusion Tensor MRI -- Part VI Tensor Metrics -- Part VII Tensor Analysis En línea: http://dx.doi.org/10.1007/978-3-642-27343-8 Link: https://biblioteca.cunef.edu/gestion/catalogo/index.php?lvl=notice_display&id=32966 Ejemplares
Signatura Medio Ubicación Sub-localización Sección Estado ningún ejemplar
Permalink
Permalink
Permalink
Permalink
Permalink
PermalinkPermalink
Permalink
Permalink
Permalink
