STARs 2005

Permanent URI for this collection

https://diglib.eg.org/handle/10.2312/251

Image-based Representations for Accelerated Rendering of Complex Scenes

[meta data] [files: ]
Jeschke, Stefan
Wimmer, Michael
Purgathofer, Werner

Laplacian Mesh Processing

[meta data] [files:
053-070.pdf
]
Sorkine, Olga

A Survey of General-Purpose Computation on Graphics Hardware

[meta data] [files:
021-051.pdf
]
Owens, John D.
Luebke, David
Govindaraju, Naga
Harris, Mark
Krüger, Jens
Lefohn, Aaron E.
Purcell, Timothy J.

Physically Based Deformable Models in Computer Graphics

[meta data] [files:
071-094.pdf
]
Nealen, Andrew
Müller, Matthias
Keiser, Richard
Boxerman, Eddy
Carlson, Mark

Verification of Physically Based Rendering Algorithms

[meta data] [files:
095-112.pdf
]
Ulbricht, Christiane
Wilkie, Alexander
Purgathofer, Werner

Deforming and Animating Discretely Sampled Object Representations

[meta data] [files:
113-140.pdf
]
Chen, M.
Correa, C.
Islam, S.
Jones, M. W.
Shen, P.-Y.
Silver, D.
Walton, S. J.
Willis, P. J.
Frontmatter

Preface

[meta data] [files:
starsfront.pdf
]
-

BibTeX (STARs 2005)
@inproceedings{
10.2312:egst.20051042,

booktitle = {
Eurographics 2005 - State of the Art Reports},

editor = {
Yiorgos Chrysanthou and Marcus Magnor
},
title = {{
Image-based Representations for Accelerated Rendering of Complex Scenes}},

author = {
Jeschke, Stefan
 and 
Wimmer, Michael
 and 
Purgathofer, Werner
},
year = {
2005},

publisher = {
The Eurographics Association},


DOI = {
10.2312/egst.20051042}

}
@inproceedings{
10.2312:egst.20051044,

booktitle = {
Eurographics 2005 - State of the Art Reports},

editor = {
Yiorgos Chrysanthou and Marcus Magnor
},
title = {{
Laplacian Mesh Processing}},

author = {
Sorkine, Olga
},
year = {
2005},

publisher = {
The Eurographics Association},


DOI = {
10.2312/egst.20051044}

}
@inproceedings{
10.2312:egst.20051043,

booktitle = {
Eurographics 2005 - State of the Art Reports},

editor = {
Yiorgos Chrysanthou and Marcus Magnor
},
title = {{
A Survey of General-Purpose Computation on Graphics Hardware}},

author = {
Owens, John D.
 and 
Luebke, David
 and 
Govindaraju, Naga
 and 
Harris, Mark
 and 
Krüger, Jens
 and 
Lefohn, Aaron E.
 and 
Purcell, Timothy J.
},
year = {
2005},

publisher = {
The Eurographics Association},


DOI = {
10.2312/egst.20051043}

}
@inproceedings{
10.2312:egst.20051045,

booktitle = {
Eurographics 2005 - State of the Art Reports},

editor = {
Yiorgos Chrysanthou and Marcus Magnor
},
title = {{
Physically Based Deformable Models in Computer Graphics}},

author = {
Nealen, Andrew
 and 
Müller, Matthias
 and 
Keiser, Richard
 and 
Boxerman, Eddy
 and 
Carlson, Mark
},
year = {
2005},

publisher = {
The Eurographics Association},


DOI = {
10.2312/egst.20051045}

}
@inproceedings{
10.2312:egst.20051046,

booktitle = {
Eurographics 2005 - State of the Art Reports},

editor = {
Yiorgos Chrysanthou and Marcus Magnor
},
title = {{
Verification of Physically Based Rendering Algorithms}},

author = {
Ulbricht, Christiane
 and 
Wilkie, Alexander
 and 
Purgathofer, Werner
},
year = {
2005},

publisher = {
The Eurographics Association},


DOI = {
10.2312/egst.20051046}

}
@inproceedings{
10.2312:egst.20051047,

booktitle = {
Eurographics 2005 - State of the Art Reports},

editor = {
Yiorgos Chrysanthou and Marcus Magnor
},
title = {{
Deforming and Animating Discretely Sampled Object Representations}},

author = {
Chen, M.
 and 
Correa, C.
 and 
Islam, S.
 and 
Jones, M. W.
 and 
Shen, P.-Y.
 and 
Silver, D.
 and 
Walton, S. J.
 and 
Willis, P. J.
},
year = {
2005},

publisher = {
The Eurographics Association},


DOI = {
10.2312/egst.20051047}

}
@inproceedings{
10.2312:egst.20051048,

booktitle = {
Eurographics 2005 - STARs},

editor = {
Yiorgos Chrysanthou and Marcus Magnor
},
title = {{
Preface}},

author = {
-
},
year = {
2005},

publisher = {
The Eurographics Association},


DOI = {
10.2312/egst.20051048}

}

Browse

Recent Submissions

Now showing 1 - 7 of 7
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    Image-based Representations for Accelerated Rendering of Complex Scenes
    (The Eurographics Association, 2005) Jeschke, Stefan; Wimmer, Michael; Purgathofer, Werner; Yiorgos Chrysanthou and Marcus Magnor
    This paper gives an overview of image-based representations commonly used for reducing the geometric complexity of a scene description in order to accelerate the rendering process. Several different types of representations and ways for using them have been presented, which are classified and discussed here. Furthermore, the overview includes techniques for accelerating the rendering of static scenes or scenes with animations and/or dynamic lighting effects. The advantages and drawbacks of the different approaches are illuminated, and unsolved problems and roads for further research are shown.
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    Laplacian Mesh Processing
    (The Eurographics Association, 2005) Sorkine, Olga; Yiorgos Chrysanthou and Marcus Magnor
    Surface representation and processing is one of the key topics in computer graphics and geometric modeling, since it greatly affects the range of possible applications. In this paper we will present recent advances in geometry processing that are related to the Laplacian processing framework. This framework is based on linear operators defined on polygonal meshes, and furnishes a variety of processing applications, such as shape approximation and compact representation, mesh editing, filtering, watermarking and morphing. The core of the framework is the mesh Laplacian operator, which allows to define differential coordinates and new bases for efficient mesh geometry representation.
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    A Survey of General-Purpose Computation on Graphics Hardware
    (The Eurographics Association, 2005) Owens, John D.; Luebke, David; Govindaraju, Naga; Harris, Mark; Krüger, Jens; Lefohn, Aaron E.; Purcell, Timothy J.; Yiorgos Chrysanthou and Marcus Magnor
    The rapid increase in the performance of graphics hardware, coupled with recent improvements in its programmability, have made graphics hardware a compelling platform for computationally demanding tasks in a wide variety of application domains. In this report, we describe, summarize, and analyze the latest research in mapping general-purpose computation to graphics hardware. We begin with the technical motivations that underlie general-purpose computation on graphics processors (GPGPU) and describe the hardware and software developments that have led to the recent interest in this field. We then aim the main body of this report at two separate audiences. First, we describe the techniques used in mapping general-purpose computation to graphics hardware. We believe these techniques will be generally useful for researchers who plan to develop the next generation of GPGPU algorithms and techniques. Second, we survey and categorize the latest developments in general-purpose application development on graphics hardware. This survey should be of particular interest to researchers who are interested in using the latest GPGPU applications in their systems of interest.
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    Physically Based Deformable Models in Computer Graphics
    (The Eurographics Association, 2005) Nealen, Andrew; Müller, Matthias; Keiser, Richard; Boxerman, Eddy; Carlson, Mark; Yiorgos Chrysanthou and Marcus Magnor
    Physically based deformable models have been widely embraced by the Computer Graphics community. Many problems outlined in a previous survey by Gibson and Mirtich [GM97] have been addressed, thereby making these models interesting and useful for both offline and real-time applications, such as motion pictures and video games. In this paper, we present the most significant contributions of the past decade, which produce such impressive and perceivably realistic animations and simulations: finite element/difference/volume methods, mass-spring systems, meshfree methods, coupled particle systems and reduced deformable models based on modal analysis. For completeness, we also make a connection to the simulation of other continua, such as fluids, gases and melting objects. Since time integration is inherent to all simulated phenomena, the general notion of time discretization is treated separately, while specifics are left to the respective models. Finally, we discuss areas of application, such as elastoplastic deformation and fracture, cloth and hair animation, virtual surgery simulation, interactive entertainment and fluid/smoke animation, and also suggest areas for future research.
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    Verification of Physically Based Rendering Algorithms
    (The Eurographics Association, 2005) Ulbricht, Christiane; Wilkie, Alexander; Purgathofer, Werner; Yiorgos Chrysanthou and Marcus Magnor
    Within computer graphics, the field of predictive rendering is concerned with those methods of image synthesis which yield results that do not only look real, but are also radiometrically correct renditions of nature, i.e. which are accurate predictions of what a real scene would look like under given lighting conditions. In order to guarantee the correctness of the results obtained by such techniques, three stages of such a rendering system have to be verified with particular care: the light reflection models, the light transport simulation and the perceptually based calculations used at display time. In this report, we will concentrate on the state of the art with respect to the second step in this chain. Various approaches for experimental verification of the implementation of a physically based rendering system have been proposed so far. However, the problem of proving that the results are correct is not fully solved yet, and no standardized methodology is available.We give an overview of existing literature, discuss the strengths and weaknesses of the described methods and illustrate the unsolved problems. We also briefly discuss the related issue of image quality metrics.
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    Deforming and Animating Discretely Sampled Object Representations
    (The Eurographics Association, 2005) Chen, M.; Correa, C.; Islam, S.; Jones, M. W.; Shen, P.-Y.; Silver, D.; Walton, S. J.; Willis, P. J.; Yiorgos Chrysanthou and Marcus Magnor
    A discretely sampled object representation (DSOR) defines a graphical model using data obtained by a sampling process, which takes a collection of samples at discrete positions in space in order to capture certain geometrical and physical properties of one or more objects of interest. Examples of DSORs include images, videos, volume datasets and point datasets. Unlike many commonly used data representations in computer graphics, DSORs lack in geometrical, topological and semantic information, which is much needed for controlling deformation and animation. Hence it poses a significant scientific and technical challenge to develop deformation and animation methods that operate upon DSORs. Such methods can enable computer graphics and computer animation to benefit enormously from the advances of digital imaging technology. In this state of the art report, we survey a wide-range of techniques that have been developed for manipulating, deforming and animating DSORs. We consider a collection of elementary operations for manipulating DSORs, which can serve as building blocks of deformation and animation techniques. We examine a collection of techniques that are designed to transform the geometry shape of deformable DSORs and pay particular attention to their deployment in surgical simulation. We review a collection of techniques for animating digital characters in DSORs, focusing on recent developments in volume animation.
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    Preface
    (The Eurographics Association, 2005) -; Yiorgos Chrysanthou and Marcus Magnor
    Preface and Table of Contents