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The Resource Human motion : understanding, modelling, capture and animation, edited by Bodo Rosenhahn, Reinhard Klette and Dimitris Metaxas

Human motion : understanding, modelling, capture and animation, edited by Bodo Rosenhahn, Reinhard Klette and Dimitris Metaxas

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The item Human motion : understanding, modelling, capture and animation, edited by Bodo Rosenhahn, Reinhard Klette and Dimitris Metaxas represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Missouri Libraries.
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Summary: The study of human motion dates back more than 2000 years. With the event of information technology, new areas have been added to this field. Research using computer vision and computer graphics contributes to a transformation of biomechanics into a discipline that now applies computing technology throughout; on the other hand, computer vision and computer graphics also benefit from defining goals aimed at solving problems in biomechanics. Besides interactions, all three areas also developed their own inherent research dynamics towards studying human motion. Researchers from all three of these

Language: eng

Work

Publication

Dordrecht, the Netherlands, Springer, ©2008

Extent: 1 online resource (x, 633 pages)

Contents

3.
Recognition of action as a Bayesian parameter estimation problem over time
Volker Krüger ;
4.
The William Harvey code: mathematical analysis of optical flow computation for cardiac motion
Yusuke Kameda and Atsushi Imiya ;
5.
Detection and tracking of humans in single view sequences using 2D articulated model
Filip Korč and Václav Hlaváč
pt. II.
1.
Learning:
6.
Combining discrete and continuous 3D trackers
Gabriel Tsechpenakis, Dimitris Metaxas, and Carol Neidle ;
7.
Graphical models for human motion modelling
Kooksang Moon and Vladimir Pavlović ;
8.
3D human motion analysis in monocular video: techniques and challenges
Christian Sminchisescu ;
Understanding human motion: a historic review
9.
Spatially and temporally segmenting movement to recognize actions
Richard Green ;
10.
Topologically constrained idometric embedding
Guy Rosman, Alexander M. Bronstein, Michael M. Bronstein, and Ron Kimmel
pt. III.
2D-3D tracking:
11.
Contours, optic flow, and prior knowledge: cues for capturing 3D human motion in videos
Reinhard Klette and Garry Tee
Thomas Brox, Bodo Rosenhahn, and Daniel Cremers ;
12.
Tracking clothed people
Bodo Rosenhahn, Uwe G. Kersting, Katie Powell, T. Brox, and Hans-Peter Seidel ;
13.
An introduction to interacting simulated annealing
Jürgen Gall, Bodo Rosenhahn, and Hans-Peter Seidel ;
14.
Motion capture for interaction environments
Daniel Grest and Reinhard Koch ;
pt. I.
15.
Markerless motion capture for biomechanical applications
Lars Mündermann, Stefano Corazza, and Thomas P. Andriacchi
pt. IV.
Biomechanics and applications:
16.
Qualitative and quantitative aspects of movement: the discrepancy between clinical gait analysis and activities of daily life
Dieter Rosenbaum and Mirko Brandes ;
17. Optimization of human motion exemplified with handbiking by means of motion analysis and musculoskeletal models
Harald Böhm and Christian Krämer ;
2D tracking:
18.
Imitation learning and transferring of human movement and hand grasping to adapt to environment changes
Stephan Al-Zubi and Gerald Sommer ;
19.
Accurate and model-free pose estimation of crash test dummies
Stefan K. Gehrig, Hernán Badino, and Jürgen Gall
pt. V.
Modelling and animation:
20.
A relational approach to content-based analysis of motion capture data
2.
Meinard Müller and Tido Röder ;
21.
The representation of rigid body motions in the conformal model of geometric algebra
Leo Dorst ;
22.
Video-based capturing and rendering of people
Christian Theobalt, Marcus Magnor, and Hans-Peter Seidel ;
23.
Interacting deformable objects
Matthias Teschner, Bruno Heidelberger, and Matthias Müller-Fischer ;
The role of manifold learning in human motion analysis
24.
From performance theory to character animation tools
Michael Neff and Eugene Fiume
Ahmed Elgammal and Chan-Su Lee ;

Isbn: 9781402066931

Instance

Label: Human motion : understanding, modelling, capture and animation

Title: Human motion

Title remainder: understanding, modelling, capture and animation

Statement of responsibility: edited by Bodo Rosenhahn, Reinhard Klette and Dimitris Metaxas

Contributor

Subject

Genre

Language: eng

Summary: The study of human motion dates back more than 2000 years. With the event of information technology, new areas have been added to this field. Research using computer vision and computer graphics contributes to a transformation of biomechanics into a discipline that now applies computing technology throughout; on the other hand, computer vision and computer graphics also benefit from defining goals aimed at solving problems in biomechanics. Besides interactions, all three areas also developed their own inherent research dynamics towards studying human motion. Researchers from all three of these

Member of

Computational imaging and vision, v. 36

Cataloging source: GW5XE

Dewey number: 006.4/2

Illustrations: illustrations

Index: index present

LC call number: TA1650

LC item number: .H85 2008eb

Literary form: non fiction

Nature of contents

dictionaries
bibliography

NLM call number

WE 103
2008 G-387

NLM item number: H9167 2008

http://library.link/vocab/relatedWorkOrContributorDate: 1962-

http://library.link/vocab/relatedWorkOrContributorName

Rosenhahn, Bodo
Klette, Reinhard
Metaxas, Dimitris N.

Series statement: Computational imaging and vision

Series volume: v. 36

http://library.link/vocab/subjectName

Optical pattern recognition
Human locomotion
Kinesiology
Biometric identification
Multimedia systems
Movement
Biomechanical Phenomena
Computer Simulation
Models, Biological
Video Recording
Reconnaissance optique des formes (Informatique)
Locomotion humaine
Kinésiologie
Identification biométrique
Multimédia
MEDICAL
SCIENCE
Informatique
Biometric identification
Human locomotion
Kinesiology
Multimedia systems
Optical pattern recognition

Label: Human motion : understanding, modelling, capture and animation, edited by Bodo Rosenhahn, Reinhard Klette and Dimitris Metaxas

Instantiates

Human motion : understanding, modelling, capture and animation

Publication

Dordrecht, the Netherlands, Springer, ©2008

Bibliography note: Includes bibliographical references and index

Carrier category: online resource

Carrier category code

Carrier MARC source: rdacarrier

Color: multicolored

Content category: text

Content type code

Content type MARC source: rdacontent

Contents

3.
Recognition of action as a Bayesian parameter estimation problem over time
Volker Krüger ;
4.
The William Harvey code: mathematical analysis of optical flow computation for cardiac motion
Yusuke Kameda and Atsushi Imiya ;
5.
Detection and tracking of humans in single view sequences using 2D articulated model
Filip Korč and Václav Hlaváč
pt. II.
1.
Learning:
6.
Combining discrete and continuous 3D trackers
Gabriel Tsechpenakis, Dimitris Metaxas, and Carol Neidle ;
7.
Graphical models for human motion modelling
Kooksang Moon and Vladimir Pavlović ;
8.
3D human motion analysis in monocular video: techniques and challenges
Christian Sminchisescu ;
Understanding human motion: a historic review
9.
Spatially and temporally segmenting movement to recognize actions
Richard Green ;
10.
Topologically constrained idometric embedding
Guy Rosman, Alexander M. Bronstein, Michael M. Bronstein, and Ron Kimmel
pt. III.
2D-3D tracking:
11.
Contours, optic flow, and prior knowledge: cues for capturing 3D human motion in videos
Reinhard Klette and Garry Tee
Thomas Brox, Bodo Rosenhahn, and Daniel Cremers ;
12.
Tracking clothed people
Bodo Rosenhahn, Uwe G. Kersting, Katie Powell, T. Brox, and Hans-Peter Seidel ;
13.
An introduction to interacting simulated annealing
Jürgen Gall, Bodo Rosenhahn, and Hans-Peter Seidel ;
14.
Motion capture for interaction environments
Daniel Grest and Reinhard Koch ;
pt. I.
15.
Markerless motion capture for biomechanical applications
Lars Mündermann, Stefano Corazza, and Thomas P. Andriacchi
pt. IV.
Biomechanics and applications:
16.
Qualitative and quantitative aspects of movement: the discrepancy between clinical gait analysis and activities of daily life
Dieter Rosenbaum and Mirko Brandes ;
17. Optimization of human motion exemplified with handbiking by means of motion analysis and musculoskeletal models
Harald Böhm and Christian Krämer ;
2D tracking:
18.
Imitation learning and transferring of human movement and hand grasping to adapt to environment changes
Stephan Al-Zubi and Gerald Sommer ;
19.
Accurate and model-free pose estimation of crash test dummies
Stefan K. Gehrig, Hernán Badino, and Jürgen Gall
pt. V.
Modelling and animation:
20.
A relational approach to content-based analysis of motion capture data
2.
Meinard Müller and Tido Röder ;
21.
The representation of rigid body motions in the conformal model of geometric algebra
Leo Dorst ;
22.
Video-based capturing and rendering of people
Christian Theobalt, Marcus Magnor, and Hans-Peter Seidel ;
23.
Interacting deformable objects
Matthias Teschner, Bruno Heidelberger, and Matthias Müller-Fischer ;
The role of manifold learning in human motion analysis
24.
From performance theory to character animation tools
Michael Neff and Eugene Fiume
Ahmed Elgammal and Chan-Su Lee ;

Control code: 209986289

Dimensions: unknown

Extent: 1 online resource (x, 633 pages)

Form of item: online

Isbn: 9781402066931

Media category: computer

Media MARC source: rdamedia

Media type code

Other control number

10.1007/978-1-4020-6693-1.
XO928943

Other physical details: illustrations.

http://library.link/vocab/ext/overdrive/overdriveId: 978-1-4020-6692-4

Specific material designation: remote

System control number: (OCoLC)209986289

Label: Human motion : understanding, modelling, capture and animation, edited by Bodo Rosenhahn, Reinhard Klette and Dimitris Metaxas

Publication

Bibliography note: Includes bibliographical references and index

Carrier category: online resource

Carrier category code

Carrier MARC source: rdacarrier

Color: multicolored

Content category: text

Content type code

Content type MARC source: rdacontent

Contents

3.
Recognition of action as a Bayesian parameter estimation problem over time
Volker Krüger ;
4.
The William Harvey code: mathematical analysis of optical flow computation for cardiac motion
Yusuke Kameda and Atsushi Imiya ;
5.
Detection and tracking of humans in single view sequences using 2D articulated model
Filip Korč and Václav Hlaváč
pt. II.
1.
Learning:
6.
Combining discrete and continuous 3D trackers
Gabriel Tsechpenakis, Dimitris Metaxas, and Carol Neidle ;
7.
Graphical models for human motion modelling
Kooksang Moon and Vladimir Pavlović ;
8.
3D human motion analysis in monocular video: techniques and challenges
Christian Sminchisescu ;
Understanding human motion: a historic review
9.
Spatially and temporally segmenting movement to recognize actions
Richard Green ;
10.
Topologically constrained idometric embedding
Guy Rosman, Alexander M. Bronstein, Michael M. Bronstein, and Ron Kimmel
pt. III.
2D-3D tracking:
11.
Contours, optic flow, and prior knowledge: cues for capturing 3D human motion in videos
Reinhard Klette and Garry Tee
Thomas Brox, Bodo Rosenhahn, and Daniel Cremers ;
12.
Tracking clothed people
Bodo Rosenhahn, Uwe G. Kersting, Katie Powell, T. Brox, and Hans-Peter Seidel ;
13.
An introduction to interacting simulated annealing
Jürgen Gall, Bodo Rosenhahn, and Hans-Peter Seidel ;
14.
Motion capture for interaction environments
Daniel Grest and Reinhard Koch ;
pt. I.
15.
Markerless motion capture for biomechanical applications
Lars Mündermann, Stefano Corazza, and Thomas P. Andriacchi
pt. IV.
Biomechanics and applications:
16.
Qualitative and quantitative aspects of movement: the discrepancy between clinical gait analysis and activities of daily life
Dieter Rosenbaum and Mirko Brandes ;
17. Optimization of human motion exemplified with handbiking by means of motion analysis and musculoskeletal models
Harald Böhm and Christian Krämer ;
2D tracking:
18.
Imitation learning and transferring of human movement and hand grasping to adapt to environment changes
Stephan Al-Zubi and Gerald Sommer ;
19.
Accurate and model-free pose estimation of crash test dummies
Stefan K. Gehrig, Hernán Badino, and Jürgen Gall
pt. V.
Modelling and animation:
20.
A relational approach to content-based analysis of motion capture data
2.
Meinard Müller and Tido Röder ;
21.
The representation of rigid body motions in the conformal model of geometric algebra
Leo Dorst ;
22.
Video-based capturing and rendering of people
Christian Theobalt, Marcus Magnor, and Hans-Peter Seidel ;
23.
Interacting deformable objects
Matthias Teschner, Bruno Heidelberger, and Matthias Müller-Fischer ;
The role of manifold learning in human motion analysis
24.
From performance theory to character animation tools
Michael Neff and Eugene Fiume
Ahmed Elgammal and Chan-Su Lee ;

Control code: 209986289

Dimensions: unknown

Extent: 1 online resource (x, 633 pages)

Form of item: online

Isbn: 9781402066931

Media category: computer

Media MARC source: rdamedia

Media type code

Other control number

10.1007/978-1-4020-6693-1.
XO928943

Other physical details: illustrations.

http://library.link/vocab/ext/overdrive/overdriveId: 978-1-4020-6692-4

Specific material designation: remote

System control number: (OCoLC)209986289

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