Univ.-Prof. Dr. rer. nat. Björn Krüger
Personalized Digital Health and Telemedicine
Affiliation:
Department for Epileptology
University Hospital Bonn
Medical Faculty
University of Bonn
Location:
Venusberg-Campus 1,
Building 74, Room 2G-014
53127 Bonn, Germany
Telephone: +49-228/287-51704
Email: bkrueger@uni-bonn.de
Short CV: Björn Krüger studied Computer Science, Mathematics, and Physics at the University of Bonn, completing his Diploma in Computer Science in 2006 and earning his Ph.D. in Computer Science in 2012. From 2012 to 2015, he worked as a Postdoctoral Researcher at the University of Bonn. In 2015, he transitioned to the industry, joining Gokhale Method Enterprise Inc. in Stanford, CA, as the Director of Research and Product Development, where he led the development of wearable sensors for monitoring user posture. Returning to academia, he was appointed Professor of Distributed Media Applications and Technologies at TH Köln in 2022. Since 2023, he has been serving as Professor of Personalized Digital Health and Telemedicine at Bonn University and the Department for Epileptology at the University Hospital Bonn.
Memberships
- Member of the Association for Computing Machinery (ACM)
- Associated PI in the iBehave Network
- Member of the TRA Modelling at Bonn University
- Member of the Bonn Center of Neuroscience (BCN)
- Member of the Bonner Netzwerk Versorgungsforschung (BNV)
Academic Service
Serving as reviewer or TCP member for the following journals and conferences: ACM SIGGRAPH, ACM SIGGRAPH Asia, ACM Transactions on Graphics (ACM ToG), PLOS ONE, IEEE Virtual Reality (IEEE VR), IEEE Transactions on Visualization and Computer Graphics (IEEE TVCG), IEEE Transactions on Multimedia (IEEE TMM), IEEE Transactions on Neural Systems and Rehabilitation Engineering, Frontiers in Orthopedic Surgery, Frontiers in Cardiovascular Medicine, ACM User Interface Software and Technology Symposium (UIST), The Visual Computer (TVCJ), Soft Computing, Information Systems, Neurocomputing, Sensors, Symmetry, Entropy, Remote Sensing, Informatics, Healthcare, International Symposium on Vision, Modeling and Visualization (VMV), International Conference on Consumer Electronics (ICCE), International Conference on Computer Graphics Theory and Applications (GRAPP), International Conference on Connected Vehicles (ICCVE), IEEE International Symposium on Signal Processing and Information (ISSPIT), Zooming Innovation in Consumer Electronics International Conference (ZINC), Technology Workshop Virtuelle Realität und Augmented Reality der GI-Fachgruppe VR/AR (GI-VR/AR)
Serving as guest editor for the following issues:
- Sensors for Posture and Human Motion Recognition; MDPI Sensors
- Sensor-Based Motion Analysis in Medicine, Rehabilitation and Sport; MDPI Sensors
- Deep Learning in Visual and Wearable Sensing for Motion Analysis and Healthcare; MDPI Sensors
- Digitalisation and AI in Orthopedic Surgery and Rehabilitation; Frontiers in Orthopedic Surgery
Serving as reviewer for funding agencies:
- German Research Foundation, DFG (Germany)
- National Science Center (Poland)
- The Netherlands Organisation for Health Research and Development (Netherlands)
Publications
2024
Müllers, Johannes; Greß, Hannah; Haaga, Lisa; Krüger, Björn
Sensorik am Krankenbett – Synchrone Datenakquise für Studien in der Epileptologie Conference
62. Jahrestagung der Deutschen Gesellschaft für Epileptologie, 2024.
@conference{muellers2024,
title = {Sensorik am Krankenbett – Synchrone Datenakquise für Studien in der Epileptologie},
author = {Johannes Müllers and Hannah Greß and Lisa Haaga and Björn Krüger},
year = {2024},
date = {2024-06-14},
urldate = {2024-06-14},
booktitle = {62. Jahrestagung der Deutschen Gesellschaft für Epileptologie},
abstract = {Die Möglichkeit der Anfallserkennung oder -vorhersage außerhalb des Krankenhauses kann die Lebensqualität und das Sicherheitsbedürfnis von Epilepsiepatienten erhöhen. Die Überwachung von Vitalparametern, Bewegungen und weiteren Messgrößen kann von einer Vielzahl von Wearables oder sonstigen neuartigen Sensorsystemen gewährleistet werden. Videoüberwachte EEG-Messplätze dienen als Goldstandard und werden für Studien mit solchen Sensoren genutzt, um Korrelationen festzustellen. Hierbei stellen technische Herausforderungen ein wiederkehrendes Problem dar. Neben der Inbetriebnahme der Sensorsysteme, die ohne informationstechnische Kenntnisse oft nur mit proprietären Mitteln möglich ist, ist insbesondere die Synchronizität zur EEG-Aufzeichnung anspruchsvoll. Aktuelle Vorbereitungen einer Studie mit Eye-Tracker Brillen bieten den Anlass, ein neues System zur Datenakquisition aufzubauen. },
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Die Möglichkeit der Anfallserkennung oder -vorhersage außerhalb des Krankenhauses kann die Lebensqualität und das Sicherheitsbedürfnis von Epilepsiepatienten erhöhen. Die Überwachung von Vitalparametern, Bewegungen und weiteren Messgrößen kann von einer Vielzahl von Wearables oder sonstigen neuartigen Sensorsystemen gewährleistet werden. Videoüberwachte EEG-Messplätze dienen als Goldstandard und werden für Studien mit solchen Sensoren genutzt, um Korrelationen festzustellen. Hierbei stellen technische Herausforderungen ein wiederkehrendes Problem dar. Neben der Inbetriebnahme der Sensorsysteme, die ohne informationstechnische Kenntnisse oft nur mit proprietären Mitteln möglich ist, ist insbesondere die Synchronizität zur EEG-Aufzeichnung anspruchsvoll. Aktuelle Vorbereitungen einer Studie mit Eye-Tracker Brillen bieten den Anlass, ein neues System zur Datenakquisition aufzubauen.
Schulte-Rüther, Martin; Lemken, Johannes; Krüger, Björn; Greß, Hannah; Stroth, Sanna; Kamp-Becker, Inge; Poustka, Luise
Automated annotation and quantification of non-verbal behavior from eye tracking and accelerometer data during live social interaction Conference
Wissenschaftliche Tagung Autismus-Spektrum (WTAS), 2024.
@conference{schulteruether2024,
title = {Automated annotation and quantification of non-verbal behavior from eye tracking and accelerometer data during live social interaction},
author = {Martin Schulte-Rüther and Johannes Lemken and Björn Krüger and Hannah Greß and Sanna Stroth and Inge Kamp-Becker and Luise Poustka},
year = {2024},
date = {2024-03-21},
booktitle = {Wissenschaftliche Tagung Autismus-Spektrum (WTAS)},
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2023
Krüger, Björn; Weber, Christian; Greß, Hannah; Knaub, Jessica; Pukropski, Jan; Hütwohl, Daniela; Hahn, Kai; Grond, Martin; Jonas, Stephan; Surges, Rainer
Telekonsil zur Verbesserung der Epilepsiediagnostik Conference
Digitalisierung der Gesundheitsversorgung älterer Menschen, 2023.
@conference{krueger2023,
title = {Telekonsil zur Verbesserung der Epilepsiediagnostik},
author = {Björn Krüger and Christian Weber and Hannah Greß and Jessica Knaub and Jan Pukropski and Daniela Hütwohl and Kai Hahn and Martin Grond and Stephan Jonas and Rainer Surges},
year = {2023},
date = {2023-07-01},
booktitle = {Digitalisierung der Gesundheitsversorgung älterer Menschen},
abstract = {Erfolgreiche Diagnose von Epilepsien bedürfen einer engen Zusammenarbeit von Hausärzt:innen, Kinderärzt:innen und neurologischen und epileptologischen Fachärzt:innen sowie den entsprechenden Fachkliniken. Zusätzlich zu der Expertise der Ärzt:innen ist ein fortlaufender Austausch und die kontinuierliche Anreicherung von Fachwissen von Bedeutung. Neben der frühzeitigen Überweisung an Fachkliniken kann die gemeinsame Fall-begleitende und Klinikübergreifende Aufnahme, der Austausch und die Pflege von Falldokumentationen ein wichtiger Baustein für die langfristige und erfolgreiche Begleitung der Patient:innen sein. },
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Erfolgreiche Diagnose von Epilepsien bedürfen einer engen Zusammenarbeit von Hausärzt:innen, Kinderärzt:innen und neurologischen und epileptologischen Fachärzt:innen sowie den entsprechenden Fachkliniken. Zusätzlich zu der Expertise der Ärzt:innen ist ein fortlaufender Austausch und die kontinuierliche Anreicherung von Fachwissen von Bedeutung. Neben der frühzeitigen Überweisung an Fachkliniken kann die gemeinsame Fall-begleitende und Klinikübergreifende Aufnahme, der Austausch und die Pflege von Falldokumentationen ein wichtiger Baustein für die langfristige und erfolgreiche Begleitung der Patient:innen sein.
Riedlinger, Dorothee; Krüger, Björn; Sydow, Hanna; Deutschbein, Johannes; Fischer-Rosinský, Antje; Slagman, Anna; Möckel, Martin
Ein Frühwarnsystem für Stürze – Identifikation von sturzgefährdeten Patient:innen durch die kombinierte Analyse von Medikamenten-Verordnungsdaten und Bewegungsprofilen Conference
Digitalisierung der Gesundheitsversorgung älterer Menschen, 2023.
@conference{riedlinger2023,
title = {Ein Frühwarnsystem für Stürze – Identifikation von sturzgefährdeten Patient:innen durch die kombinierte Analyse von Medikamenten-Verordnungsdaten und Bewegungsprofilen},
author = {Dorothee Riedlinger and Björn Krüger and Hanna Sydow and Johannes Deutschbein and Antje Fischer-Rosinský and Anna Slagman and Martin Möckel},
year = {2023},
date = {2023-07-01},
booktitle = {Digitalisierung der Gesundheitsversorgung älterer Menschen},
keywords = {},
pubstate = {published},
tppubtype = {conference}
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Schulte-Rüther, Martin; Krüger, Björn; Lemken, Johannes; Greß, Hannah; Stroth, Sanna; Kamp-Becker, Inge; Poustka, Luise
2023.
@conference{schulteruether2023,
title = {Automatic Delineation and Classification of Head Movements Using 3D Accelerometer Data from Live Social Interaction},
author = {Martin Schulte-Rüther and Björn Krüger and Johannes Lemken and Hannah Greß and Sanna Stroth and Inge Kamp-Becker and Luise Poustka},
url = {https://cdn.ymaws.com/www.autism-insar.org/resource/resmgr/docs/annualmeeting/insar_2023_full_abstract_boo.pdf, INSAR 2023 Abstract Book (p. 1246)},
year = {2023},
date = {2023-05-06},
urldate = {2023-05-06},
abstract = {Individuals with autism spectrum disorder (ASD) often show reduced non-verbal communication during social interactive encounters, e.g. facial expressions, deictic and communicative gestures, eye gaze. This includes reduced usage and expression of gestures of the head, such as nodding, shaking the head, and head turning. Diagnostic criteria of ASD suggest that reduced non-verbal communicative behavior is an important symptom, but current diagnostic tools are restricted to subjective, clinical evaluation.
While many tools for automatic delineation and classification of facial expressions and gestures from video data are available, less work has been done with respective to the usage of accelerometer sensor data. Considering the current lack of objective, quantitative measures of non-verbal behavior during social interaction, an automated analysis pipeline for movement annotation from accelerometer data would be helpful for both clinical evaluation and research.
},
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pubstate = {published},
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Individuals with autism spectrum disorder (ASD) often show reduced non-verbal communication during social interactive encounters, e.g. facial expressions, deictic and communicative gestures, eye gaze. This includes reduced usage and expression of gestures of the head, such as nodding, shaking the head, and head turning. Diagnostic criteria of ASD suggest that reduced non-verbal communicative behavior is an important symptom, but current diagnostic tools are restricted to subjective, clinical evaluation.
While many tools for automatic delineation and classification of facial expressions and gestures from video data are available, less work has been done with respective to the usage of accelerometer sensor data. Considering the current lack of objective, quantitative measures of non-verbal behavior during social interaction, an automated analysis pipeline for movement annotation from accelerometer data would be helpful for both clinical evaluation and research.
While many tools for automatic delineation and classification of facial expressions and gestures from video data are available, less work has been done with respective to the usage of accelerometer sensor data. Considering the current lack of objective, quantitative measures of non-verbal behavior during social interaction, an automated analysis pipeline for movement annotation from accelerometer data would be helpful for both clinical evaluation and research.
Lemken, Johannes; Krüger, Björn; Stroth, Sanna; Kamp-Becker, Inge; Gail, A.; Poustka, Luise; Schulte-Rüther, Martin
The relationship between eye gaze and engagement in dyadic conversations – a semi-automatic analysis using unobtrusive eye tracking glasses Conference
Wissenschaftliche Tagung Autismus-Spektrum, 2023.
@conference{lemken2023,
title = {The relationship between eye gaze and engagement in dyadic conversations – a semi-automatic analysis using unobtrusive eye tracking glasses},
author = {Johannes Lemken and Björn Krüger and Sanna Stroth and Inge Kamp-Becker and A. Gail and Luise Poustka and Martin Schulte-Rüther},
year = {2023},
date = {2023-03-03},
booktitle = {Wissenschaftliche Tagung Autismus-Spektrum},
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Xu, Jing; Greß, Hannah; Seefried, Sabine; van Drongelen, Stefan; Schween, Raphael; Sommer, Claudia; Endres, Dominik; Krüger, Björn; Stief, Felix
Diagnosing Rare Diseases by Movement Primitive-Based Classification of Kinematic Gait Data Proceedings
Bernstein Conference, 2023.
@proceedings{JingXu2023,
title = {Diagnosing Rare Diseases by Movement Primitive-Based Classification of Kinematic Gait Data},
author = {Jing Xu and Hannah Greß and Sabine Seefried and Stefan van Drongelen and Raphael Schween and Claudia Sommer and Dominik Endres and Björn Krüger and Felix Stief},
url = {https://abstracts.g-node.org/conference/BC23/abstracts#/uuid/31c21041-91a0-46bd-87dc-46271501fdc0},
doi = {10.12751/nncn.bc2023.313},
year = {2023},
date = {2023-01-10},
urldate = {2023-01-10},
booktitle = { Bernstein Conference 2023},
abstract = {Of over 6.000 known rare diseases, a considerable portion involves motor symptoms [1]. Whereas aiding diagnosis by artificial intelligence based on non-motor symptoms has shown promise [2], the potential of using movement data to this purpose has not yet been fully investigated. We therefore aim to implement a machine learning algorithm inspired by biological motor control to aid diagnosis of rare diseases by classifying data from standard kinematic clinical gait analysis.
Starting from 42-degrees-of-freedom time series of joint angles extracted from motion capture data with custom routines [3], we employ a Gaussian process-based temporal movement primitive algorithm [4] in order to reduce the data to sets of movement primitives and weight vectors that capture the essential characteristics of the gait movement. The primitives are participant (and disease) -independent and represent general human gait. The weights are participant-specific and thus contain disease-specific information. A weighted combination of the primitives can thus generate participant specific gait data. We then apply standard classification tools such as Support Vector Machines and Random Forests to the weights to distinguish the disease from the control gait. The primary goal is to reliably differentiate patients from age-matched controls in an existing data set on patients with Legg–Calvé–Perthes disease (LCPD). A secondary goal is to allow the classifier to expand the set of diseases using nonparametric methods such as the Dirichlet process.
Importantly, our movement primitive algorithm is inspired by current theories of biological motor control with a potential edge over standard algorithms in training on small case numbers. The temporal primitives are analogous to central pattern generators in the spinal cord [5], whereas the weights reflect activation of these central patterns by more central mechanisms in a hierarchical control scheme. In such a control scheme, disease-specific changes in weights may be caused directly by disease-specific influences on neural signaling, such as in the Stiff Person Syndrome [6], or indirectly through pain-avoidance in orthopedic conditions such as LCPD.
With further development, our approach holds potential for facilitating early detection and improving treatment strategies across a wide range of rare movement disorders and orthopedic conditions.},
howpublished = {Bernstein Conference},
keywords = {},
pubstate = {published},
tppubtype = {proceedings}
}
Of over 6.000 known rare diseases, a considerable portion involves motor symptoms [1]. Whereas aiding diagnosis by artificial intelligence based on non-motor symptoms has shown promise [2], the potential of using movement data to this purpose has not yet been fully investigated. We therefore aim to implement a machine learning algorithm inspired by biological motor control to aid diagnosis of rare diseases by classifying data from standard kinematic clinical gait analysis.
Starting from 42-degrees-of-freedom time series of joint angles extracted from motion capture data with custom routines [3], we employ a Gaussian process-based temporal movement primitive algorithm [4] in order to reduce the data to sets of movement primitives and weight vectors that capture the essential characteristics of the gait movement. The primitives are participant (and disease) -independent and represent general human gait. The weights are participant-specific and thus contain disease-specific information. A weighted combination of the primitives can thus generate participant specific gait data. We then apply standard classification tools such as Support Vector Machines and Random Forests to the weights to distinguish the disease from the control gait. The primary goal is to reliably differentiate patients from age-matched controls in an existing data set on patients with Legg–Calvé–Perthes disease (LCPD). A secondary goal is to allow the classifier to expand the set of diseases using nonparametric methods such as the Dirichlet process.
Importantly, our movement primitive algorithm is inspired by current theories of biological motor control with a potential edge over standard algorithms in training on small case numbers. The temporal primitives are analogous to central pattern generators in the spinal cord [5], whereas the weights reflect activation of these central patterns by more central mechanisms in a hierarchical control scheme. In such a control scheme, disease-specific changes in weights may be caused directly by disease-specific influences on neural signaling, such as in the Stiff Person Syndrome [6], or indirectly through pain-avoidance in orthopedic conditions such as LCPD.
With further development, our approach holds potential for facilitating early detection and improving treatment strategies across a wide range of rare movement disorders and orthopedic conditions.
Starting from 42-degrees-of-freedom time series of joint angles extracted from motion capture data with custom routines [3], we employ a Gaussian process-based temporal movement primitive algorithm [4] in order to reduce the data to sets of movement primitives and weight vectors that capture the essential characteristics of the gait movement. The primitives are participant (and disease) -independent and represent general human gait. The weights are participant-specific and thus contain disease-specific information. A weighted combination of the primitives can thus generate participant specific gait data. We then apply standard classification tools such as Support Vector Machines and Random Forests to the weights to distinguish the disease from the control gait. The primary goal is to reliably differentiate patients from age-matched controls in an existing data set on patients with Legg–Calvé–Perthes disease (LCPD). A secondary goal is to allow the classifier to expand the set of diseases using nonparametric methods such as the Dirichlet process.
Importantly, our movement primitive algorithm is inspired by current theories of biological motor control with a potential edge over standard algorithms in training on small case numbers. The temporal primitives are analogous to central pattern generators in the spinal cord [5], whereas the weights reflect activation of these central patterns by more central mechanisms in a hierarchical control scheme. In such a control scheme, disease-specific changes in weights may be caused directly by disease-specific influences on neural signaling, such as in the Stiff Person Syndrome [6], or indirectly through pain-avoidance in orthopedic conditions such as LCPD.
With further development, our approach holds potential for facilitating early detection and improving treatment strategies across a wide range of rare movement disorders and orthopedic conditions.
Yasin, Hashim; Ghani, Saba; Krüger, Björn
An Effective and Efficient Approach for 3D Recovery of Human Motion Capture Data Journal Article
In: Sensors, vol. 23, no. 7, 2023, ISSN: 1424-8220.
@article{s23073664,
title = {An Effective and Efficient Approach for 3D Recovery of Human Motion Capture Data},
author = {Hashim Yasin and Saba Ghani and Björn Krüger},
url = {https://www.mdpi.com/1424-8220/23/7/3664},
doi = {10.3390/s23073664},
issn = {1424-8220},
year = {2023},
date = {2023-01-01},
journal = {Sensors},
volume = {23},
number = {7},
abstract = {In this work, we propose a novel data-driven approach to recover missing or corrupted motion capture data, either in the form of 3D skeleton joints or 3D marker trajectories. We construct a knowledge-base that contains prior existing knowledge, which helps us to make it possible to infer missing or corrupted information of the motion capture data. We then build a kd-tree in parallel fashion on the GPU for fast search and retrieval of this already available knowledge in the form of nearest neighbors from the knowledge-base efficiently. We exploit the concept of histograms to organize the data and use an off-the-shelf radix sort algorithm to sort the keys within a single processor of GPU. We query the motion missing joints or markers, and as a result, we fetch a fixed number of nearest neighbors for the given input query motion. We employ an objective function with multiple error terms that substantially recover 3D joints or marker trajectories in parallel on the GPU. We perform comprehensive experiments to evaluate our approach quantitatively and qualitatively on publicly available motion capture datasets, namely CMU and HDM05. From the results, it is observed that the recovery of boxing, jumptwist, run, martial arts, salsa, and acrobatic motion sequences works best, while the recovery of motion sequences of kicking and jumping results in slightly larger errors. However, on average, our approach executes outstanding results. Generally, our approach outperforms all the competing state-of-the-art methods in the most test cases with different action sequences and executes reliable results with minimal errors and without any user interaction.},
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pubstate = {published},
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}
In this work, we propose a novel data-driven approach to recover missing or corrupted motion capture data, either in the form of 3D skeleton joints or 3D marker trajectories. We construct a knowledge-base that contains prior existing knowledge, which helps us to make it possible to infer missing or corrupted information of the motion capture data. We then build a kd-tree in parallel fashion on the GPU for fast search and retrieval of this already available knowledge in the form of nearest neighbors from the knowledge-base efficiently. We exploit the concept of histograms to organize the data and use an off-the-shelf radix sort algorithm to sort the keys within a single processor of GPU. We query the motion missing joints or markers, and as a result, we fetch a fixed number of nearest neighbors for the given input query motion. We employ an objective function with multiple error terms that substantially recover 3D joints or marker trajectories in parallel on the GPU. We perform comprehensive experiments to evaluate our approach quantitatively and qualitatively on publicly available motion capture datasets, namely CMU and HDM05. From the results, it is observed that the recovery of boxing, jumptwist, run, martial arts, salsa, and acrobatic motion sequences works best, while the recovery of motion sequences of kicking and jumping results in slightly larger errors. However, on average, our approach executes outstanding results. Generally, our approach outperforms all the competing state-of-the-art methods in the most test cases with different action sequences and executes reliable results with minimal errors and without any user interaction.
2021
Yasin, Hashim; Krüger, Björn
An Efficient 3D Human Pose Retrieval and Reconstruction from 2D Image-Based Landmarks Journal Article
In: Sensors, vol. 21, no. 7, 2021, ISSN: 1424-8220.
@article{yasin-2021a,
title = {An Efficient 3D Human Pose Retrieval and Reconstruction from 2D Image-Based Landmarks},
author = {Hashim Yasin and Björn Krüger},
url = {https://www.mdpi.com/1424-8220/21/7/2415
https://digital-health-bonn.de/wp-content/uploads/2024/03/sensors-21-02415.pdf, Paper},
doi = {10.3390/s21072415},
issn = {1424-8220},
year = {2021},
date = {2021-01-01},
urldate = {2021-01-01},
journal = {Sensors},
volume = {21},
number = {7},
abstract = {We propose an efficient and novel architecture for 3D articulated human pose retrieval and reconstruction from 2D landmarks extracted from a 2D synthetic image, an annotated 2D image, an in-the-wild real RGB image or even a hand-drawn sketch. Given 2D joint positions in a single image, we devise a data-driven framework to infer the corresponding 3D human pose. To this end, we first normalize 3D human poses from Motion Capture (MoCap) dataset by eliminating translation, orientation, and the skeleton size discrepancies from the poses and then build a knowledge-base by projecting a subset of joints of the normalized 3D poses onto 2D image-planes by fully exploiting a variety of virtual cameras. With this approach, we not only transform 3D pose space to the normalized 2D pose space but also resolve the 2D-3D cross-domain retrieval task efficiently. The proposed architecture searches for poses from a MoCap dataset that are near to a given 2D query pose in a definite feature space made up of specific joint sets. These retrieved poses are then used to construct a weak perspective camera and a final 3D posture under the camera model that minimizes the reconstruction error. To estimate unknown camera parameters, we introduce a nonlinear, two-fold method. We exploit the retrieved similar poses and the viewing directions at which the MoCap dataset was sampled to minimize the projection error. Finally, we evaluate our approach thoroughly on a large number of heterogeneous 2D examples generated synthetically, 2D images with ground-truth, a variety of real in-the-wild internet images, and a proof of concept using 2D hand-drawn sketches of human poses. We conduct a pool of experiments to perform a quantitative study on PARSE dataset. We also show that the proposed system yields competitive, convincing results in comparison to other state-of-the-art methods.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
We propose an efficient and novel architecture for 3D articulated human pose retrieval and reconstruction from 2D landmarks extracted from a 2D synthetic image, an annotated 2D image, an in-the-wild real RGB image or even a hand-drawn sketch. Given 2D joint positions in a single image, we devise a data-driven framework to infer the corresponding 3D human pose. To this end, we first normalize 3D human poses from Motion Capture (MoCap) dataset by eliminating translation, orientation, and the skeleton size discrepancies from the poses and then build a knowledge-base by projecting a subset of joints of the normalized 3D poses onto 2D image-planes by fully exploiting a variety of virtual cameras. With this approach, we not only transform 3D pose space to the normalized 2D pose space but also resolve the 2D-3D cross-domain retrieval task efficiently. The proposed architecture searches for poses from a MoCap dataset that are near to a given 2D query pose in a definite feature space made up of specific joint sets. These retrieved poses are then used to construct a weak perspective camera and a final 3D posture under the camera model that minimizes the reconstruction error. To estimate unknown camera parameters, we introduce a nonlinear, two-fold method. We exploit the retrieved similar poses and the viewing directions at which the MoCap dataset was sampled to minimize the projection error. Finally, we evaluate our approach thoroughly on a large number of heterogeneous 2D examples generated synthetically, 2D images with ground-truth, a variety of real in-the-wild internet images, and a proof of concept using 2D hand-drawn sketches of human poses. We conduct a pool of experiments to perform a quantitative study on PARSE dataset. We also show that the proposed system yields competitive, convincing results in comparison to other state-of-the-art methods.
2020
Peper, Erik; Krüger, Björn; Gokhale, Esther; Harvey, Richard
Comparing Muscle Activity and Spine Shape in Various Sitting Styles Journal Article
In: Biofeedback, vol. 48, no. 3, pp. 62–67, 2020, ISSN: 1081-5937.
@article{peper-2020-a,
title = {Comparing Muscle Activity and Spine Shape in Various Sitting Styles},
author = {Erik Peper and Björn Krüger and Esther Gokhale and Richard Harvey},
doi = {10.5298/1081-5937-48.3.03},
issn = {1081-5937},
year = {2020},
date = {2020-01-01},
urldate = {2020-01-01},
journal = {Biofeedback},
volume = {48},
number = {3},
pages = {62–67},
abstract = {Back problems affect 80% of the population in the U.S. at some time during their lives, and each year 32 million Americans experience lower back pain at an estimated economic cost of $560-$635 billion. One contributing factor for back pain is posture, and more particularly, lack of awareness of dysfunctional posture. For example, many people may sit in a slouched or forward-bent position, exacerbated by poor ergonomics while sitting or, extended use of handheld digital devices while standing such as looking down at a smartphone for long periods of time. This report describes a ‘stacksitting’ technique which is one of the components of the Gokhale Method® for healthy, relaxed sitting and increased awareness of posture. The stacksitting process is illustrated with a case study where the shape of the spine and the muscle activity is analyzed in parallel during three sitting styles: slouching, arched, and stacksitting. The spine curvature was characterized by the Gokhale SpineTracker™ wearable, which consists of five sensor-units attached along the subjects’ spines that are used to plot the spinal curve on a digital device such as a smartphone, tablet or computer. SEMG recordings were made from the right upper trapezius, left upper trapezius, right mid-back, and left mid-back with a second device (Myoscan Pro sensors recorded with Biograph Procomp Infinity) while participants were seated in three postures: a slouched (forward-bent) position, an upright ‘arched’ position, and an upright ‘stacksitting’ position as trained by a Gokhale Method teacher. The case observations showed no significant difference in trapezius SEMG activity during each of the three positions. There was a slight increase in SEMG activity of the mid-back during stacksitting (1.1 µV) as compared to when slouched (0.64 µV) and, a significant increase in SEMG activity when sitting arched (4.9 µV). As expected, the spinal activity tracking device showed significant straightening of the lower spine during the stacksitting position as compared to the slouched and arched positions. The observations suggest that the stacksitting position can be taught to others in a way that allows the vertebrae to be parallel to each other with very low levels of corresponding muscle activity. In contrast, sitting in an arched or slouched position would increase asymmetrical pressures on the disks, contributing to vertebral wedging which could also contribute to spinal disk-bulging and eventual back injury. The observations suggest that proper coaching may foster a stacksitting position of the spine, which would foster a healthier posture than a slouched or arched spinal positions.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Back problems affect 80% of the population in the U.S. at some time during their lives, and each year 32 million Americans experience lower back pain at an estimated economic cost of $560-$635 billion. One contributing factor for back pain is posture, and more particularly, lack of awareness of dysfunctional posture. For example, many people may sit in a slouched or forward-bent position, exacerbated by poor ergonomics while sitting or, extended use of handheld digital devices while standing such as looking down at a smartphone for long periods of time. This report describes a ‘stacksitting’ technique which is one of the components of the Gokhale Method® for healthy, relaxed sitting and increased awareness of posture. The stacksitting process is illustrated with a case study where the shape of the spine and the muscle activity is analyzed in parallel during three sitting styles: slouching, arched, and stacksitting. The spine curvature was characterized by the Gokhale SpineTracker™ wearable, which consists of five sensor-units attached along the subjects’ spines that are used to plot the spinal curve on a digital device such as a smartphone, tablet or computer. SEMG recordings were made from the right upper trapezius, left upper trapezius, right mid-back, and left mid-back with a second device (Myoscan Pro sensors recorded with Biograph Procomp Infinity) while participants were seated in three postures: a slouched (forward-bent) position, an upright ‘arched’ position, and an upright ‘stacksitting’ position as trained by a Gokhale Method teacher. The case observations showed no significant difference in trapezius SEMG activity during each of the three positions. There was a slight increase in SEMG activity of the mid-back during stacksitting (1.1 µV) as compared to when slouched (0.64 µV) and, a significant increase in SEMG activity when sitting arched (4.9 µV). As expected, the spinal activity tracking device showed significant straightening of the lower spine during the stacksitting position as compared to the slouched and arched positions. The observations suggest that the stacksitting position can be taught to others in a way that allows the vertebrae to be parallel to each other with very low levels of corresponding muscle activity. In contrast, sitting in an arched or slouched position would increase asymmetrical pressures on the disks, contributing to vertebral wedging which could also contribute to spinal disk-bulging and eventual back injury. The observations suggest that proper coaching may foster a stacksitting position of the spine, which would foster a healthier posture than a slouched or arched spinal positions.
Mezzarobba, Susanna; Grassi, Michele; Pellegrini, Lorella; Catalan, Mauro; Krüger, Björn; Stragapede, Lara; Manganotti, Paolo; Bernardis, Paolo
In: Parkinsonism & Related Disorders, vol. 80, pp. 133–137, 2020.
@article{Mezzarobba2020,
title = {Action Observation Plus Sonification. Biomechanical Analysis of Sit-To-Walk Performance in Patients with Parkinson's Disease and Freezing of Gait},
author = {Susanna Mezzarobba and Michele Grassi and Lorella Pellegrini and Mauro Catalan and Björn Krüger and Lara Stragapede and Paolo Manganotti and Paolo Bernardis},
doi = {https://doi.org/10.1016/j.parkreldis.2020.09.029},
year = {2020},
date = {2020-01-01},
urldate = {2020-01-01},
journal = {Parkinsonism & Related Disorders},
volume = {80},
pages = {133–137},
abstract = {Introduction. Freezing of gait (FoG) is one of the most disabling gait disorders in Parkinson's disease (PD) reflecting motor and cognitive impairments, mainly related to dopamine deficiency. Recent studies, investigating kinematic and kinetic factors affecting gait in these patients, showed a postural instability characterized by disturbed weight-shifting, inappropriate anticipatory postural adjustment, worse reactive postural control, and a difficulty to execute complex motor task (i.e. sit-to-walk). Symptoms that are difficult to alleviate and not much responsive to Levodopa. For this reason, additional therapeutic actions based on specific therapeutic protocols may help patients in daily life. Methods. In 2018, we conducted a randomized control trial aimed to test two clinical protocols for PD patients with FoG. Protocols, conceived to improve gait, were based on learning motor exercises with the Action Observation plus Sonification (AOS) technique, and with a standard protocol centered on cue use. We found a significant improvement in the FoG questionnaire and the UPDRS III clinical scale for the AOS protocol only. We also collected biomechanical data, using the sit-to-walk task as a measure of motor performance. Results. Here we report kinetic and kinematic analysis of data showing that, when treatment effects consolidate, patients treated with AOS protocol are more efficient in merging subsequent motor tasks (sit-tostand and gait initiation) with a better dynamic balance control during the sit-to-stand. Conclusion. Promising results of the AOS protocol in reducing FoG confirm that a mobility training focused on improving weight-shifting and motor switching abilities, may have benefits for Parkinson patients with FoG.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Introduction. Freezing of gait (FoG) is one of the most disabling gait disorders in Parkinson's disease (PD) reflecting motor and cognitive impairments, mainly related to dopamine deficiency. Recent studies, investigating kinematic and kinetic factors affecting gait in these patients, showed a postural instability characterized by disturbed weight-shifting, inappropriate anticipatory postural adjustment, worse reactive postural control, and a difficulty to execute complex motor task (i.e. sit-to-walk). Symptoms that are difficult to alleviate and not much responsive to Levodopa. For this reason, additional therapeutic actions based on specific therapeutic protocols may help patients in daily life. Methods. In 2018, we conducted a randomized control trial aimed to test two clinical protocols for PD patients with FoG. Protocols, conceived to improve gait, were based on learning motor exercises with the Action Observation plus Sonification (AOS) technique, and with a standard protocol centered on cue use. We found a significant improvement in the FoG questionnaire and the UPDRS III clinical scale for the AOS protocol only. We also collected biomechanical data, using the sit-to-walk task as a measure of motor performance. Results. Here we report kinetic and kinematic analysis of data showing that, when treatment effects consolidate, patients treated with AOS protocol are more efficient in merging subsequent motor tasks (sit-tostand and gait initiation) with a better dynamic balance control during the sit-to-stand. Conclusion. Promising results of the AOS protocol in reducing FoG confirm that a mobility training focused on improving weight-shifting and motor switching abilities, may have benefits for Parkinson patients with FoG.
2019
Peper, Erik; Krüger, Björn; Gokhale, Esther
Comparing Muscle Activity and Spine Shape in Various Sitting Positions Proceedings
Association for Applied Psychophysiology and Biofeedback’s 2019 Annual Scientific Meeting, Denver, Colorado, 2019.
@proceedings{2019-peper,
title = {Comparing Muscle Activity and Spine Shape in Various Sitting Positions},
author = {Erik Peper and Björn Krüger and Esther Gokhale},
url = {https://digital-health-bonn.de/wp-content/uploads/2024/03/190401StacksittingPoster.pdf, Poster},
year = {2019},
date = {2019-01-01},
urldate = {2019-01-01},
booktitle = {Association for Applied Psychophysiology and Biofeedback’s 2019 Annual Scientific Meeting},
address = {Denver, Colorado},
howpublished = {Association for Applied Psychophysiology and Biofeedback’s 2019 Annual Scientific Meeting},
keywords = {},
pubstate = {published},
tppubtype = {proceedings}
}
Khandelwal, Icxa; Stollenwerk, Katharina; Krüger, Björn; Weber, Andreas
Posture Classification based on a Spine Shape Monitoring System Proceedings Article
In: Computational Science and Its Applications – ICCSA 2019, 2019.
@inproceedings{Khandelwal-2019,
title = {Posture Classification based on a Spine Shape Monitoring System},
author = {Icxa Khandelwal and Katharina Stollenwerk and Björn Krüger and Andreas Weber},
url = {https://digital-health-bonn.de/wp-content/uploads/2024/03/KSKW19_preprint.pdf, Paper},
year = {2019},
date = {2019-01-01},
urldate = {2019-01-01},
booktitle = {Computational Science and Its Applications – ICCSA 2019},
abstract = {Lower back pain is one of the leading causes for musculoskeletal disability throughout the world. A large percentage of the population suffers from lower back pain at some point in their life. One noninvasive approach to reduce back pain is postural modification which can be learned through training. In this context, wearables are becoming more and more prominent since they are capable of providing feedback about the user’s posture in real-time. Optimal, healthy posture depends on the position (sitting, standing, hinging) the user is in. Meaningful feedback needs to adapt to the current position and, in the best case, identify the position automatically to minimize necessary interactions from the user. In this work, we present results of classifying the positions of users based on the readings of the Gokhale SpineTracker device. We computed various features and evaluated the performance of K-Nearest Neighbors, Extra Trees, Artificial Neural Networks and AdaBoost for global inter-subject classification as well as for personalized subject specific classification.},
keywords = {},
pubstate = {published},
tppubtype = {inproceedings}
}
Lower back pain is one of the leading causes for musculoskeletal disability throughout the world. A large percentage of the population suffers from lower back pain at some point in their life. One noninvasive approach to reduce back pain is postural modification which can be learned through training. In this context, wearables are becoming more and more prominent since they are capable of providing feedback about the user’s posture in real-time. Optimal, healthy posture depends on the position (sitting, standing, hinging) the user is in. Meaningful feedback needs to adapt to the current position and, in the best case, identify the position automatically to minimize necessary interactions from the user. In this work, we present results of classifying the positions of users based on the readings of the Gokhale SpineTracker device. We computed various features and evaluated the performance of K-Nearest Neighbors, Extra Trees, Artificial Neural Networks and AdaBoost for global inter-subject classification as well as for personalized subject specific classification.
Stollenwerk, Katharina; Müller, Jonas; Hinkenjann, André; Krüger, Björn
Analyzing Spinal Shape Changes During Posture Training Using a Wearable Device Journal Article
In: Sensors, 2019.
@article{stollenwerk-2019a,
title = {Analyzing Spinal Shape Changes During Posture Training Using a Wearable Device},
author = {Katharina Stollenwerk and Jonas Müller and André Hinkenjann and Björn Krüger},
url = {https://digital-health-bonn.de/wp-content/uploads/2024/03/sensors-19-03625.pdf, Paper},
doi = {https://doi.org/10.3390/s19163625},
year = {2019},
date = {2019-01-01},
urldate = {2019-01-01},
journal = {Sensors},
abstract = {Lower back pain is one of the most prevalent diseases in Western societies. A large percentage of European and American populations suffer from back pain at some point in their lives. One successful approach to address lower back pain is postural training, which can be supported by wearable devices, providing real-time feedback about the user’s posture. In this work, we analyze the changes in posture induced by postural training. To this end, we compare snapshots before and after training, as measured by the Gokhale SpineTracker™. Considering pairs of before and after snapshots in different positions (standing, sitting, and bending), we introduce a feature space, that allows for unsupervised clustering. We show that resulting clusters represent certain groups of postural changes, which are meaningful to professional posture trainers.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Lower back pain is one of the most prevalent diseases in Western societies. A large percentage of European and American populations suffer from back pain at some point in their lives. One successful approach to address lower back pain is postural training, which can be supported by wearable devices, providing real-time feedback about the user’s posture. In this work, we analyze the changes in posture induced by postural training. To this end, we compare snapshots before and after training, as measured by the Gokhale SpineTracker™. Considering pairs of before and after snapshots in different positions (standing, sitting, and bending), we introduce a feature space, that allows for unsupervised clustering. We show that resulting clusters represent certain groups of postural changes, which are meaningful to professional posture trainers.
2018
Stollenwerk, Katharina; Müllers, Johannes; Müller, Jonas; Hinkenjann, André; Krüger, Björn
Evaluating an Accelerometer-based System for Spine Shape Monitoring Proceedings Article
In: Computational Science and Its Applications – ICCSA 2018, 2018.
@inproceedings{stollenwerk-2018a,
title = {Evaluating an Accelerometer-based System for Spine Shape Monitoring},
author = {Katharina Stollenwerk and Johannes Müllers and Jonas Müller and André Hinkenjann and Björn Krüger},
url = {https://digital-health-bonn.de/wp-content/uploads/2024/03/2018_ICCSA_PostureSensei_Preprint.pdf, Paper},
doi = {10.1007/978-3-319-95171-3_58},
year = {2018},
date = {2018-01-01},
urldate = {2018-01-01},
booktitle = {Computational Science and Its Applications – ICCSA 2018},
abstract = {In western societies a huge percentage of the population suffers from some kind of back pain at least once in their life. There are several approaches addressing back pain by postural modifications. Postural training and activity can be tracked by various wearable devices most of which are based on accelerometers. We present research on the accuracy of accelerometer-based posture measurements. To this end, we took simultaneous recordings using an optical motion capture system and a system consisting of five accelerometers in three different settings: On a test robot, in a template, and on actual human backs. We compare the accelerometer-based spine curve reconstruction against the motion capture data. Results show that tilt values from the accelerometers are captured highly accurate, and the spine curve reconstruction works well.},
keywords = {},
pubstate = {published},
tppubtype = {inproceedings}
}
In western societies a huge percentage of the population suffers from some kind of back pain at least once in their life. There are several approaches addressing back pain by postural modifications. Postural training and activity can be tracked by various wearable devices most of which are based on accelerometers. We present research on the accuracy of accelerometer-based posture measurements. To this end, we took simultaneous recordings using an optical motion capture system and a system consisting of five accelerometers in three different settings: On a test robot, in a template, and on actual human backs. We compare the accelerometer-based spine curve reconstruction against the motion capture data. Results show that tilt values from the accelerometers are captured highly accurate, and the spine curve reconstruction works well.
Mezzarobba, Susanna; Grassi, Michele; Pellegrini, Lorella; Catalan, Mauro; Krüger, Björn; Furlanis, Giovanni; Manganotti, Paolo; Bernardis, Paolo
Action observation plus sonification. A novel therapeutic protocol for Parkinson’s patient with freezing of gait Journal Article
In: Frontiers in Neurology, vol. 8, 2018, ISSN: 1664-2295, (accepted for Publication).
@article{mezzarobba2018a,
title = {Action observation plus sonification. A novel therapeutic protocol for Parkinson’s patient with freezing of gait},
author = {Susanna Mezzarobba and Michele Grassi and Lorella Pellegrini and Mauro Catalan and Björn Krüger and Giovanni Furlanis and Paolo Manganotti and Paolo Bernardis},
url = {https://www.frontiersin.org/article/10.3389/fneur.2017.00723},
doi = {10.3389/fneur.2017.00723},
issn = {1664-2295},
year = {2018},
date = {2018-01-01},
urldate = {2018-01-01},
journal = {Frontiers in Neurology},
volume = {8},
abstract = {Freezing of gait (FoG) is a disabling symptom associated to falls, with little or no responsiveness to pharmacological treatment. Current protocols used for rehabilitation are based on the use of external sensory cues. However, cued strategies might generate an important dependence on the environment. Teaching motor strategies without cues (i.e. action observation - AO - plus sonification) could represent an alternative/innovative approach to rehabilitation that matters most on appropriate allocation of attention and lightening cognitive load. We aimed to test the effects of a novel experimental protocol to treat patients with Parkinson disease (PD) and freezing of gait, using functional, and clinical scales. The experimental protocol was based on action observation plus sonification. 12 patients were treated with 8 motor gestures. They watched 8 videos showing an actor performing the same 8 gestures, and then tried to repeat each gesture. Each video was composed by images and sounds of the gestures. By means of the sonification technique, the sounds of gestures were obtained by transforming kinematic data (velocity) recorded during gesture execution, into pitch variations. The same 8 motor gestures were also used in a second group of 10 patients; which were treated with a standard protocol based on a common sensory stimulation method. All patients were tested with functional and clinical scales before, after, at 1 month, and 3 months after the treatment. Data showed that the experimental protocol have positive effects on functional and clinical tests. In comparison with the baseline evaluations, significant performance improvements were seen in the N-FOG questionnaire, and the UPDRS (part 3 and 2). Importantly, all these improvements were consistently observed at the end, 1 month, and 3 months after treatment. No improvements effects were found in the group of patients treated with the standard protocol. These data suggest that a multisensory approach based on action observation plus sonification, with the two stimuli semantically related, could help PD patients with FoG to re-learn gait movements, to reduce freezing episodes, and that these effects could be prolonged over time.},
note = {accepted for Publication},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Freezing of gait (FoG) is a disabling symptom associated to falls, with little or no responsiveness to pharmacological treatment. Current protocols used for rehabilitation are based on the use of external sensory cues. However, cued strategies might generate an important dependence on the environment. Teaching motor strategies without cues (i.e. action observation - AO - plus sonification) could represent an alternative/innovative approach to rehabilitation that matters most on appropriate allocation of attention and lightening cognitive load. We aimed to test the effects of a novel experimental protocol to treat patients with Parkinson disease (PD) and freezing of gait, using functional, and clinical scales. The experimental protocol was based on action observation plus sonification. 12 patients were treated with 8 motor gestures. They watched 8 videos showing an actor performing the same 8 gestures, and then tried to repeat each gesture. Each video was composed by images and sounds of the gestures. By means of the sonification technique, the sounds of gestures were obtained by transforming kinematic data (velocity) recorded during gesture execution, into pitch variations. The same 8 motor gestures were also used in a second group of 10 patients; which were treated with a standard protocol based on a common sensory stimulation method. All patients were tested with functional and clinical scales before, after, at 1 month, and 3 months after the treatment. Data showed that the experimental protocol have positive effects on functional and clinical tests. In comparison with the baseline evaluations, significant performance improvements were seen in the N-FOG questionnaire, and the UPDRS (part 3 and 2). Importantly, all these improvements were consistently observed at the end, 1 month, and 3 months after treatment. No improvements effects were found in the group of patients treated with the standard protocol. These data suggest that a multisensory approach based on action observation plus sonification, with the two stimuli semantically related, could help PD patients with FoG to re-learn gait movements, to reduce freezing episodes, and that these effects could be prolonged over time.
Iqbal, Umar; Doering, Andreas; Yasin, Hashim; Krüger, Björn; Weber, Andreas; Gall, Juergen
A Dual-Source Approach for 3D Human Pose Estimation from Single Images Journal Article
In: Computer Vision and Image Understanding, vol. 172, pp. 37–49, 2018, ISSN: 1077-3142.
@article{iqbal-2018,
title = {A Dual-Source Approach for 3D Human Pose Estimation from Single Images},
author = {Umar Iqbal and Andreas Doering and Hashim Yasin and Björn Krüger and Andreas Weber and Juergen Gall},
url = {http://www.sciencedirect.com/science/article/pii/S1077314218300511},
doi = {https://doi.org/10.1016/j.cviu.2018.03.007},
issn = {1077-3142},
year = {2018},
date = {2018-01-01},
urldate = {2018-01-01},
journal = {Computer Vision and Image Understanding},
volume = {172},
pages = {37–49},
abstract = {In this work we address the challenging problem of 3D human pose estimation from single images. Recent approaches learn deep neural networks to regress 3D pose directly from images. One major challenge for such methods, however, is the collection of large amounts of training data. Particularly, collecting a large number of unconstrained images that are annotated with accurate 3D poses is impractical. We therefore propose to use two independent training sources. The first source consists of accurate 3D motion capture data, and the second source consists of unconstrained images with annotated 2D poses. To incorporate both sources, we propose a dual-source approach that combines 2D pose estimation with efficient 3D pose retrieval. To this end, we first convert the motion capture data into a normalized 2D pose space, and separately learn a 2D pose estimation model from the image data. During inference, we estimate the 2D pose and efficiently retrieve the nearest 3D poses. We then jointly estimate a mapping from the 3D pose space to the image and reconstruct the 3D pose. We provide a comprehensive evaluation of the proposed method and experimentally demonstrate the effectiveness of our approach, even when the skeleton structures of the two sources differ substantially.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
In this work we address the challenging problem of 3D human pose estimation from single images. Recent approaches learn deep neural networks to regress 3D pose directly from images. One major challenge for such methods, however, is the collection of large amounts of training data. Particularly, collecting a large number of unconstrained images that are annotated with accurate 3D poses is impractical. We therefore propose to use two independent training sources. The first source consists of accurate 3D motion capture data, and the second source consists of unconstrained images with annotated 2D poses. To incorporate both sources, we propose a dual-source approach that combines 2D pose estimation with efficient 3D pose retrieval. To this end, we first convert the motion capture data into a normalized 2D pose space, and separately learn a 2D pose estimation model from the image data. During inference, we estimate the 2D pose and efficiently retrieve the nearest 3D poses. We then jointly estimate a mapping from the 3D pose space to the image and reconstruct the 3D pose. We provide a comprehensive evaluation of the proposed method and experimentally demonstrate the effectiveness of our approach, even when the skeleton structures of the two sources differ substantially.
Zsoldos, Rebeka; Vögele, Anna; Krüger, Björn; Schröder, Ulrike; Weber, Andreas; Licka, Theresia
Long term consistency and locationspecificity of equine gluteus medius muscleactivity during locomotion on the treadmill Journal Article
In: BMC Veterinary Research, vol. 14, no. 126, pp. 1–10, 2018.
@article{Zsoldos2018,
title = {Long term consistency and locationspecificity of equine gluteus medius muscleactivity during locomotion on the treadmill},
author = {Rebeka Zsoldos and Anna Vögele and Björn Krüger and Ulrike Schröder and Andreas Weber and Theresia Licka},
doi = {10.1186/s12917-018-1443-y},
year = {2018},
date = {2018-01-01},
urldate = {2018-01-01},
journal = {BMC Veterinary Research},
volume = {14},
number = {126},
pages = {1–10},
abstract = {Background: The equine m. gluteus medius (GM) is the largest muscle of the horse, its main movement function is the extension of the hip joint. The objective of the present study was to measure equine GM activity in three adjacent locations on GM during walk and trot on a treadmill, in order to document potential differences. Fourteen Haflinger mares were measured using surface electromyography and kinematic markers to identify the motion cycles on three occasions over 16 weeks. The electrodes were placed on left and right gluteus medius muscle over the middle of its widest part and 5 cm lateral and medial of it. For data processing, electrical activity was normalised to its maximum value and timing was normalised to the motion cycle. A Gaussian distribution approach was used to determine up to 10 modes of focussed activity, and results were analysed separately for stance and swing phase of the ipsilateral hindlimb. Results: Fair reliability was found for mean mode values (Cronbach’s alpha = 0.66) and good reliability was found for mean mode locations (Cronbach’s alpha = 0.71) over the three data collection days. The magnitude of muscle activity identified as mean mode value was much larger at trot than at walk, and mean mode value was significantly different between stance phases of walk and trot for all electrode positions (p < 0.01). The pattern of muscle activity identified as mean mode location was significantly different for walk and trot at all electrode positions, both during stance and swing phases (p < 0.001). This indicates the different timing pattern between the gaits. Results of the three electrode positions on the same muscle during each gait were not significantly different when comparing the same measurement. Conclusions: The middle of the equine GM does not show any indication of functional differentiation during walk and trot on a treadmill; this might be due to lack of segmentation as such, or due to lack of need for segmented use for these very basic main tasks of the muscle. The reliability of the sEMG measurements over several weeks was fair to good, an indication for the robustness of the methodology.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Background: The equine m. gluteus medius (GM) is the largest muscle of the horse, its main movement function is the extension of the hip joint. The objective of the present study was to measure equine GM activity in three adjacent locations on GM during walk and trot on a treadmill, in order to document potential differences. Fourteen Haflinger mares were measured using surface electromyography and kinematic markers to identify the motion cycles on three occasions over 16 weeks. The electrodes were placed on left and right gluteus medius muscle over the middle of its widest part and 5 cm lateral and medial of it. For data processing, electrical activity was normalised to its maximum value and timing was normalised to the motion cycle. A Gaussian distribution approach was used to determine up to 10 modes of focussed activity, and results were analysed separately for stance and swing phase of the ipsilateral hindlimb. Results: Fair reliability was found for mean mode values (Cronbach’s alpha = 0.66) and good reliability was found for mean mode locations (Cronbach’s alpha = 0.71) over the three data collection days. The magnitude of muscle activity identified as mean mode value was much larger at trot than at walk, and mean mode value was significantly different between stance phases of walk and trot for all electrode positions (p < 0.01). The pattern of muscle activity identified as mean mode location was significantly different for walk and trot at all electrode positions, both during stance and swing phases (p < 0.001). This indicates the different timing pattern between the gaits. Results of the three electrode positions on the same muscle during each gait were not significantly different when comparing the same measurement. Conclusions: The middle of the equine GM does not show any indication of functional differentiation during walk and trot on a treadmill; this might be due to lack of segmentation as such, or due to lack of need for segmented use for these very basic main tasks of the muscle. The reliability of the sEMG measurements over several weeks was fair to good, an indication for the robustness of the methodology.
2017
Bernard, Jürgen; Dobermann, Eduard; Vögele, Anna; Krüger, Björn; Kohlhammer, Jörn; Fellner, D.
Visual-Interactive Semi-Supervised Labeling of Human Motion Capture Data Proceedings Article
In: Visualization and Data Analysis (VDA 2017), 2017.
@inproceedings{bernard2017a,
title = {Visual-Interactive Semi-Supervised Labeling of Human Motion Capture Data},
author = {Jürgen Bernard and Eduard Dobermann and Anna Vögele and Björn Krüger and Jörn Kohlhammer and D. Fellner},
year = {2017},
date = {2017-01-01},
urldate = {2017-01-01},
booktitle = {Visualization and Data Analysis (VDA 2017)},
abstract = {The characterization and abstraction of large multivariate time series data often poses challenges with respect to effectiveness or efficiency. Using the example of human motion capture data challenges exist in creating compact solutions that still reflect semantics and kinematics in a meaningful way. We present a visual-interactive approach for the semi-supervised labeling of human motion capture data. Users are enabled to assign labels to the data which can subsequently be used to represent the multivariate time series as sequences of motion classes. The approach combines multiple views supporting the user in the visual-interactive labeling process. Visual guidance concepts further ease the labeling process by propagating the results of algorithmic models. The abstraction of motion capture data to sequences of event intervals allows overview and detail-on-demand visualizations even for large and heterogeneous data collections. The guided selection of candidate data for the extension and improvement of the labeling closes the feedback loop of the semisupervised workflow. We demonstrate the effectiveness and the efficiency of the approach in two usage scenarios, taking visual-interactive learning and human motion synthesis as examples.},
keywords = {},
pubstate = {published},
tppubtype = {inproceedings}
}
The characterization and abstraction of large multivariate time series data often poses challenges with respect to effectiveness or efficiency. Using the example of human motion capture data challenges exist in creating compact solutions that still reflect semantics and kinematics in a meaningful way. We present a visual-interactive approach for the semi-supervised labeling of human motion capture data. Users are enabled to assign labels to the data which can subsequently be used to represent the multivariate time series as sequences of motion classes. The approach combines multiple views supporting the user in the visual-interactive labeling process. Visual guidance concepts further ease the labeling process by propagating the results of algorithmic models. The abstraction of motion capture data to sequences of event intervals allows overview and detail-on-demand visualizations even for large and heterogeneous data collections. The guided selection of candidate data for the extension and improvement of the labeling closes the feedback loop of the semisupervised workflow. We demonstrate the effectiveness and the efficiency of the approach in two usage scenarios, taking visual-interactive learning and human motion synthesis as examples.
Krüger, Björn; Vögele, Anna; Willig, Tobias; Yao, Angela; Klein, Reinhard; Weber, Andreas
Efficient Unsupervised Temporal Segmentation of Motion Data Journal Article
In: IEEE Transactions on Multimedia, vol. 19, no. 4, pp. 797–812, 2017, ISSN: 1520-9210.
@article{krueger2017Segmentation,
title = {Efficient Unsupervised Temporal Segmentation of Motion Data},
author = {Björn Krüger and Anna Vögele and Tobias Willig and Angela Yao and Reinhard Klein and Andreas Weber},
url = {https://digital-health-bonn.de/wp-content/uploads/2024/03/MotionSegmentationCode.zip, Source Code
},
doi = {10.1109/TMM.2016.2635030},
issn = {1520-9210},
year = {2017},
date = {2017-01-01},
urldate = {2017-01-01},
journal = {IEEE Transactions on Multimedia},
volume = {19},
number = {4},
pages = {797–812},
abstract = {We introduce a method for automated temporal segmentation of human motion data into distinct actions and compositing motion primitives based on self-similar structures in the motion sequence. We use neighborhood graphs for the partitioning and the similarity information in the graph is further exploited to cluster the motion primitives into larger entities of semantic significance. The method requires no assumptions about the motion sequences at hand and no user interaction is required for the segmentation or clustering. In addition, we introduce a feature bundling preprocessing technique to make the segmentation more robust to noise, as well as a notion of motion symmetry for more refined primitive detection. We test our method on several sensor modalities, including markered and markerless motion capture as well as on electromyograph and accelerometer recordings. The results highlight our system’s capabilities for both segmentation and for analysis of the finer structures of motion data, all in a completely unsupervised manner.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
We introduce a method for automated temporal segmentation of human motion data into distinct actions and compositing motion primitives based on self-similar structures in the motion sequence. We use neighborhood graphs for the partitioning and the similarity information in the graph is further exploited to cluster the motion primitives into larger entities of semantic significance. The method requires no assumptions about the motion sequences at hand and no user interaction is required for the segmentation or clustering. In addition, we introduce a feature bundling preprocessing technique to make the segmentation more robust to noise, as well as a notion of motion symmetry for more refined primitive detection. We test our method on several sensor modalities, including markered and markerless motion capture as well as on electromyograph and accelerometer recordings. The results highlight our system’s capabilities for both segmentation and for analysis of the finer structures of motion data, all in a completely unsupervised manner.
2016
Riaz, Qaiser; Krüger, Björn; Weber, Andreas
Relational Databases for Motion Data Journal Article
In: International Journal of Innovative Computing and Applications, vol. 7, no. 3, pp. 119–134, 2016.
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Stollenwerk, Katharina; Vögele, Anna; Sarlette, Ralf; Krüger, Björn; Hinkenjann, André; Klein, Reinhard
Evaluation of Markers for Optical Hand Motion Capture Proceedings Article
In: 13. Workshop Virtuelle Realitäi und Augmented Reality der GI-Fachgruppe VR/AR, Bielefeld, Germany, 2016.
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Mezzarobba, Susanna; Grassi, Michele; Catalan, Mauro; Pellegrini, Lorella; Valentini, Roberto; Krüger, Björn; Bernardis, Paolo
Therapeutic protocol for Parkinson’s patient with freezing based on action observation plus sonification: preliminary results Proceedings Article
In: 20th International congress of Parkinson's Disease and Movement Disorders, Berlin, Germany, 2016, (accepted for publication).
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Fehse, Ursula; Wiemeyer, J.; Effenberg, Alfred O.; Seyfarth, A; Schmitz, Gerd; Krüger, Björn
Enhancement of Technique Acquisition by Movement Sonification beyond rhythmical Adjustments Proceedings Article
In: Human Movement and Technology. 11th joint dvs- Conference on Motor Control & Learning, Biomechanics & Training, pp. 157–159, Darmstadt (Germany), 2016.
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Vögele, Anna; Krüger, Björn
HDM12 Dance - Documentation on a Data Base of Tango Motion Capture Technical Report
University of Bonn no. CG-2016-1, 2016, (ISSN 1610-8892).
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Vögele, Anna; Zsoldos, Rebeka; Krüger, Björn; Licka, Theresia
Novel Methods for Surface EMG Analysis and Exploration Based on Multi-Modal Gaussian Mixture Models Journal Article
In: PLOS ONE, 2016.
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Stollenwerk, Katharina; Vögele, Anna; Krüger, Björn; Hinkenjann, André; Klein, Reinhard
Automatic Temporal Segmentation of Articulated Hand Motion Proceedings Article
In: Computational Science and Its Applications – ICCSA 2016: 16th International Conference, Beijing, China, July 4-7, 2016, Proceedings, Part II, pp. 433–449, Springer International Publishing, Beijing, China, 2016, ISBN: 978-3-319-42108-7, (accepted for publication).
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Effenberg, Alfred O.; Fehse, Ursula; Schmitz, Gerd; Krüger, Björn; Mechling, H.
Movement sonification: Effects on motor learning beyond rhythmic adjustments Journal Article
In: Frontiers in Neuroscience, vol. 10, no. 219, 2016.
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Yasin, Hashim; Iqbal, Umar; Krüger, Björn; Weber, Andreas; Gall, Juergen
A Dual-Source Approach for 3D Pose Estimation from a Single Image Proceedings Article
In: IEEE Conference on Computer Vision and Pattern Recognition 2016 (CVPR), Las Vegas, USA, 2016.
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2015
Riaz, Qaiser; Guanhong, Tao; Krüger, Björn; Weber, Andreas
Motion Reconstruction Using Very Few Accelerometers and Ground Contacts Journal Article
In: Graphical Models, 2015.
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Zsoldos, Rebeka; Vögele, Anna; Krüger, Björn; Schröder, Ulrike; Licka, Theresia
Comparison of the Activities Measured at Three Electrode Locations on Equine Gluteus Medius Muscle in Walk and Trot Proceedings Article
In: XXV Congress of the International Society of Biomechanics (ISB 2015), Glasgow, United Kingdom, 2015, (accepted as oral presentation).
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Hartmann, Stefan; Trunz, Elena; Krüger, Björn; Klein, Reinhard; Hullin, Matthias B.
Efficient Multi-Constrained Optimization for Example-Based Synthesis Journal Article
In: The Visual Computer / Proc. Computer Graphics International (CGI 2015), vol. 31, no. 6-8, pp. 893–904, 2015.
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Zsoldos, Rebeka; Krüger, Björn; Vögele, Anna; Schröder, Ulrike; Licka, Theresia
Variability of the occurrence of peak muscle activity of the equine longissimus dorsi during trot Proceedings Article
In: Progress in Motor Control X. Conference, Budapest, Hungary, 2015.
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Zsoldos, Rebeka; Krüger, Björn; Vögele, Anna; Schröder, Ulrike; Licka, Theresia
Sideways stabilisation effect of the equine longissimus dorsi muscle in trot Proceedings Article
In: Progress in Motor Control X. Conference, Budapest, Hungary, 2015.
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Hartmann, Stefan; Krüger, Björn; Klein, Reinhard
Content-Aware Re-targeting of Discrete Element Layouts Proceedings Article
In: International Conference on Computer Graphics, Visualization and Computer Vision, pp. 173–182, 2015.
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Riaz, Qaiser; Vögele, Anna; Krüger, Björn; Weber, Andreas
One Small Step for a Man: Estimation of Gender, Age, and Height from Recordings of One Step by a Single Inertial Sensor Journal Article
In: Sensors, vol. 15, no. 12, pp. 31999–32019, 2015.
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Yasin, Hashim; Iqbal, Umar; Krüger, Björn; Weber, Andreas; Gall, Juergen
3D Pose Estimation from a Single Monocular Image Technical Report
Universit no. CG-2015-1 arXiv:1509.06720v1, 2015.
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Riaz, Qaiser; Krüger, Björn; Weber, Andreas
A Relational Database for Human Motion Data Journal Article
In: Lecture Notes in Computer Science, Computational Science and Its Applications - ICCSA 2015, vol. 9159, pp. 234–249, 2015.
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Wilhelm, Nils; Vögele, Anna; Zsoldos, Rebeka; Licka, Theresia; Krüger, Björn; Bernard, Jürgen
FuryExplorer: Visual-Interactive Exploration of Horse Motion Capture Data Proceedings Article
In: Visualization and Data Analysis (VDA 2015), 2015.
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2014
Yasin, Hashim; Krüger, Björn; Weber, Andreas
Motion Tracking, Retrieval and 3D Reconstruction from Video Journal Article
In: International Journal of Multimedia and Ubiquitous Engineering (IJMUE), vol. 9, no. 2, pp. 265–280, 2014, ISSN: 1975-0080.
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Zsoldos, Rebeka; Krüger, Björn; Licka, Theresia
From maturity to old age: tasks of daily life require a different muscle use in horses Journal Article
In: Comparative Exercise Physiology, vol. 10, no. 2, pp. 75–88, 2014, ISSN: 1755-2540 (Print) 1755-2559 (Onl.
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Krüger, Björn; Vögele, Anna; Herwartz, Lukas; Terkatz, Thomas; Weber, Andreas; Garcia, Carmen; Fietze, Ingo; Penzel, Thomas
Sleep Detection using a Depth Camera Journal Article
In: Lecture Notes in Computer Science, ICCSA 2014, Part I, vol. LNCS 8579, pp. 824–835, 2014.
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Krüger, Björn; Vögele, Anna; Lassiri, Marouane; Herwartz, Lukas; Terkatz, Thomas; Weber, Andreas; Garcia, Carmen; Fietze, Ingo; Penzel, Thomas
Sleep Detection using De-Identified Depth Data Journal Article
In: Journal of Mobile Multimedia, vol. 10, no. 3&4, pp. 327–342, 2014.
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Baumann, Jan; Wessel, Raoul; Krüger, Björn; Weber, Andreas
Action Graph: A Versatile Data Structure for Action Recognition Proceedings Article
In: GRAPP 2014 - International Conference on Computer Graphics Theory and Applications, SCITEPRESS, Lisbon, Portugal, 2014.
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Krüger, Björn; Yasin, Hashim; Zsoldos, Rebeka; Weber, Andreas
Retrieval, Recognition and Reconstruction of Quadruped Motions Proceedings Article
In: GRAPP 2014 - International Conference on Computer Graphics Theory and Applications, SCITEPRESS, Lisbon, Portugal, 2014.
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Vögele, Anna; Krüger, Björn; Klein, Reinhard
Efficient Unsupervised Temporal Segmentation of Human Motion Proceedings Article
In: 2014 ACM SIGGRAPH/Eurographics Symposium on Computer Animation, Copenhagen, Denmark, 2014.
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2013
Zsoldos, Rebeka; Krüger, Björn; Weber, Andreas; Licka, Theresia
Equine Neck Movement: Comparing Segmental Kinematics and Precission Recall of Trajectories and Velocities Proceedings Article
In: XXIV Congress of the International Society of Biomechanics (ISB 2013), Natal, Brazil, 2013.
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Fehse, Ursula; Weber, Andreas; Krüger, Björn; Baumann, Jan; Effenberg, Alfred O.
Intermodal Action Identification Proceedings Article
In: International Conference on Mulisensory Motor Behavior: Impact of Sound, Hannover (Germany), 2013.
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Yasin, Hashim; Krüger, Björn; Weber, Andreas
3D Reconstruction of Human Motion from Video Proceedings Article
In: Workshop on Games and Graphics 2013, 2013.
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Bernard, Jürgen; Wilhelm, Nils; Krüger, Björn; May, Thorsten; Schreck, Tobias; Kohlhammer, Jörn
MotionExplorer: Exploratory Search in Human Motion Capture Data Based on Hierarchical Aggregation Journal Article
In: IEEE Transactions on Visualization and Computer Graphics, vol. 19, no. 12, pp. 2257-2266, 2013.
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Yasin, Hashim; Krüger, Björn; Weber, Andreas
Model based Full Body Human Motion Reconstruction from Video Data Proceedings Article
In: 6 th International Conference on Computer Vision / Computer Graphics Collaboration Techniques and Applications (MIRAGE 2013), Berlin, Germany, 2013.
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2012
Krüger, Björn; Zsoldos, Rebeka; Licka, Theresia; Weber, Andreas
Comparing trajectory and velocity based equine neck segment movement patterns Proceedings Article
In: 7th International conference on Canine and Equine Locomotion: Posters, Strömsholm, Sweden, 2012.
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Krüger, Björn; Zinke, Arno; Weber, Andreas
Dynamic Motion Graphs Proceedings Article
In: SCA'12 Posters: ACM SIGGRAPH/Eurographics Symposium on Computer Animation, Lausanne, Switzerland, 2012.
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Baumann, Jan; Eichert, Susanne; Wessel, Raoul; Krüger, Björn; Weber, Andreas
Data-Driven Full Body Action Recognition Proceedings Article
In: SCA'12 Posters: ACM SIGGRAPH/Eurographics Symposium on Computer Animation, Lausanne, Switzerland, 2012.
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Vögele, Anna; Hermann, Max; Krüger, Björn; Klein, Reinhard
Interactive Steering of Mesh Animations Proceedings Article
In: 2012 ACM SIGGRAPH/Eurographics Symposium on Computer Animation, Lausanne, Switzerland, 2012.
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2011
Krüger, Björn; Zinke, Arno; Baumann, Jan; Weber, Andreas
Data-Driven Texturing of Human Motions Proceedings Article
In: ACM SIGGRAPH ASIA 2011: Posters, Hong Kong, China, 2011.
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year = {2011},
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Baumann, Jan; Krüger, Björn; Zinke, Arno; Weber, Andreas
Data-Driven Completion of Motion Capture Data Proceedings Article
In: Workshop on Virtual Reality Interaction and Physical Simulation (VRIPHYS), Eurographics Association, Lyon, France, 2011.
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year = {2011},
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Krüger, Björn; Baumann, Jan; Abdallah, Mohammad; Weber, Andreas
A Study On Perceptual Similarity of Human Motions Proceedings Article
In: Workshop on Virtual Reality Interaction and Physical Simulation (VRIPHYS), Eurographics Association, Lyon, France, 2011.
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title = {A Study On Perceptual Similarity of Human Motions},
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Baumann, Jan; Krüger, Björn; Zinke, Arno; Weber, Andreas
Filling Long-Time Gaps of Motion Capture Data Proceedings Article
In: SCA'11: Poster Proc. ACM SIGGRAPH/Eurographics Symposium on Computer Animation, Vancouver, Canada, 2011.
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Tautges, Jochen; Zinke, Arno; Krüger, Björn; Baumann, Jan; Weber, Andreas; Helten, Thomas; Müller, Meinard; Seidel, Hans-Peter; Eberhardt, Bernd
Motion Reconstruction Using Sparse Accelerometer Data Journal Article
In: ACM Trans. Graph., vol. 30, no. 3, pp. 18:1–18:12, 2011, ISSN: 0730-0301.
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2010
Krüger, Björn; Tautges, Jochen; Weber, Andreas; Zinke, Arno
Fast Local and Global Similarity Searches in Large Motion Capture Databases Proceedings Article
In: 2010 ACM SIGGRAPH/Eurographics Symposium on Computer Animation, pp. 1–10, Eurographics Association, Madrid, Spain, 2010.
@inproceedings{krueger-2010-similaritysearches,
title = {Fast Local and Global Similarity Searches in Large Motion Capture Databases},
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Hoffmann, Jörg; Brüggemann, Bernd; Krüger, Björn
Automatic Calibration of a Motion Capture System based on Inertial Sensors for Tele-Manipulation Proceedings Article
In: 7th International Conference on Informatics in Control, Automation and Robotics (ICINCO), Funchal - Madeira, Portugal, 2010.
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2008
Tautges, Jochen; Schumann, M.; Krüger, Björn; Kuhlen, T.; Zinke, Arno; Weber, Andreas
Reconstruction of Human Motions Using Few Sensors Proceedings Article
In: Virtuelle und Erweiterte Realit" at: 5. Workshop der GI-Fachgruppe VR/AR, pp. 1–12, Shaker Verlag, Magdeburg, Germany, 2008, ISBN: 978-3-8322-7572-3.
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Krüger, Björn; Tautges, Jochen; Müller, Meinard; Weber, Andreas
Multi-Mode Tensor Representation of Motion Data Journal Article
In: Journal of Virtual Reality and Broadcasting, vol. 5, no. 5, 2008, ISSN: 1860-2037.
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2007
Müller, Meinard; Röder, Tido; Clausen, Michael; Eberhardt, Bernd; Krüger, Björn; Weber, Andreas
Documentation Mocap Database HDM05 Technical Report
Universität Bonn no. CG-2007-2, 2007, ISSN: 1610-8892.
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Krüger, Björn; Tautges, Jochen; Weber, Andreas
Multi-Mode Representation of Motion Data Proceedings Article
In: The 2nd International Conference on Computer Graphics Theory and Applications (GRAPP 2007), Volume AS/IE, pp. 21–29, INSTICC Press, Barcelona, Spain, 2007, ISBN: 978-972-8865-72-6.
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