State-of-the-art report
Publications
Introducing a Modular Concept for Exchanging Character Animation Approaches
Proposing a Co-simulation Model for Coupling Heterogeneous Character Animation Systems
A Probabilistic Steering Parameter Model for Deterministic Motion Planning Algorithms
Presenting a Deep Motion Blending Approach for Simulating Natural Reach Motions
Presenting a Modular Framework for a Holistic Simulation of Manual Assembly Tasks
Towards realistic walk path simulation of single subjects: presenting a probabilistic motion planning algorithm
Counterbalancing virtual reality induced temporal disparities of human locomotion for the manufacturing industry
A Motion Reuse Framework for Accelerated Simulation of Manual Assembly Processes
Fine-Grained Semantic Segmentation of Motion Capture Data using Dilated Temporal Fully-Convolutional Networks
Combining Simulation and Augmented Reality Methods for Enhanced Worker Assistance in Manual Assembly
Adaptive gaussian mixture trajectory model for physical model control using motion capture data
Application of Multi-objective Optimization on Ergonomics in Production – A Case Study (in Advances in Additive Manufacturing, Modeling Systems and 3D Prototyping, pp. 584-594)
Natural Posture Blending Using Deep Neural Networks
Capturing Subtle Motion Differences of Pedestrian Street Crossings
Real-Time Motion Tracking for Humans and Robots in a Collaborative Assembly Task
Combining heterogeneous digital human simulations: presenting a novel co-simulation approach for incorporating different character animation technologies
Motion Data and Model Management for Applied Statistical Motion Synthesis
Stylistic Locomotion Modeling and Synthesis using Variational Generative Models
Learning a Continuous Control of Motion Style from Natural Examples
Posters, reports and presentations
The MOSIM Project: Combining digital human simulations for industrial applications
Introducing a Modular Concept for Exchanging Character Animation Approaches (poster)
Using Motion Capture and Virtual Reality to test the advantages of Human Robot Collaboration (final year project report)
Kick-off November 2018 (posters)
ABOUT MOSIM
MOSIM is an ITEA 3 project focusing on Modular Simulation of Natural Human Motions. The project runs from 2018-09-01
to 2021-08-31.
CONTACT
Dr. Thomas Bär
Daimler Buses - EvoBus GmbH
thomas.baer@daimler.com