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On the Design of a Task Based Human Simulation System
Technical Paper
2005-01-2702
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
A common request from users of human simulation tools is for functionality that allows rapid definition of task sequences and subsequent, largely automatic, “what if” scenario evaluation. A review of the high level requirements collected from feedback on our previous implementation forays of such systems is presented, and a new framework is suggested to address the broad set of identified requirements. The framework, called the Task Simulation Builder, is characterized by a flexible and extensible architecture centered around a learning type task controller. Minimum user input is required to describe a scenario of events and obtain a simulation output, yet through output refinement feedback, the resulting simulation can progressively be made as detailed as needed. The overall goal of the system is to improve the efficiency of human modeling use in production environments.
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Authors
Topic
Citation
Raschke, U., Kuhlmann, H., and Hollick, M., "On the Design of a Task Based Human Simulation System," SAE Technical Paper 2005-01-2702, 2005, https://doi.org/10.4271/2005-01-2702.Also In
SAE 2005 Transactions Journal of Passenger Cars: Electronic and Electrical Systems
Number: V114-7; Published: 2006-02-01
Number: V114-7; Published: 2006-02-01
References
- Badler,, N. Bindiganavale, R Bourne, J. et al. 1998 A Parameterized Action Representation for Virtual Human Agents Workshop on Embodied Conversational Characters Lake Tahoe, California
- Chaffin, D.B. Erig M. 1991 Three-Dimensional Biomechanical Static Strength Prediction Model Sensitivity to Postural and Anthropometric Inaccuracies IIE Transactions 22 3 215 227
- Colombini, D. Occhipinti, E. 2004 Multiple Factor Models Working Postures and Movements et al. CRC Press LLC Boca Raton, FL.
- Ianni, et al. 1998 Design Evaluation for Personnel, Training and Human Factors (DEPTH) Final Report
- Ianni 1999 “A Specification for Human Action Representation.” Society of Automotive Engineers (SAE) (SAE Digital Human Modeling Conference Proceedings)
- Karger. D.W. Bayha, F.H. 1987 Engineered Work Measurement 4th Industrial Press New York
- Laughery, R. Scott-Nash, S. 2000 Progress in Linking Human Performance Models and Human Motion Simulation Models SAE Paper 2000-01-2185 SAE Digital Human Modeling Conference Proceedings
- Onosato, M. Kawano, T. Iwata, K. 2002 Virtual Affordance Protocol: Communication Between Digital Human and Virtual Working Environment for Task Motion Planning VDI- Berichte NR. 1675 (SAE Digital Human Modeling Conference Proceedings)
- Reed, M.P. Parkinson, M.B. Wagner, D.W. 2004 Torso Kinematics in Seated Reaches SAE Technical Paper 2004-01-2176 SAE International Warrendale, PA.