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Heurísticas para el Ajuste de Algoritmos de Control de Plataformas Robóticas de Movimiento en Simuladores

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Heurísticas para el Ajuste de Algoritmos de Control de Plataformas Robóticas de Movimiento en Simuladores

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Casas, S.; Portalés, C.; Riera, JV.; Fernández, M. (2017). Heurísticas para el Ajuste de Algoritmos de Control de Plataformas Robóticas de Movimiento en Simuladores. Revista Iberoamericana de Automática e Informática industrial. 14(2):193-204. https://doi.org/10.1016/j.riai.2016.09.011

Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/143517

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Title: Heurísticas para el Ajuste de Algoritmos de Control de Plataformas Robóticas de Movimiento en Simuladores
Secondary Title: Heuristics for solving the parameter tuning problem in motion cueing algorithms.
Author: Casas, Sergio Portalés, Cristina Riera, José V. Fernández, Marcos
Issued date:
Abstract:
[ES] Diversos tipos de plataformas robóticas son empleadas habitualmente para la generación de claves gravito-inerciales en simuladores. Además del control de los actuadores, dichas plataformas deben ejecutar complejos ...[+]


[EN] Motion cueing algorithms are commonly used in vehicle simulators to control robotic motion platforms. These algorithms usually have a significant number of parameters that need to be tuned. This process has been ...[+]
Subjects: Motion platforms , Heuristics , Simulation , Motion cueing algorithms , Tuning , Robotics , Optimization , Plataformas de movimiento , Heurísticas , Simuladores , Algoritmos de control , Ajuste de parámetros , Robótica , Optimización
Copyrigths: Reconocimiento - No comercial - Sin obra derivada (by-nc-nd)
Source:
Revista Iberoamericana de Automática e Informática industrial. (issn: 1697-7912 ) (eissn: 1697-7920 )
DOI: 10.1016/j.riai.2016.09.011
Publisher:
Universitat Politècnica de València
Publisher version: https://doi.org/10.1016/j.riai.2016.09.011
Type: Artículo

References

Alba, E., Blum, C., Asasi, P., Leon, C., Gomez, J. A., 2009. Optimization techniques for solving complex problems. New Jersey, NJ, USA, Wiley.

Bertsimas, D., Tsitsiklis, J., 1993. Simulated Annealing. Statistical Science 9 (1), 10-15.

Casas, S., Alcaraz, J. M., Olanda, R., Coma, I., Fernández, M., 2014. Towards an extensible simulator of real motion platforms. Simulation Modelling Practice and Theory 45 (0), 50-61. [+]
Alba, E., Blum, C., Asasi, P., Leon, C., Gomez, J. A., 2009. Optimization techniques for solving complex problems. New Jersey, NJ, USA, Wiley.

Bertsimas, D., Tsitsiklis, J., 1993. Simulated Annealing. Statistical Science 9 (1), 10-15.

Casas, S., Alcaraz, J. M., Olanda, R., Coma, I., Fernández, M., 2014. Towards an extensible simulator of real motion platforms. Simulation Modelling Practice and Theory 45 (0), 50-61.

Casas, S., Coma, I., Riera, J. V., Fernández, M., 2015. Motion-Cuing Algorithms: Characterization of Users' Perception. Human Factors: The Journal of the Human Factors and Ergonomics Society 57 (1), 144-162.

Casas, S., Olanda, R., Fernandez, M., Riera, J. V., 2012. A faster than real-time simulator of motion platforms. CMMSE, Murcia, Spain.

Casas, S., Rueda, S., Riera, J. V., Fernández, M., 2012. On the Real-time Physics Simulation of a Speed-boat Motion. GRAPP/IVAPP.

Colombet, F., Dagdelen, M., Reymond, G., Pere, C., Merienne, F., Kemeny, A., 2008. Motion Cueing: what's the impact on the driver's behaviour? Driving Simulator Conference, Monte-Carlo, Monaco.

Cossalter, V., Lot, R., Massaro, M., Sartori, R., 2011. Development and Validation of an Advanced Motorcycle Riding Simulator. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 225 (6), 705-720.

Díaz, A., Glover, F., Ghaziri, H. M., González, J. L., Laguna, M., Moscato, P., Tseng, F. T., 1996. Optimización Heurística y Redes Neuronales. Madrid, Paraninfo.

Edelkamp, S., Schroedl, S., 2011. Heuristic Search: Theory and Applications. Waltham, MA, USA, Morgan Kaufman - Elsevier.

Ferri, F. J., Albert, J. V., Martín, G., 1998. Introducció a l'Anàlisi i Disseny d'Algorismes. Valencia, Spain, Publicacions de la Universitat de València.

Garrett, N. J. I., Best, M. C., 2010. Driving simulator motion cueing algorithms - a survey of the state of the art. Proceedings of the 10th International Symposium on Advanced Vehicle Control (AVEC), Loughborough, UK.

Go, T. H., Bürki-Cohen, J., Chung, W. H., Schroeder, J. A., Saillant, G., Jacobs, S., Longridge, T., 2003. The Effects of Enhanced Hexapod Motion on Airline Pilot Recurring Training and Evaluation AIAA Modeling and Simulation Technologies Conference and Exhibit, Austin, TX, USA.

Grant, P. R., 1996. The Development of a Tuning Paradigm for Flight Simulator Motion Drive Algorithms. PhD, University of Toronto.

Grant, P. R., Reid, L. D., 1997. Motion Washout Filter Tuning: Rules and Requirements. Journal of Aircraft 34 (2), 145-151.

Gutridge, J., 2004. Three Degree-of-Freedom Simulator Motion Cueing Using Classical Washout Filters and Acceleration Feedback. Master Thesis, Virginia Polytechnic Institute & State University.

Hammersley, J. M., Handscomb, D. C., 1964. Monte Carlo Methods. London, UK & New York, NY, USA.

Holland, J. H., 1992. Genetic Algorithms. Scientific American 267, 66-72.

Kelley, D., 1995. Automata and Formal Languages: An Introduction. New Jersey, NJ, USA, Prentice Hall.

Korobeynikov, A. V., Turlapov, V. E., 2005. Modeling and Evaluating of the Stewart Platform. International Conference Graphicon.

MacNeilage, P. R., Banks, M. S., Berger, D. R., Bulthoff, H. H., 2007. A Bayesian model of the disambiguation of gravitoinertial force by visual cues. Experimental Brain Research, 179 (2), 263-290.

Merlet, J. P., 2006. Parallel robots. The Netherlands, Springer.

Nahon, M. A., Reid, L. D., 1990. Simulator motion-drive algorithms - A designer's perspective. Journal of Guidance, Control, and Dynamics 13 (2), 356-362.

Reid, L. D., Nahon, M. A., 1985. Flight Simulation Motion-Base Drive Algorithms: Part 1 - Developing and Testing the Equations. University of Toronto, UTIAS. 296.

Reid, L. D., Nahon, M. A., 1986. Flight Simulation Motion-Base Drive Algorithms: Part 2- Selecting the System Parameters. University of Toronto, UTIAS. 307.

Reid, L. D., Nahon, M. A., 1986. Flight Simulation Motion-Base Drive Algorithms: Part 3 - Pilot Evaluations. University of Toronto, UTIAS.

Reymond, G., Kemeny, A., 2000. Motion Cueing in the Renault Driving Simulator. Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility 34, 249-259

Schmidt, S. F., Conrad, B., 1969. The Calculation of Motion Drive Signals for Piloted Flight Simulators. Palo Alto, CA, USA, NASA. 69-17.

Sinacori, J. B., 1977. The Determination of Some Requirements for a Helicopter Flight Research Simulation Facility. CA, USA, Moffet Field. 7805.

Slob, J. J., 2008. State-of-the-Art Driving Simulators, a Literature Survey. Eindhoven, The Netherlands, Eindhoven University of Technology. Stewart, D., 1965. A Platform with six degrees of freedom.

Stahl, K., Abdulsamad, G., Leimbach, K., Vershinin, Y. A., 2014. State of the Art and Simulation of Motion Cueing Algorithms for a Six Degree of Freedom Driving Simulator. Paper presented at the 17th International Conference on Intelligent Transportation Systems (ITSC).

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