Sistema de simulación de tiro para entrenamiento de combate fluvial
DOI:
https://doi.org/10.25043/19098642.69Palabras clave:
plataforma de simulación de movimiento, entrenamiento virtual, realidad virtualResumen
El entrenamiento de tiro virtual se ha vuelto muy atractivo debido a las posibles reducciones de costos y a la evaluación precisa. Este artículo describe el desarrollo de un simulador para entrenamiento de soldados en combate fluvial. El simulador combina el movimiento de una plataforma mecánica con imágenes virtuales y sonido para producir un escenario de inmersión con propósitos de formación. Nuestro prototipo, que se encuentra en su última fase de construcción, tiene cuatro tareas con tres niveles de dificultad. Inicialmente, cada tarea es definida en términos de una trayectoria virtual usada por nuestra plataforma de movimiento personalizado para reproducir movimientos reales, basado en un modelo de dinámica simple a partir de mediciones reales. Nuestra visualización, efectos de sonido, y métricas son implementados en el motor de juegos Torque. Finalmente, un sistema de post-procesamiento calcula un informe de medidas.
Descargas
Referencias bibliográficas
BERTRAM, V. "Practical Ship Hydrodynamics". s.l. : Butterworth, Heineman.
BLANCO J.C., RODRIGUEZ C.F. "Configuration Optimization of a Boat Simulation Platform for a Mobile User", Proceedings of the ASME 2010 International Mechanical Engineering Congress & Exposition, IMECE2010 November 2010, Vancouver, British Columbia, Canada.
CLARK J., KENDIR T., SHECHTER M., ROSA S., "Firearm Laser Training System And Method Employing An Actuable Target Assembly", Patent 6575753, USA, June 2003.
FALTINSEN, O. "Hydrodynamics of High-Speed Marine Vehicles". s.l. : Cambridge University Press, 2005.
GAO, F., LI, W., ZHAO, X., ZHENLIN, J., and HUI, Z., 2002, "New Kinematic Structures for 2-, 3-, 4-, and 5- DOF Parallel Manipulator Designs", Mechanism and machine theory, 37,pp. 1395-1411.
LVOVSKIY M., "Training Simulator For Sharp Shooting", Patent 6942486, USA, September 2005.
MASTINU, G., GOBBI, M., AND MIANO, C., 2006, Optimal Design of Complex Mechanical Systems. Springer-Verlag, Berlin, pp. 57-67. [8] Merlet, J. -P. 2006, Parallel Robots, Springer, Netherlands, pp. 19-93.
MONONEN K., VIITASALO J.T., ERA P., KONTTINEN N. "Optoelectronic Measures in the Analysis of Running Target Shooting", Scandinavian Journal of Medicine & Science in Sports, Vol. 13, No. 3, 2003.
MORRISON G.B., "Police and Correctional Department Firearm Training Frameworks in Washington State", Police Quarterly, Vol. 6, No. 2, 2003.
PEREZ, T. "Ship motion control". London: Springer-Verlag, 2005.
POOR, CR. "Simulink Modeling of a Marine Autopilot for TSSE Shiip Designs". Master´s Thesis, Naval Postgraduate School. Monterey, California: s.n., a996.
QUEVEDO L., SOLÉI J., "Visual Training Program Applied to Precision Shooting", Ophthalmic and Physiological Optics, Vol. 15, No. 5, September 1995.
SAUS E., JOHNSEN B.H., EID., RIISEM P.K., ANDERSEN R., THAYER.F., "The Effect of Brief Situational Awareness Training in a Police Shooting Simulator: An Experimental Study", Military Psychology, Vol. 18, No. 3, 2006.
STAN, S.-D., MĂTIEŞ, V., AND BĂLAN, R., 2008, "Optimal Design of Parallel Kinematics Machines with 2 Degrees of Freedom", Parallel manipulators towards new applications, Wu, H., ed., I-Tech Education and Publishing, Vienna, pp. 295-320. n
SUZUKI K., "Shooting Game Machine", Patent 5366229, USA, November 1994. e
The Math Works, Inc. Genetic algorithm and direct search toolbox for use with MATLAB: user's g de (Version 1.0.1. ed.). The gui Math Works, c2004.
TSAI, L.-W. , 1999. Robot Analysis: The mechanics of Serial and Parallel Manipulators, John Wiley & Sons, Inc, New York, Chap. 1.
WANG, Z.G; HU, Y.; XIE, F., "Optical Fiber Simulator for Shooting and Aiming Practices", Proc. SPIE VOL. 2895, The International Society for Optical Engineering, 1996.
ZAENGLEIN, JR. W.G., "Shooting Simulating Process and Training Device Using a Virtual Reality Display Screen", Patent 5641288, USA, June 1997.
Descargas
Publicado
Cómo citar
Número
Sección
Licencia
The authors who publish in this Journal certify that:
- The work submitted for publication in The Ship Science and Technology journal, was written by the author, given that its content is the product of his/her direct intellectual contribution.
- All data and references to material already published are duly identified with their respective credits and are included in the bibliographic notes and quotations highlighted as such.
- All materials submitted for publication are completely free of copyrights; consequently, the author accepts responsibility for any lawsuit or claim related with Intellectual Property Rights thereof, Exonerating of responsibility to The Science and Technology for the Development of Naval, Maritime, and Riverine Industry Corporation, COTECMAR.
- In the event that the article is chosen for publication by The Ship Science and Technology journal, the author state that he/she totally transfers reproduction rights of such to The Science and Technology for the Development of Naval, Maritime, and Riverine Industry Corporation, COTECMAR.
- The authors retain the copyright and transfer to COTECMAR the right of publication and reproduction of the work which will be simultaneously subject to the Creative Commons Attribution License (CC - BY), which allows the license to copy, distribute, display and represent the work and to make derivative works as long as it recognizes and cites the work in the manner specified by the author or licensor.
- For more information about the Creative Commons Attribution License (CC -BY) and his use and scope, please visit the following web page https://creativecommons.org/licenses/by-sa/4.0/legalcode
