Experiential Learning in Vehicle Dynamics Education via Motion Simulation and Interactive Gaming

Creating active, student-centered learning situations in postsecondary education is an ongoing challenge for engineering educators. Contemporary students familiar with visually engaging and fast-paced games can find traditional classroom methods of lecture and guided laboratory experiments limiting. This paper presents a methodology that incorporates driving simulation, motion simulation, and educational practices into an engaging, gaming-inspired simulation framework for a vehicle dynamics curriculum. The approach is designed to promote active student participation in authentic engineering experiences that enhance learning about road vehicle dynamics. The paper presents the student use of physical simulation and large-scale visualization to discover the impact that design decisions have on vehicle design using a gaming interface. The approach is evaluated using two experiments incorporated into a sequence of two upper level mechanical engineering courses.

[1]  Aad Slootmaker,et al.  EMERGO: A methodology and toolkit for developing serious games in higher education , 2008 .

[2]  Edward M. Kasprzak,et al.  The Formula SAE Tire Test Consortium— Tire Testing and Data Handling , 2006 .

[3]  S. Freitas Learning in immersive worlds: A review of game-based learning , 2006 .

[4]  Clark Aldrich,et al.  Learning by Doing: A Comprehensive Guide to Simulations, Computer Games, and Pedagogy in e-Learning and Other Educational Experiences , 2005 .

[5]  Don Burns,et al.  Open Scene Graph A: Introduction, B: Examples and Applications , 2004 .

[6]  Richard Romano Non-Linear Optimal Tilt Coordination for Washout Algorithms , 2003 .

[7]  Douglas L. Milliken,et al.  Chassis Design: Principles And Analysis , 2002 .

[8]  Ken Kennedy,et al.  Using Information Technology to Transform the Way We Learn , 2001 .

[9]  Julia M. Williams Transformations in technical communication pedagogy: engineering, writing, and the ABET Engineering Criteria 2000 , 2000, 18th Annual Conference on Computer Documentation. ipcc sigdoc 2000. Technology and Teamwork. Proceedings. IEEE Professional Communication Society International Professional Communication Conference an.

[10]  Frank M. Cardullo,et al.  Motion Cueing Algorithm Development: Initial Investigation and Redesign of the Algorithms , 2000 .

[11]  Richard M. Felder,et al.  THE FUTURE OF ENGINEERING EDUCATION II. TEACHING METHODS THAT WORK , 2000 .

[12]  G. Broll,et al.  Microsoft Corporation , 1999 .

[13]  Kenneth W. Grace,et al.  Robotic micromanipulator for ophthalmic surgery , 1997 .

[14]  Maja Matijasevic,et al.  A Review of Networked Multi-User Virtual Environments , 1997 .

[15]  K. Radermacher,et al.  Development of a robot with optimized kinematics for the treatment of bone structures , 1996, Proceedings of 18th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[16]  David E. Orin,et al.  Kinematics of a Three Degree-Of-Freedom Motion Platform for a Low-Cost Driving Simulator , 1996 .

[17]  Curtis L. Collins,et al.  The singularity analysis of an in-parallel hand controller for force-reflected teleoperation , 1995, IEEE Trans. Robotics Autom..

[18]  Jack Dongarra,et al.  PVM: Parallel virtual machine: a users' guide and tutorial for networked parallel computing , 1995 .

[19]  S. Shankar Sastry,et al.  Design and control of a simplified Stewart platform for endoscopy , 1994, Proceedings of 1994 33rd IEEE Conference on Decision and Control.

[20]  V. Ruohomäki,et al.  Viewpoints on learning and education with simulation games , 1994 .

[21]  Leonard S. Haynes,et al.  Six-degree-of-freedom active vibration isolation using a stewart platform mechanism , 1993, J. Field Robotics.

[22]  Matthew R. Glucksberg,et al.  A six degree of freedom micromanipulator for ophthalmic surgery , 1993, [1993] Proceedings IEEE International Conference on Robotics and Automation.

[23]  Thomas M. Terry Teaching Science as Process. , 1993 .

[24]  Bjarne Stroustrup,et al.  The C++ programming language (2nd ed.) , 1991 .

[25]  Y. Amirat,et al.  Force feedback control of a six DOF parallel robot. Application to assembly in car manufacturing , 1991 .

[26]  Meyer Nahon,et al.  Simulator motion-drive algorithms - A designer's perspective , 1990 .

[27]  Brian W. Kernighan,et al.  The C Programming Language, Second Edition , 1988 .

[28]  Jean-Pierre Merlet Parallel manipulators.Part I :Theory design,kinematics,dynamics and control , 1987 .

[29]  E F Fichter,et al.  A Stewart Platform- Based Manipulator: General Theory and Practical Construction , 1986 .

[30]  Bjarne Stroustrup,et al.  C++ Programming Language , 1986, IEEE Softw..

[31]  Bruce J. Schachter Computer Image Generation , 1983 .

[32]  Jon Postel,et al.  User Datagram Protocol , 1980, RFC.

[33]  D. Stewart,et al.  A Platform with Six Degrees of Freedom , 1965 .

[34]  J. Cameron Specification and Reference , 1965 .