Development of educational techniques for computational-experimental analysis

A curriculum wide initiative to enrich course content and increase student engagement in experiential learning through the adoption of new learning modalities is underway in the Department of Mechanical and Manufacturing Engineering, Miami University, OH. The projects entail the development of online learning modules which interweave experimental and computational analysis. The modules incorporate multimedia content which has been prepared with undergraduate and graduate student participation. The ComEx website has been designed to enable easy uploading/updating of material. The distinctive feature of the ComEx studios is the thematic linking of the content which allows them to be used for multiple classes with a progressive advancement in technical content. This paper presents details of the studio model: motivation, methodology, implementation and assessment. The learning modules can utilized by faculty to introduce new lab derived content, which may be related to their research, into a traditional class only course format. Additional benefits of the modules include the ability to independently review specific topics in preparation of advanced courses or for a research project. Assessment of the efficacy of the modules is being performed by students surveys completed online, and by four external (faculty) reviewers. Continuous improvement of the modules is underway.

[1]  Duncan M. Fraser,et al.  Enhancing the Learning of Fluid Mechanics Using Computer Simulations , 2007 .

[2]  S. Warren,et al.  Lessons learned from the application of online homework generation modules in a signals and systems course , 2008, 2008 38th Annual Frontiers in Education Conference.

[3]  Andrew F. Heckler,et al.  Student difficulties with basic concepts in introductory materials science engineering , 2011, 2011 Frontiers in Education Conference (FIE).

[4]  Emad Ali,et al.  An overview of simulation module, PCLAB, for undergraduate chemical engineers in process control , 2010, Comput. Appl. Eng. Educ..

[5]  Nourdine Aliane,et al.  A Matlab/Simulink-Based Interactive Module for Servo Systems Learning , 2010, IEEE Transactions on Education.

[6]  Beatriz Sánchez,et al.  A computer‐based tool to foster engineering students' interest in dynamics , 2011, Comput. Appl. Eng. Educ..

[7]  Fabrice Manns,et al.  Work in progress — Medical imaging education by a multi-level module-based online teaching and assessment system , 2010, 2010 IEEE Frontiers in Education Conference (FIE).

[8]  Sven K. Esche,et al.  Content‐rich interactive online laboratory systems , 2009, Comput. Appl. Eng. Educ..

[9]  Gordana Jovanovic Dolecek MATLAB-Based Program for Teaching Autocorrelation Function and Noise Concepts , 2012 .

[10]  Babur Deliktas Computer technology for enhancing teaching and learning modules of engineering mechanics , 2011, Comput. Appl. Eng. Educ..

[11]  Ronald L. Miller,et al.  Using Computer-Based Online Learning Modules to Promote Conceptual Change: Helping Students Understand Difficult Concepts in Thermal and Transport Science , 2012 .

[12]  Roman Taraban,et al.  First Steps in Understanding Engineering Students' Growth of Conceptual and Procedural Knowledge in an Interactive Learning Context , 2007 .

[13]  El-Sayed Aziz,et al.  Teaching and learning enhancement in undergraduate machine dynamics , 2011, Comput. Appl. Eng. Educ..

[14]  May Lin Wee,et al.  Investigating the Effect of 3D Simulation Based Learning on the Motivation and Performance of Engineering Students , 2010 .