An Innovative Interdisciplinary Teaching and Learning Methodology for Outcome Based Education
DOI:
https://doi.org/10.16920/jeet/2017/v30i3/110587Keywords:
Outcome-Based Education (OBE), Interdisciplina by Teaching and Learning Methodology (IDTM), Interdisciplinary Courses, Program Outcomes, Course Outcomes, Electronics and Communication Engineering Education.Abstract
The Outcome-Based Education (OBE) is a scholastic method that emphasizes on what students can learn after the completion of their course or programme. Today exploring different ideas and innovation of new techniques at inter-disciplinary areas are mandatory for a fresh engineering graduate. OBE is an active learning- teaching methodology providing solution for the above problem. The courses relating to different disciplines are integrated together to implement different innovative ideas in the area of engineering education. An Innovative Interdisciplinary Teaching and Learn ing Methodology (IDTLM) is essential in the area of Electronics and Computer Engineering Education at under graduate level or any other engineering area. This paper describes about the procedure to develop IDTLM and is successfully implemented for interdisciplinary courses like Operating System and Embedded System courses for engineering graduates at Vidya Jyothi Institute of Technology, Hyderabad. This paper presents the process of implementation of IDTLM for different engineering courses and how it is useful to develop course/open-ended/academic/in house/ mini/major projects in the area of Electronics and Communication Engineering Education. This paper also explores the effective usage of IDTLM with the case study results and is compared with benefits over the Conventional Methodology (CM). The result shows the better attainment values for Course Outcomes (COS) and Program Outcomes (POS) achieved using IDTLM i n OBE implementation.Downloads
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Rubýn Sýnchez-Dams, Barýn-Salazar, Marýa Clara Gýmez-ýlvarez, “An Extension of the SEMAT Kernel for Representing Teaching and Learning Practices about Embedded Systemsâ€, 4th International Conference in Software Engineering Research and Innovation (CONISOFT-IEEE Xplore), 2016.
M Rajendra Prasad, D Krishna Reddy, Computer Based Teaching Methodology for Outcome-Based Engineering Education, 6th IEEE International Conference in Advanced Computing (IACC-IEEE Xplore), 2016.
Holliger , W. Elspass, “A Novel Form of Distributed Interdisciplinary Project-Based Design Educationâ€, IEEE International Conference on Networking, International Conference on Systems and International Conference on Mobile Communications and Learning Technologies (IEEEXplore) , 2006.
DespoKtoridou and Nikleia Eteokleous, “Interdisciplinaryr Web-based learning practices in higher educationâ€, IEEE International Conference on Global Engineering Education (EDUCON), 2013
M. Vasantha Lakshmi, “Outcome-Based Teaching: Microwave and Radar†IEEE International Conference on MOOC,Innovation and Technology in Education-MITE2014.
Gary K.W.Wong, H.Y.Cheung “,Outcome-Based Teaching and Learning in Computer Science Education at Sub-degree Level†International Journal of Information and Education Technology, Vol. 1,No. 1,April 2011
C. Sevilla, S. Santini, P.A.Haya, P.Rodriguez, and G. M. Sacha. “Interdisciplinary design of videogames: A highly motivating method of learningâ€, International Symposium Computers in Education (SIIE), 2012.
M. H. Lai, H.M. Nieh, T. P. Teng, J. J. Chen, Y. Y. Huang and Y. C. Lu, “Development of an hemodialysis simulator for interdisciplinary learningâ€, IEEE International Conference on Industrial Engineering and Engineering Management (IEEM), 2010
Jyi-Shane Liu and Tze-Kai Huang, “A project mediation approach to interdisciplinary learningâ€, Fifth IEEE International Conference Advanced Learning Technologies ( ICALT),2005.
D.T. Rover, J.A. Dickerson, et. al, “Using a design document to support interdisciplinary learningâ€, 33rd Annual Frontiers in Education, 2003.
D. Martinez and K.H. Smith, “An engineering and education interdisciplinary learning experienceâ€, 33rd Annual Frontiers in Education, 2003. FIE2003
Magalý T. Longhi, Maria A. S. N. Nunes, Patricia A. Behar and Henrique N. Schneider, “Social interactions and emotional contagion in virtuallearning environments : An interdisciplinary approachâ€, 8th Euro American Conference on Telematics and Information Systems (EATIS), 2016
Alexander Kuznietsov and SergejKovalev, “Development of an electric vehicle as a framework for interdisciplinary problem based learning curriculumsâ€, IEEE International Electric Vehicle Conference (IEVC), 2014
Ankur Chattopadhyay and George Sellman, “Developing the cellbot learning framework (CLF) -An interdisciplinary model for integrating mobile computing with robotics to innovate STE Meducation and outreachâ€, IEEE Frontiers in Education Conference, 2013
Shankar Krishnan, “Promoting interdisciplinary project-based learning to build the skill sets for research and development of medical devices in academiaâ€, 35th Annual International Conference on Engineering in Medicine and Biology Society (EMBC), 2013
Phillip B. Chilson and Mark B. Yeary, “Hands On Learning Modules for Interdisciplinary Environments: An Example with a Focus on Weather Radar Applicationsâ€, IEEE Transactions on Education ,Volume: 55, Issue: 2, May 2012.
Anna Friesel, “Encouraging students to study theory through interdisciplinary projects, teamwork and e-learningâ€, International Conference on Computational Technologies in Electrical and Electronics Engineering (SIBIRCON), 2010
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