Journal of Engineering Education Transformations

Journal of Engineering Education Transformations

Year: 2016, Volume: 29, Issue: Special Issue, Pages:

Original Article

Improving Laboratory Experiences in Engineering Education

Abstract

Laboratory classes are integral part of an engineering course. Laboratory sessions are primarily designed to develop proficiency in technical skills, provide an opportunity to place theory in context, develop critical thinking skills and promote enquiry based learning. Laboratory experiences will be paramount in developing our students as independent learners, researchers, critical thinkers and generators of knowledge. There are several reforms need to be implemented to improve student laboratory experiences. This paper suggests some of the methods that can be implemented in engineering institutes. This paper also presents the study of usage of online tools and rubric based laboratory assessment methodology adopted in electronics engineering course.

References

  • Lyle D. Feisel and Albert J. Rosa �The Role of the Laboratory in Undergraduate Engineering Education,� Journal of Engineering Education, pp. 121.130, Jan 2005.
  • Dunne Julie and Ryan Barry, �Improving the Undergraduate Laboratory Learning Experience Through Redesigned Teaching and Assessment Strategies Integrating Transferable Skills and Focusing on Feedback,� Learning, Teaching & Technology Centre, Dublin Institute of Technology, Paper 21, pp. 1-8, 2010.
  • Alexandra Yeung, Simon M. Pyke, Manjula D. Sharma, Simon C. Barrie, Mark A. Buntine, Karen Burke Da Silva, Scott H. Kable and Kieran F. Lim, �The Advancing Science by Enhancing Learning in the Laboratory (ASELL) Project The first Australian multidisciplinary workshop,� Int. Journal of Innovation in Science and Mathematics Education, Vol. 19, No. 2, pp. 51-72, 2011.
  • Karen E. Schmahl, �Expanding the Objectives of the lab experience,� Int. J. Engng Ed. Vol. 14, No. 6, pp. 419-425, Oct. 1998.
  • Sasha Nikolic, Christian Ritz, Peter James Vial, Montserrat Ros, and David Stirling �Decoding Student Satisfaction: How to Manage and Improve the Laboratory Experience,� IEEE Trans. on Education, Vol. 58, No. 3, pp. 151-158, Aug 2015.
  • David W. Parent and Lourdes Del Rio-Parent �Introducing TCAD Tool at Graduate Level Study,� IEEE Trans. on Education, Vol. 51, No. 3, pp. 331-335, Aug. 2008.
  • Vikas J. Dongre, Ramkrishna V. Yenkar, and Vijay H. Mankar �Innovative Improvements in Electronic Engineering Laboratory Education using Electronic Mini Lab (EML): A Case Study,� IEEE Inter. Conf. in MOOC, Innovation and Technology in Education (MITE), pp. 37-41, 2013.
  • Houcine Hassan, Juan-Miguel Mart�nez, Carlos Dom�nguez, Angel Perles, and Jos� Albaladejo �Innovative Methodology to Improve the Quality of Electronic Engineering Formation Through Teaching Industrial Computer Engineering,� IEEE Trans. on Education, Vol. 47, No. 4, pp. 446-452, Nov. 2004.
  • Sabih G�zelg�z and H�seyin Arslan, �A Wireless Communications Systems Laboratory Course,� IEEE Trans. on Education, Vol. 53, No. 4, pp. 532-541, Nov. 2010.
  • Archana Mantri, Sunil Dutt, J. P. Gupta, and Madhu Chitkara, �Design and Evaluation of A PBL Based Course in Analog Electronics,� IEEE Trans. on Education, Vol. 51, No. 4, pp. 432-438, Nov. 2008.
  • David Parent, Eric Basham, Yasser Dessouky, Stacy Gleixner, Gregory Young, and Emily Allen �Improvements to a Microelectronic Design and Fabrication Course,� IEEE Trans. on Education, Vol. 48, No. 3, pp. 497-503, Aug. 2005.
  • Ronald Grundbacher, Jochen E. Hoetzel, and Christofer Hierold �MEMSlab A Practical MEMS Course for the Fabrication, Packaging, and Testing of a Single-Axis Accelerometer,� IEEE Trans. on Education, Vol. 52, No. 1, pp. 82-91, Feb. 2009.
  • Rui Hong Chu, Dylan Dah-Chuan Lu, and S. Sathiakumar �ProjectBased Lab Teaching for Power Electronics and Drives,� Vol. 51, No. 1, pp. 108-113, Feb. 2008.
  • Sasha Nikolic, Christian Ritz, Peter James Vial, Montserrat Ros & David Stirling, " Improving the Laboratory Learning Experience: A Process to Train and Manage Teaching Assistants," IEEE Trans. on Education, vol. 58, no. , pp. 151-1588, 2015.
  • Shulamit Kotzer and Yossi Elran �Learning and teaching with Moodle-based E-learning environments, combining learning skills and content in the fields of Math and Science & Technology,� 1st Moodle Research Conference, Heraklion, Crete-Greece pp. 122-131, Sep. 2012.
  • Marie Avegail M. Dolleton �MOODLE An Innovative Teaching Learning Strategy Among SISC College Students in Science Psychology and Nursing Subjects,� SISC Kaizen pp. 1-39, 2011.
  • Jos� M. de la Rosa �Using nanoHUB org for Teaching and Learning Nanoelectronic Devices in Materials Engineering: A Simulation-based Educational Approach to the Study of Carbon Nanotubes,� in IEEE Global Engineering Education Conference (EDUCON), pp. 1-4. Apr. 2012.
  • S. Nikolic, "Training laboratory: Using online resources to enhance the laboratory learning experience," in IEEE Inter. Conf. on Teaching, Assessment and Learning for Engineering: Learning for the Future Now (TALE 2014), pp. 51-54, 2014.
  • Luis de la Torre, Ruben Heradio, Carlos A. Jara, Jose Sanchez, Sebastian Dormido, Fernando Torres, and Francisco A. Candelas �Providing Collaborative Support to Virtual and Remote Laboratories,� IEEE Trans. on Learning Technologies, Vol. 6, No. 4, pp. 312-323, Oct.-Dec. 2013.
  • Rakhi Radhamani, Hemalatha Sasidharakurup, Dhanush Kumar, Nijin Nizar, Bipin Nair, Krishnashree Achuthan and Shyam Diwakar, �Explicit Interactions by Users Form a Critical Element in Virtual Labs Aiding Enhanced Education A Case Study from Biotechnology Virtual Labs,� IEEE Sixth Inter. Conf. on Technology for Education, pp. 110-115, 2014.
  • Balakrishnan Shankar, Sarithlal M. K., Sharat S, Joshua Freeman and Krishnashree Achuthan, �Remote triggered virtual laboratory for Hooke's law using LabVIEW,� 39th Annual Conf. of the IEEE Industrial Electronics Society, IECON 2013, pp. 3729-3734, Nov. 2013.
  • F. J. Jim�nez-Leube, A. Almendra, C. Gonz�lez, and J. Sanz-Maudes, �Networked Implementation of An Electrical Measurement Laboratory for First Course Engineering Studies,� IEEE Trans. on Education, Vol. 44, No. 4, pp. 377-383, Feb. 2001.
  • William T. Neumann and Marvin C. Woodfill �Leveraging Student Experience with an Integrated Instructional Laboratory,� IEEE Frontiers in Education Conference, pp. 1239-1242, Nov. 1997.

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