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Fraire, Juan A.; Duran, Juan E. – IEEE Transactions on Education, 2021
Contribution: In a context where hands-on courses are biased toward specific technologies, a novel creativity-provoking instructional approach for networking undergraduate courses is successfully applied following action research principles and active and creative learning techniques. Background: Extensive engineering-oriented networking courses…
Descriptors: Experiential Learning, Creativity, Curriculum Development, Teaching Methods
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Kim, Jungkuk – IEEE Transactions on Education, 2012
This paper introduces a problem-based learning (PBL) microprocessor application course designed according to the following strategies: 1) hands-on training without having a formal laboratory, and 2) intense student-centered cooperative learning through an ill-structured problem. PBL was adopted as the core educational technique of the course to…
Descriptors: Problem Based Learning, Experiential Learning, Cooperative Learning, Courses
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Jung, Seul – IEEE Transactions on Education, 2013
An interdisciplinary undergraduate-level robotics course offers students the chance to integrate their engineering knowledge learned throughout their college years by building a robotic system. Robotics is thus a core course in system and control-related engineering education. This paper summarizes the experience of developing robotics courses…
Descriptors: Robotics, Interdisciplinary Approach, Undergraduate Study, Courses
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Ozturk, O. – IEEE Transactions on Education, 2011
A project-oriented course for advanced undergraduate and graduate students is described for simulating multiple processor cores. Simics, a free simulator for academia, was utilized to enable students to explore computer architecture, operating systems, and hardware/software cosimulation. Motivation for including this course in the curriculum is…
Descriptors: Foreign Countries, Curriculum Development, Graduate Students, Undergraduate Students
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Chatterjee, B.; Dey, D.; Chakravorti, S. – IEEE Transactions on Education, 2010
The development of integrated, portable, transformer condition monitoring (TCM) equipment for classroom demonstrations as well as for student exercises conducted in the field is discussed. Demonstrations include experimentation with real-world transformers to illustrate concepts such as polarization and depolarization current through oil-paper…
Descriptors: Foreign Countries, Engineering Education, Demonstrations (Educational), Theory Practice Relationship