A professional project based learning method in mobile robotics

Due to its high potential and encouraging results, project-based learning emerges as a highly interesting paradigm in the education systems worldwide. Moreover, robotics is an interdisciplinary field where students could learn and apply their skills in mechanics, electronics, computer science, mathematics and control engineering. This paper presents a robotics project-based learning methodology which focuses on collaborating with the industry to design, develop, evaluate, integrate and manage projects designated to be used in real-life applications. This learning method emphasizes and enables the students to apprehend the importance of fulfilling client requirements and the interactions with the client, the suppliers and with the other members of the team. The students, coached by a partner from industry, have the opportunity to apply and to improve their project management skills under a large-scale, highly complex project. This method is being applied since 2008 at ISEN Lille, France, with good results and significant impact.

[1]  Anthony Mandow,et al.  Using LEGO NXT Mobile Robots With LabVIEW for Undergraduate Courses on Mechatronics , 2011, IEEE Transactions on Education.

[2]  Josep M. Mirats Tur,et al.  Mobile robot design in education , 2006, IEEE Robotics & Automation Magazine.

[3]  Serge N. Demidenko,et al.  Project-Based Learning in Robotics and Electronics in Undergraduate Engineering Program Setting , 2010, 2010 Fifth IEEE International Symposium on Electronic Design, Test & Applications.

[4]  Egon Moesby,et al.  Reflections on making a change towards Project Oriented and Problem-Based Learning (POPBL) , 2004 .

[5]  Tomàs Pallejà Cabre,et al.  Project-Based Learning Example: Controlling an Educational Robotic Arm With Computer Vision , 2013, IEEE Revista Iberoamericana de Tecnologias del Aprendizaje.

[6]  Jorge Pastor,et al.  ROBOTICS AND CONTROL WITH PROJECT-BASED LEARNING METHODOLOGY , 2013 .

[7]  Jos Knockaert,et al.  Guided independent learning package for advanced topics in electrical engineering, automation and control systems , 2010, 2010 4th IEEE International Conference on E-Learning in Industrial Electronics.

[8]  Seul Jung,et al.  Experiences in Developing an Experimental Robotics Course Program for Undergraduate Education , 2013, IEEE Transactions on Education.

[9]  Dimitris Alimisis,et al.  Educational robotics: Open questions and new challenges , 2013 .

[10]  Paul Rook,et al.  Controlling software projects , 1986, Softw. Eng. J..

[11]  Paulo Blikstein,et al.  Digital Fabrication and Making' in Education: The Democratization of Invention , 2013 .

[12]  Julie E. Mills,et al.  Engineering Education, Is Problem-Based or Project-Based Learning the Answer , 2003 .

[13]  R. Stolkin,et al.  A simple ROV project for the engineering classroom , 2006, OCEANS 2006.

[14]  Laurel D. Riek Embodied Computation: An Active-Learning Approach to Mobile Robotics Education , 2013, IEEE Transactions on Education.

[15]  Jos Knockaert,et al.  A Distributed Hands-On Course on Intelligent Electrical Systems , 2006 .