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CDIO approach to Introduction to Engineering (Mechanical). R O Y A N G S E N I O R L E C T U R E R School of Mechanical and Aeronautical Engineering. CDIO Standards. What is in i2E. Designing a CDIO Project. How we do it.
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R O Y A N G S E N I O R L E C T U R E R School of Mechanical and Aeronautical Engineering
CDIO Standards What is in i2E Designing a CDIO Project How we do it
Modules that requires “fundamental” attentions Mechanics Thermo fluids Materials Workshop practices Engineering Drafting
Strictly disciplinary curriculum Problem based curriculum Apprenticeship model CDIO based curriculum Interwoven by disciplines Interwoven by skills and projects Disciplines Problems + skills An integrated curriculum
Introduction to Engineering Teamwork Communication Skills Mechanics CAD Electrical Tech
CDIO Standards What is in i2E Designing a CDIO Project How we do it
Introduction to Engineering World of Engineering ( 2 hour Tutorial per week + 3 hours Workshop per week) World of Engineering Electrical Engineering Mechanical Engineering Chemical Engineering and Civil Engineering Workshop Technology Design Thinking
Introduction to Engineering World of Engineering ( 2 hour Tutorial per week + 3 hours Workshop per week) Design Thinking “Design thinking can be described as a discipline that uses the designer’s sensibility and methods to match people’s needswith what is technologically feasible and what a viable business strategycan convert into customer value and market opportunity.” – Tim Brown Workshop Technology Design Thinking
Introduction to Engineering World of Engineering ( 2 hour Tutorial per week + 3 hours Workshop per week) Workshop Technology Hands on practical work with machine theory. Basic workshop tools i.e. Drilling, filing, tapping, marking tools. Turning and Milling operations Workshop Technology Design Thinking
CDIO Standards What is in i2E Designing a CDIO Project How we do it
Workspaces Create the space and later the space creates you Creating workspaces that facilitate group discussions, short lectures and quick prototyping are essential for this module/course. It needs to be equipped with modern engineering tools that support the iterative design development process. Adequate space is also required of system testing and operation – depending on the scope and size of the project.
How do we induce curiosity? How Stuff Works • Get students to open up a consumer product. Introduce to them • Mechanical Components and Mechanisms • Materials • Manufacturing processes • Electro-mechanical System Engineering
Mechanical Enablers The Hardware Get robotic kits, or materials from hardware shops in your neighbourhood. http://www.kairobot.com/products/Kai-robot-kit.html
Electrical Enablers The Brains Picaxe – Flow chart programming http://www.picaxe.com/ Arduino – C programming, open source http://www.arduino.cc/
CDIO Standards What is in i2E Designing a CDIO Project How we do it
Designing a CDIO Project Designing an experience Create a Challenge Work in Teams Infuse the CDIO Framework
Can - Can Challenge 300mm Robot needs to move 500mm to bring an empty can of Ø70mm back to the start line as quickly as possible. The robot must start behind the black line. The can must go past the start black line to be counted. The can will be removed after it is released at the start line. A new can will be replaced after the can is removed. 2 trails for each team, 2 minutes per trial, highest number of cans will be chosen. The team with the highest number of cans collected wins. 400mm 300mm
Designing a CDIO Project Designing an experience Conceive
Designing a CDIO Project Designing an experience Design
Designing a CDIO Project Designing an experience Implement
Designing a CDIO Project Designing an experience https://www.youtube.com/watch?v=D3tver5z0NQ
Designing a CDIO Project Designing an experience Marking Rubrics
Designing a CDIO Project Designing an experience https://www.youtube.com/watch?v=KUGwLHn1vbw