Benefits of CDIO
“Participating in the CDIO™ Initiative has been immensely rewarding both for me professionally and for the institution I serve, Queensland University of Technology.
“In the case of the former, CDIO resources and gatherings of like-minded academic leaders from throughout the world has given me vast perspective on an oft-neglected side of engineering education. In the case of the latter, the tips and techniques I’ve picked up through my participation in CDIO have informed the project-based learning aspects of the courses we offer to engineering undergraduates at QUT.”
— Duncan Campbell, PhD, Associate Professor of Engineering Education, Queensland University of Technology
The CDIO Initiative was developed with input from academics, industry, engineers, and students. It is universally adaptable for all engineering schools and is being adopted by a growing number of engineering educational institutions around the world. CDIO is currently in use in university aerospace, applied physics, electrical engineering, and mechanical engineering departments.
CDIO: A New Vision for Engineering Education
Engineering education and real-world demands on engineers have in recent years drifted apart. Realizing that this widening gap must be closed, leading engineering schools in the USA, Europe, Canada, UK, Africa, Asia, and New Zealand formed the CDIO Initiative: A worldwide collaborative to conceive and develop a new vision of engineering education.
CDIO is based on a commonly shared premise that engineering graduates should be able to: Conceive – Design — Implement — Operate complex value-added engineering systems in a modern team-based engineering environment to create systems and products.
The CDIO Initiative thus offers an education model stressing engineering fundamentals, set in the context of the Conceiving — Designing — Implementing — Operating process. The CDIO Initiative:
- Is rich with student projects complemented by internships in industry
- Features active group learning experiences in both classrooms and in modern learning workshops/ laboratories, and rigorous assessment and evaluation processes.
The CDIO Initiative’s goals are to:
- Educate students to master a deeper working knowledge of the technical fundamentals
- Educate engineers to lead in the creation and operation of new products and system
- Educate future researchers to understand the importance and strategic value of their work
The CDIO Initiative was specifically designed as a template that can be adapted and adopted by any university engineering school. Because CDIO is an open architecture model, it's available to all university engineering programs to adapt to their specific needs. Participating universities (“Collaborators”) regularly develop materials and approaches to share with others.
CDIO has open and accessible channels for the program materials and for disseminating and exchanging resources. CDIO collaborators have assembled a unique development team of curriculum, teaching and learning, assessment, design and build, and communications professionals. They are helping others to explore adopting CDIO in their institutions.
Here on the CDIO website and in regular CDIO gatherings, you’ll gain access to a wealth of development material, ranging from model surveys, to assessment tools, to reports from institutions that have implemented CDIO programs.
How Does it Work?
The CDIO Syllabus Report is the definitive document on the creation of a CDIO program including a syllabus based on the CDIO Syllabus. The Report explains how the Syllabus was adapted to the MIT Department of Aeronautics and Astronautics.