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Reframing Engineering Education

Reframing Engineering Education. Hochschule (Wismar). Ecole (Canada). Turku (Finland). Lancaster (UK). Queen’s (Canada). Naval Academy (US). Queen’s (N. Ireland). Calgary (Canada). Hogeschool Gent (Belgium). Jonkoping (Sweden). Chalmers (Sweden). Bristol (UK). SP (Singapore).

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Reframing Engineering Education

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  1. Reframing Engineering Education

  2. Hochschule (Wismar) Ecole (Canada) Turku (Finland) Lancaster (UK) Queen’s (Canada) Naval Academy (US) Queen’s (N. Ireland) Calgary (Canada) Hogeschool Gent (Belgium) Jonkoping (Sweden) Chalmers (Sweden) Bristol (UK) SP (Singapore) Tsing Hua (China) Linkoping (Sweden) Sydney (Australia) KTH (Sweden) Umea (Sweden) Liverpool (UK) Helsinki Metropolia Uni of Applied Sci (Finland) Queensland (Australia) Pretoria (S. Africa) MIT (US) ISEP (Portugal) Shantou (China) Colorado (US) Politecnico di Milano (Italy) DTU (Denmark) Daniel Webster College (US) Auckland (NZ) California State (US) The 50 CDIO Collaborators (As of Feb 2010)

  3. DRIFT OF ENGINEERING EDUCATION Personal, Interpersonal Skills Product, Process & System Building Skills Pre-1950s:Practice 2000:CDIO 1960s:Science & practice 1980s:Science DisciplinaryKnowledge Engineers need both dimensions, and we need to develop an education that delivers both 3

  4. Feedback from industries, graduates and practising engineers that certain important professional skills are not developedin the existing curriculum. Meeting standards and criteria set by accreditation bodies such as ABET- Accreditation Board for Engineering & Technology Falling Engineering Enrolment as well as students finding that engineering is too dry and theoretical in the first year of study Why CDIO Initiative ? 4

  5. Goals of CDIO To educate students who are able to master a deeper working knowledge of the technical fundamentals lead in the creation and operation of new products, processes and systems understand the importance and strategic impact of research and technological development on society And to attract and retain students in Engineering 5

  6. Why call it CDIO? Conceive- Design-Implement-Operate is the context of Engineering Education We believe that every graduating engineer should be able to: Conceive-Design-Implement-Operate complex value-added engineering products, processes, and systems in a modern, team-based environment (Crawley et al 2007)

  7. CDIO Is Not A CookieCutter Approach • Can and should be customized to the context and conditions of each institution • Not a prescriptive educational model • Local faculty ownership is key

  8. CENTRAL QUESTIONS FORENGINEERING EDUCATION WHAT knowledge, skills and attitudes should students possess as they graduate from university? HOW can we do better at ensuring that students learn these skills?

  9. CDIO OVERVIEW The activities within the CDIO Initiative are based on two key documents CDIO Syllabus (the ‘what’ of CDIO) CDIO Standards (the ‘how’ of CDIO) 9

  10. CDIO Syllabus (course document) • The CDIO Syllabus defines the desired outcomes for graduating students.

  11. Technical Knowledge & Reasoning: Knowledge of underlying sciences Core engineering fundamental knowledge Advanced engineering fundamental knowledge Personal and Professional Skills & Attributes Experimentation and knowledge discovery System thinking Personal skills and attributes Professional skills and attributes Interpersonal Skills: Teamwork & Communication Multi-disciplinary teamwork Communications Conceiving, Designing, Implementing & Operating Systems in the Enterprise & Societal Context External and societal context Enterprise and business context Conceiving and engineering systems Designing Implementing Operating CDIO Syllabus 11

  12. CDIO Standards • define the distinguishing features of a CDIO program, • serve as guidelines for program reform, • create benchmarks and goals that can be applied worldwide, • provide a framework for continuous improvement,

  13. CDIO Standards • Standard 1 - CDIO as Context • Standard 2 - CDIO Syllabus Outcomes • Standard 3 - Integrated Curriculum • Standard 4 - Introduction to Engineering • Standard 5 - Design-Build Experiences • Standard 6 - CDIO Workspaces • Standard 7 - Integrated Learning Experiences • Standard 8 - Active Learning • Standard 9 - Enhancement of Faculty CDIO Skills • Standard 10 - Enhancement of Faculty Teaching Skills • Standard 11 - CDIO Skills Assessment • Standard 12 - CDIO Program Evaluation

  14. Implementation of CDIO in SP • October 2006 • 13 engineering programmes revised and restructured • the School of Architecture and Built Environment, • the School of Chemical and Life Sciences, • the School of Electrical and Electronic Engineering, and • the School of Mechanical and Aeronautical Engineering. • The School of Digital Media and Info-communications Technnology (implementing in Apr 2010)

  15. Curriculum Alignment Learning Outcomes CDIO SKILL(S) Assessment System Learning Designs/ Activities In basic terms this means that the CDIO Skill(s) incorporated in the Learning Outcomes must be effectively taught through the Learning Designs/Activities used and accurately measured in the Assessment System.

  16. Disciplinary Subject Linkage • To show how knowledge and skills are connected and developed within a discipline • To demonstrate how disciplines work together as dynamic and related systems

  17. How it works SP Customized CDIO SKILLS (Competency areas with underpinning Knowledge) Evaluation Infuse CDIO Skills Into Course & Module structure Produce Learning Designs and Activities for developing competence Produce Assessment Items for assessing competence ESD Support

  18. CDIO Teamwork Competence • Form Effective Teams • Identify the components of an effective team • Identify the stages of team formation • Identify team roles and their impact on team performance • Analyze the strengths and weakness of a team • Manage and Participate in Teams • Identify goals and agenda • Apply team ground rules • Apply facilitation and conflict resolution strategies • Display teamwork, including leadership, in a range of • team role situations

  19. Focus on Active & Experiential Learning Learning is not a spectator sport. Students do not learn much just by sitting in class listening to teachers, memorizing pre-packaged assignments, and spitting out answers. They must talk about what they are learning, write about it, relate it to past experiences, apply it to their daily lives. They must make what they learn part of themselves. (Chickering & Gamson) However, the teaching and learning approach is eclectic and advocates using methods that are appropriate to the learning outcomes

  20. DESIGN-BUILD EXPERIENCES • Provide authentic real world simulated learning experiences • Naturally infuses both technical and process skills (e.g., teamwork, communications, thinking, etc) DTU Design & Innovation Lightweight Shelter Project

  21. Introduction to Engineering • To motivate students to study engineering • Making the learning experiences more practical and real world based • Integrate both technical and essential process skills (e.g., thinking, teamwork, communication) Capstone Disciplines Intro

  22. Assessment Approach As with the pedagogic approach, eclectic but a greater emphasis on: Authentic Assessment – real world learning tasks that integrate a range of knowledge and skills Formative Assessment – focusing on the learning process, rapid clear and constructive feedback “Teaching, learning, and assessment merge into one seamless enterprise” (Perkins)

  23. Standard 1 - CDIO as Context* Mission statement Faculty and students who can articulate mission Standard 2 - CDIO Syllabus Outcomes* Program learning outcomes Validation for content and proficiency levels with key stakeholders Standard 3 - Integrated Curriculum* Document plan integrating CDIO skills Inclusion of CDIO skills in modules Standard 4 - Introduction to Engineering Student acquisition of essential CDIO skills High student interest in engineering Evidence

  24. Standard 5 - Design-Build Experiences* Two or more design-build modules in curriculum Co-curricular opportunities Standard 6 - CDIO Workspaces Adequate spaces and engineering tools High levels of satisfaction with workspaces Standard 7 - Integrated Learning Experiences* Evidence of CDIO skills and disciplinary skills in learning experiences Involvement of key stakeholder Standard 8 - Active Learning Successful implementation of active learning methods High levels of student achievement and satisfaction Evidence

  25. Standard 9 - Enhancement of Faculty CDIO Skills* Commitment of resources to faculty development Majority of faculty with competence in CDIO Standard 10 - Enhancement of Faculty Teaching Skills Commitment of resources to faculty development Majority of faculty with competence in teaching and assessment methods Standard 11 - CDIO Skills Assessment* Assessment methods matched to learning outcomes Successful implementation of assessment methods Standard 12 - CDIO Program Evaluation Documented continuous improvement process Evidence of data-driven changes Evidence

  26. Purpose of Evaluation • To provide a structured research driven approach to monitor and review the implementation of the CDIO Framework “Evaluation is the process of delineating, obtaining and providing information useful for making decisions and judgements about educational programmes and curriculum.” (Kemmis, 1989, p.117)

  27. Research Questions • Are the learning outcomes, learning designs/activities and assessments aligned? • How has the integration of the CDIO skills into the syllabuses impacted the students – what is their experience? • What is the lecturers’ perception of the curriculum changes and their impact on students’ competence in the selected CDIO skills and interest in the subject?

  28. Data Collection Methods • Examination of a range of curriculum materials (e.g., course documents, module documents, learning plans, schemes of assessment, assessment items) • Student questionnaires • Student Blogs • Focus group interviews with students and lecturers teaching the CDIO programmes • Observation of selected lessons (e.g., those incorporating activities related to selected CDIO skills)

  29. Student Co-Participants and Blog • Students were presented with specific questions relating to their experience of lessons taught, and asked to provide their responses with examples to illustrate where possible. • A useful and novel way to help build rapport with the students, encouraging more authentic and open communication.

  30. Responsibilities of Student Co-Participants • Chat to classmates and identify some broad experiences relating to learning the selected CDIO skills and the teaching approaches used • Make personal notes and/or blog their experiences • Meet with the researchers at least once a semester for group sharing

  31. What the students blogged….. In Introduction to Engineering, I learned how things around me are manufactured. That’s why I appreciate every little tool and object around me. I also developed skills like troubleshooting problems, how the work piece is to be clamped such that the workpiece is supported to undergo cutting. Besides that, teamwork is another skill I developed. I noticed the strength of every member that I can learn from. Without good teamwork, I could not possibly develop such a workpiece. One of the most valuable skill I gained is brainstorming for using the right tool for the right purpose and thinking of developing the final product using the simplest manufacturing method. Year 1 Mechanical and Aeronautical Engineering student

  32. What the students blogged….. Having gone through 2 semesters, how would you rate (1-5) your interest in your field of engineering? (1 being Not Interested and 5 being Very Interested) Briefly explain your rating. Rate 5. What I love most in this module was the project. We were allowed to work as group and be independent. We have to complete the project in group. During the process of doing the project, we were like small engineers. Although our skills were far from the Professional engineers, we experienced many situation which allow us to improve and find solution. Problem-solving is what engineers should do. Year 1 Architecture and Built Environment student

  33. What the students blogged….. Having gone through 2 semesters, how would you rate (1-5) your interest in your field of engineering? (1 being Not Interested and 5 being Very Interested) Briefly explain your rating. I would rate it 4. I feel that it is very fun and exciting learning things that are related to products that can be seen in our everyday lives. Very few modules show the link between studying and the real engineering world. However, I would grade it 5, if the products to be manufactured are chosen by us. Year 1 Mechanical and Aeronautical Engineering student

  34. What the students blogged….. Having gone through 2 semesters, how would you rate (1-5) your interest in your field of engineering? (1 being Not Interested and 5 being Very Interested) Briefly explain your rating. I rate 5 for my interest in the field of engineering. Well before joining the school I was thinking of which course to join. I did not really have any specific course but since I like math and science, I decided to join the engineering course. At this moment, I am quite satisfied with my choice and gaining more interest in engineering although it’s hard to study and learn something new. Due to the knowledge that I have learnt, now I can see and understand some practical applications in our world which is fun. Year 1 Electrical and Electronic Engineering student

  35. Key Findings – Curriculum Documents and Materials Some courses needed significant revision : • writing of learning outcomes generally (e.g., rationalization, performance focus, clarity of intent, etc) • Infusion of selected CDIO skills appropriately. • Designing of key learning tasks and assessment activities (including the scoring systems)

  36. Key Findings – Student Questionnaire • Nearly 50% agreed and 25% strongly agreed, in favour of the implementation of CDIO. • Semester 1: mean scores ranged from 3.73 to 4.03, with an overall mean of 3.90 (SD = 0.90) . • Semester 2: mean scores ranged from 3.74 to 4.10, with an overall mean of 3.85 (SD = 0.93). • The Cronbach alphas showed high internal consistency in student responses.

  37. Key Findings – Student blog and focus groups • Students perceived the importance of the CDIO skills as a valuable part of the curriculum • The explicit teaching of the selected skills seems to vary from module to module and across lecturers • Authentic learning opportunities for such skills is experienced • Specific real world tasks linked theory to practice and made the learning experience more meaningful and interesting

  38. Key Findings – Lecturer Focus Groups • Lecturers saw the relevance of the CDIO framework and have experienced the positive impact of the changes made to the curriculum on student attention and interest. • More motivated students coped better with the more challenging integrated learning tasks, the less competent students required more help and time. • There was a range of practices concerning the explicit teaching of the selected CDIO skills. • There has been an increase in workload, resulting from the preparation and assessment involved.

  39. Recommendations • Differentiate the learning tasks and teaching approaches to accommodate students’ different learning abilities • Continue to encourage the explicit development of CDIO skills • Address increase in lecturers’ workload • Provide necessary training to expand lecturers’ expertise

  40. Conclusions • The eclectic methodology employed in the evaluation has provided a range of insights into aspects of teaching and learning relating to both CDIO implementation and the student experience of teaching and learning in SP • Selected CDIO skills implemented so far have been sufficiently well received by both students and lecturers • The next focus is on verifying and extending the range of pedagogic and assessment practices necessary for effectively meeting the range of CDIO standards.

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