Post on 10-Dec-2015
transcript
Transforming Engineering Education
The Road Ahead
04/18/23
Moshe Kam, IEEE“Transforming Engineering Education”
Program Chair
Drexel University
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Outline
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Why do we need to transform engineering education?
Broad themes discussed in the conference
The Road Ahead What are we going to do after this conference?
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Why do we need to transform engineering education?
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Decline in interest in engineering as a career path among young people in several major industrial countries
The sense that entry level engineers lack necessary skills
The sense that the business environment has changed but engineering education did not keep pace
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Broad Themes
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Increasingly, engineers face challenges that involve large scale, complex systems …requiring strong interaction with non-
engineer experts and the public
Current curricula rarely address such challenges … (overly) focused on preparation in
mathematics and physics and on engineering science
Making engineering education cross-disciplinary is a hard but worthy challenge
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Desired Skills of Graduating Engineers
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Able to communicate effectively to technical and non-technical audiences
Able to self educate ‘Process’ large volumes of information – sift through and
generate knowledge Understand that education of engineers continues for a
lifetime
Able to work in heterogeneous teams (including virtual teams) And to converse with professionals in Law and Business
Willing to take risks, experiment, and be innovative
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Engagement with the Community
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Many curricula operate with little regard to the community wherein they reside Engagement of students in their local
community can provide a partial solution.
Examples:
Conduct student design projects in the community Such as Purdue University’s EPICS project
Place graduate students as trainee teachers in high schools as part of their training
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Better Communication Skills…
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Would improve the public discourse on science and engineering
Would help communities understand the potential and impact of proposed engineering projects
Increase understanding of engineering among young people …and their parents and teachers …with potentially positive impact on
choosing engineering as a career path
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Observations on the Curriculum
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The current engineering curriculum is jam-packed
We have hard time eliminating existing taught material
One possible “solution” is to try to imbed new themes in the existing curriculum
Rather than starting new courses
“Significant changes may be possible without a major overhaul”
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More on the curriculum
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We lack a common view of what the curriculum is trying to achieve
One model:Undergraduate education – broad background for entry level engineering practice
M.S. level education – specialization for professional practice
Ph.D. level education – preparation for specialized R&D
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Technology and the curriculum
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Technology changes continue to affect delivery and content of the curriculum: Ability of students to discover and
process on-line information Impact of distance learning and
online delivery on quality and efficiency of teaching and learning
Emergence of scientific computing software as a tool in design
Role of software engineering in engineering curricula
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The Road to Reform: the University Reward System
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If Engineering Education is to change, the university reward system will have to change as well At present many schools weigh scholarly
publications, graduate student advising and research funding much more than excellence in undergraduate education
If improvement is to be made ‘continuous,’ we need to be able to measure it Identify the metrics Align improvement with the reward
system
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Thinking Globally
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Wide agreement on the need to increase global understanding and engagement
Proposed ways to achieve this goal: Semester abroad Participation in Engineers without Borders projects
Study of languages
These recommendations are not exactly “global”
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Engineering Literacy for non-technical students
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Sure engineers need to learn how to talk to non-technical audiences…
But non-technical audiences need to be exposed to some level of understanding of engineering as well
Engineering departments have the obligation to provide engineering literacy courses and labs to non-engineers Political leaders of the future should
possess at least a minimal level of engineering literacy
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University-Industry Exchanges
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Feedback from industry to academia is needed At present it is often indirect and ineffective
Co-op and industry internships can help
Few university professors have practiced in industry. Still… …while many faculty members spend
sabbatical leaves in industry and serve as consultants to industry… it is very rare that established industry practitioners come to the university for extended residence
The Road AheadWhat are we going to do after this
conference?
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A few conference-related activities
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Develop and disseminate the Proceedings of the Conference All papers and presentations
Provide a summary and a ‘manifesto’ A more formal presentation of the main themes, ideas and proposals discussed at the Conference
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Implementation of proposals and action items
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We need to make a concrete list of ‘desired but missing’ skills First iteration: find out what training
industry is already paying for and label it “important for industry” Identify what is appropriate for the
curriculum
To encourage development of ‘desired but missing’ skills we will develop a set of recommendations and resources For schools For regulatory bodies and
accreditation agencies
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How would the recommendations be expressed?
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As “best practices”As repositories of case studies As proposals for stand-alone courses Along with detailed curricular materials and on-line resources
As proposals to imbed skill training in existing curricula With examples and training materials
Principal dissemination tool – a web portal on ideas for a better engineering curriculum
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More concretely…
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IEEE will provide IBM with a proposal for joint development of the curricular resources (within 45 days)
A proposed joint IEEE/IBM project Open invitation to other professional
associations and corporations to join
We will use an existing resource to get the project underway Real World Engineering Projects or
TryEngineering
Aim at first launch by the second quarter of 2011
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Questions and Comments
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