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Review of Engineer 2020 Phase I Report

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Title: Review of Engineer 2020 Phase I Report


1
Review of Engineer 2020 Phase I Report
2
Phase I Creating the Vision
  • Phase I Visions and scenarios of engineering
    practice
  • Phase II Action agenda to shape the future of
    engineering education Public comment and feedback
  • . . . engaged a diverse group of thought and
    opinion leaders in a series of activities to
    gather facts, forecast future conditions, and
    develop future scenarios for the 2020 engineer.
    Phase I featured a Visioning and
    Scenario-Development Workshop to synthesize a
    visions of engineering's future and develop
    multiple scenarios depicting society's
    engineering needs. The synthesized visions
    reflect the aspirations of young people,
    practicing engineers, and policy makers, balanced
    by the needs and requirements of society.

3
Phase II Educating the 2020 Engineer
  • Phase I Visions and scenarios of engineering
    practice
  • Phase II Action agenda to shape the future of
    engineering education Public comment and feedback
  • . . . is to be launched in the summer of 2004,
    will build on the 2020 vision and lay down the
    broad strategies needed to meet the education
    challenges that lie ahead. The primary activity
    of Phase II will be a national summit of 80 to
    100 current and emerging leaders in engineering
    and engineering education. The summit will issue
    recommendations for changing the content,
    delivery, and structure of engineering education,
    consistent with the needs of 2020 engineers and
    society.

4
Foundational Questions for 2020 Phase I Study
  • What will the contextual conditions of
    engineering practice be in 2020 technological
    and societal?
  • What are your aspirations for engineering and
    engineers in 2020?
  • What will the critical attributes for engineers
    be in 2020?

5
Engineer 2020 Phase I Workshop
  • Background research and surveys
  • Woods Hole, MA, Sept. 3-4, 2002
  • Industry perspective Phil Condit, Boeing and
    Bran Ferren, Disney
  • Academic/Government perspective Dr. Shirley
    Jackson, President of RPI and former Director of
    the Nuclear Regulatory Commission
  • Scenario-based planning Peter Schwartz, Global
    Business Networks

6
Key Driving Forces in the Next 20 Years
  • Technology Context and Trajectories
  • Societal, Global and Professional Context of
    Engineering Practice
  • Aspirations and Attributes of Engineers

7
Technology Drivers
  • Growing complexity, scale, uncertainty, and
    interdisciplinary characteristics of engineered
    systems
  • The accelerating pace of technological advance
  • Bioengineering, biotechnology biomedical
    technology
  • Information and Communication Technology
  • Miniaturization (MEMS, nanotechnology, advanced
    materials)

8
Bioengineering, Biotechnology Biomedical
Technology
  • Advances in biotech have already significantly
    improved the quality of our lives
  • More dramatic breakthroughs ahead
  • Tissue engineering
  • Regenerative medicine
  • Drug delivery engineering
  • Bio-inspired computing
  • Protection from biological terrorism

Korean technique for human DNA extraction.
9
Micro/Nanotechnology
  • Draws on Multiple Fields
  • Genetic and molecular engineering
  • Composites and engineered materials
  • Quantum scale optical and electrical structures
  • Potential Applications
  • Environmental cleaning agents
  • Chemical detection agents
  • Creation of biological (or artificial) organs
  • Ultra-fast, ultra-dense, circuits

A factory large enough to make over 10 million
nanocomputers per day might fit on the edge one
of todays integrated circuits. - Drexler and
Peterson
10
Grand Challenges in the National Nanotechnology
Initiative
Time Frame Strategic Challenges
Nano-Now Pigments in paints Cutting tools and war resistant coatings Phamaceuticals and drugs Nanoscale particles and thin films in electronic devices Jewelry, optimal and semiconductor wafer polishing
Nano-2007 Biosensors, transducers and detectors Functional designer fluids, propellants, nozzles and valves Flame retardant additives Drug delivery, biomagnetic separation, and wound healing
Nano-2012 Nano-optical/electronics power sources High-end flexible displays NEMS-based devices Faster switches and ulta-sensitive sensors
11
Materials Science Photonics
  • Smart materials and structures, which have the
    capability of sensing, remembering responding
    (e.g., to displacements caused by earthquakes and
    explosions smart textiles provide cooling and
    heating).
  • As the physical sizes of optical sources
    decrease, while their power and reliability
    continue to increase, photonics based
    technologies will become more significant in
    engineered products and systems. Applications
    fiber optics, precision cutting, visioning and
    sensing photochromic windows.

12
Information and Communication Technology
  • Today a 1 gigabit hard drive ships in a package
    1x1x1/8 soon that will be a 10 gigabit drive
    and computers small enough to fit into trouser
    pockets will be able to contain information that
    would fill a modern library (Feldman, 2001)
  • "Everything will, in some sense, be 'smart'
    every produce, every service and every bit of
    infrastructure will be attuned to the needs of
    humans it serves and will adapt its behavior to
    those needs.

13
Example of Information Explosion in Healthcare
14
Technological Challenges
  • Physical Infrastructures in Urban Settings
  • Information and Communications Infrastructures
  • Technology for an Aging Population
  • The Environment

15
The Environment
  • Three quarters of the US population resides in
    areas with unhealthy air. American Lung
    Association
  • In 2020, California will need 40 more electrical
    capacity, 40 more gasoline, and 20 more natural
    gas than in 2000.
  • 50 of the worlds original forest cover has been
    depleted Worldwatch Institute and global per
    capita forest area is projected to fall to 1/3
    its 1990 value by 2020. Haque, 2000.
  • 48 countries (2.8 billion people) face freshwater
    shortages in 2025 Henrichsen, 1997
  • The wealthiest 16 of the world consumes 80 of
    the worlds natural resources. By the year 2020,
    there will be 8 billion people who will further
    depleting the environment and fuel political
    instability if the inequity of these resources
    continues. CIA 2001.

16
Guiding Principles in Green Engineering (NSF,
2003)
  • Engineer processes and products holistically, use
    systems analysis, and integrate environmental
    impact assessment tools.
  • Conserve and improve natural ecosystems while
    protecting human health and well-being.
  • Use life cycle thinking in all engineering
    activities.
  • Ensure that all material and energy inputs and
    outputs are as inherently safe and benign as
    possible. 
  • Minimize depletion of natural resources strive
    to prevent waste.
  • Develop and apply engineering solutions, while
    being cognizant of local geography, aspirations
    and cultures.
  • Create engineering solutions beyond current or
    dominant technologies improve, innovate and
    invent (technologies) to achieve sustainability.

17
Societal, Global and Professional Context of
Engineering Practice
  • The pace of technological innovation will
    continue to be rapid (if not escalating).
  • The world in which technology will be deployed
    will be intensely globally interconnected
  • The individuals who are involved with or affected
    by technology (e.g., designers, manufacturers,
    distributors, and users) will be increasingly
    diverse and multidisciplinary
  • Social, cultural, and political forces will
    continue to shape and affect the success of
    technological innovation.
  • The presence of technology in our every day lives
    will be seamless, transparent, and more
    significant than ever before.
  • Consumers will demand more and more higher
    quality, mass customization, personalization,
    etc.

18
Socio-technical Transformations
  • The mounting sustainability imperative in the
    face of global population growth,
    industrialization, urbanization, and environment
    degradation
  • Rising concern regarding the social implications
    of rapid technological advance
  • Socio-political tensions around the world
  • Increased focus on managed risk and assessment
    with a view to public security, privacy, and
    safety
  • Growing diversity of the workforce

19
The Changing Roles of Engineers
  • Globalization of industry and engineering
    practice
  • The shift of engineering employment from large
    companies to small and medium-sized companies,
    and the growing emphasis on entrepreneurialism
  • The growing share of engineering employment in
    non-traditional, less-technical engineering work
    (e.g., management, finance, marketing, policy)
  • The shift to a knowledge-based services economy
  • Increasing opportunity for using technology in
    the education and work of the engineer

20
Engineers in the Global Economy
21
The Nations New Majority
  • Women and under-represented groups make up a 1/2
    to 2/3 of the population of the United States and
    comprise the nations New Majority.

22
The Nations New Majority
Science and Engineering Workforce
U.S. Workforce
23
The World Population (CIA, 2001)
  • A mix of 100 people in 2020 would look like the
    following
  • 56 would be from Asia, including 19 Chinese and
    17 Indians
  • 13 would be from the western hemisphere,
    including 4 from the United States
  • 16 would be from Africa, including 13 from
    Sub-Saharan Africa
  • 3 would be from the Middle East
  • 7 would be from Eastern Europe and the former
    Soviet Union
  • 5 would be from Western Europe
  • In contrast to the aging of the US, Europe and
    Japan, the most politically instable parts of the
    world will experience a youth bulge.

24
Results from a Survey of NAEFrontiers of
Engineering Alumni
  • Frontiers of Engineering participants
  • Carefully selected as future leaders in
    engineering
  • Mostly young 30 to 45, (will be active in 2020)
  • 61 respondents from academia, 44 from industry
  • Respondents on average have worked in field
    (industry/academia) for over 10 years
  • Involved in cutting edge engineering topics
  • Intent was not to make recommendations on
    curricula but to assess how well their
    education had prepared them for the issues they
    will face in engineering practice out to 2020

25
Q2. Current undergraduate engineering education
is sufficiently flexible to adequately meet
the needs of 21st century engineers.
Responses
Rating
26
Q4. Which topics should receive increased
coverage in the undergraduate engineering
curriculum?
Responses
Ethics
Systems Engineering
Biology
Interdiscip. Context
Management
Tech. Policy
2nd Language
Comm/Writing
27
Most Significant Issues Facing Engineers Today
  • Industry Respondents on Most Significant Issues
  • Instabilities in the job market
  • Maintaining technical currency
  • Difficulty managing interdisciplinary problems
  • Industry Respondents on Most Significant
    Problems
  • Problems associated with the environment
  • Managing globalization
  • Challenges brought on by advances in computing

28
Problems Engineers Will be Solving in 2020
  • Environmental and energy related problems
  • Bioengineering problems (including medical)
  • Ultra-nanoscale, miniaturization
  • Problems related to population growth

29
Additional Themes from Focus Groups
  • Focus group held with volunteer participants from
    ASEE workshop on feminist pedagogy in engineering
    education
  • Focus group held with volunteer participants from
    ASEE Minorities in Engineering Division (MIND)
  • Surveys distributed to participants of NSF
    workshop on community college articulation

30
Themes from Feminist Focus Group
  • A change in the culture of engineering (practice)
    is desired
  • Less unrewardingly competition, more
    collaboration (many contributors with an equal
    voice)
  • Changes in the types of problems we decide to
    solve
  • Diversity and quality are seen as complementary
  • Greater value placed on family issues
  • Engineers genuinely pursue inclusiveness
  • Strategies to get there
  • Radical change in the power structure (as it
    relates to who decides what problems are
    important)
  • Decision-makers represent a more diverse group
  • Coalitions between public/private sector

31
Themes from Minority Focus Group
  • Changes in culture and better equity is desired
  • More emphasis on problems that address social
    and/or humanistic issues
  • Diversity is valued
  • More equitable access to engineering careers
  • Strategies for getting there
  • Include more diverse voices in decision-making
    process
  • Positive images in the television media
  • Strong and visible action by national political
    leadership
  • New strategies for assessment more equitable
    K-12 preparation allow alternative paths into
    the profession

32
Aspirations for the Engineer 2020 Our Image and
the Profession
  • By 2020, we aspire to a public that will
    understand and appreciate the profound impact of
    the engineering profession on social-cultural
    systems, the full spectrum of career
    opportunities accessible through an engineering
    education, and the value of an engineering
    education to engineers working successfully in
    non-engineering jobs.
  • We aspire to a public that will recognize the
    union of professionalism, technical knowledge,
    social and historical awareness, and traditions
    that serve to make engineers competent to address
    the world's complex and changing challenges.
  • "We aspire to engineers in 2020 who will remain
    well grounded in the basics of math and science,
    and . . . in the humanities, social sciences, and
    economics."

33
Aspirations for the Engineer 2020 Engineering
Without Boundaries
  • We aspire to an engineering profession that will
    rapidly embrace the potentialities offered by
    creativity, invention, and cross-disciplinary
    fertilization to create and accommodate new
    fields of endeavor, including those that require
    openness to interdisciplinary efforts with
    non-engineering disciplines such as science,
    social science and business.
  • By 2020, we aspire to engineers who will assume
    leadership positions from which they can serve as
    positive influences in making of public policy
    and in the administration of government and
    industry.
  • We aspire to an engineering profession that will
    effectively recruit, nurture and welcome
    underrepresented groups to its ranks.

34
Aspirations for the Engineer 2020 Engineering a
Sustainable Society
  • It is our aspiration that engineers will
    continue to be leaders in the movement towards
    use of wise, informed and economical, sustainable
    development. This should begin in our educational
    institutions and be founded in the basic tenets
    of the engineering profession and its actions.
  • We aspire to a future where engineers are
    prepared to adapt to changes in global forces and
    trends and to ethically assist the world in
    creating a balance in standard of living for
    developing and developed countries alike.

35
Aspirations for the Engineer 2020 Education of
the Engineer 2020
  • It is our aspiration that engineering educators
    and practicing engineers together undertake a
    proactive effort to prepare engineering education
    to address the technology and societal challenges
    and opportunities of the future. . . we should
    reconstitute engineering curricula and related
    educational programs to prepare todays engineers
    for the careers of the future, with due
    recognition of the rapid pace of change in the
    world, and its intrinsic lack of predictability.
  • Our aspiration is to shape the engineering
    curriculum for 2020 so as to be responsive to the
    disparate leaning styles of different student
    populations and attractive for all those seeking
    a full and well-rounded education that prepares a
    young persons to be creative and productive life
    and positions of leadership.

36
Successful Attributes for the Engineer of 2020
  • Possess strong analytical skills
  • Exhibit practical ingenuity posses creativity
  • Good communication skills with multiple
    stakeholders
  • Business and management skills Leadership
    abilities
  • High ethical standards and a strong sense of
    professionalism
  • Dynamic/agile/resilient/flexible
  • Lifelong learners
  • Ability to frame problems, putting them in a
    sociotechnical and operational context (Ruth
    David)

37
Scenario-based Planning
  • The idea behind scenario-based planning is to
    tell possible stories about the future to frame
    ones thinking.
  • Good scenario planning expands our peripheral
    vision and forces us to examine our assumptions,
    and to practice what we would do if the
    unthinkable happened a condition that happens
    more often than one might imagine.
  • More importantly the test of a good scenario is
    not whether it portrays the future accurately,
    but whether it enables a mechanism for learning
    and adapting.

38
Scenarios
  • The next scientific revolution
  • The biotechnology revolution in a societal
    context
  • The natural world interrupts the technology cycle
  • Global conflict or globalization?

39
Foundational Questions for 2020 Study
  • What will the contextual conditions of
    engineering practice be in 2020 technological
    and societal?
  • What are your aspirations for engineering and
    engineers in 2020?
  • What will the critical attributes for engineers
    be in 2020?

40
Review of Engineer 2020 Phase I Report
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