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Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION
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Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness - STEM INNOVATION

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Texas Workforce Commission, November 29, 2012, Super Session Keynote, Jim Brazell, VentureRamp …

Texas Workforce Commission, November 29, 2012, Super Session Keynote, Jim Brazell, VentureRamp

Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness Texas Workforce Commission, Dallas, TX, November 28, 2012 - Jim Brazell explores the role of innovation and science, technology, engineering, and mathematics (STEM) in education, workforce, and economic development. Topics include (1) defining science, technology, engineering, and mathematics; (2) the structure of technology in the 21st century; and (3) emerging P-20 education practice with an emphasis of innovation and "transdiscipline." A speech 10 years in the making, illustrative of keen insight as a technology forecaster, Brazell delivers solid analysis about what is next in living, working, playing, and learning in the 21st Century.

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  • 1. Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness Texas Workforce Commission, Dallas, TX, November 28, 2012 JIM BRAZELL jimbrazell@ventureramp.com
  • 2. General Bernard Schriever Feb. 19, 1957 Inaugural Air Force Office of Scientific Research Astronautics Symposium in San Diego. Commander of Western Development Division Headquarters Charles Wilson
  • 3. July 20, 1969 http://www.universetoday.com/wp-content/uploads/2010/01/Earth-View-From-The-Moon.jpg
  • 4. May 25, 2008 Phoenix Mars Probe
  • 5. ROBOTS FDP ot tropxE FDP ot tropxE FDP ot tropxE FDP ot tropxE FDP ot tropxE FDP ot tropxE FDP ot tropxE …gnitropxE …gnitropxE …gnitropxE …gnitropxE …gnitropxE …gnitropxE
  • 6. Transformation of Technology Globalization of Economy Demographic Change
  • 7. What is the role of education, workforce, and economic development in U.S. competitiveness? QUALITY WEALTH OF JOBS LIFE Cultivating innovation and innovators. SURVIVAL OF SPECIES SECURITY/ SAFETY
  • 8. Massachusetts Governor William Douglas appointed a Commission on Industrial and Technical Education that later became known as the Douglas Commission. The Commission reported: 1. There was a widespread interest in the subject of industrial education. 2. The lack of skilled workmen was not chiefly a want of manual dexterity but a want of what what may be called industrial intelligence. 3. There was a growing feeling of inadequacy of the existing public school system to fully meet the needs of modern industrial and social conditions. The schools were too exclusively literary in their spirit, scope, and methods. 4. To the question of who should bear the expense of technical education, the common answer was the state.
  • 9. Vocational Education, 1826-1917 On June 7, 1905, Massachusetts Governor William Douglas appointed a Commission on Industrial and Technical Education that later became known as the Douglas Commission. The Commission reported: 1. There was a widespread interest in the subject of industrial education. 2. The lack of skilled workmen was not chiefly a want of manual dexterity but a want of what what may be called industrial intelligence. 3. There was a growing feeling of inadequacy of the existing public school system to fully meet the needs of modern industrial and social conditions. The schools were too exclusively literary in their spirit, scope, and methods. 4. To the question of who should bear the expense of technical education, the common answer was the state. (Barlow, 2001 Years of Education 1776-1976, Feb. 1976)
  • 10. “...all too often, the focus on “college readiness” and “career readiness” remains in two distinct silos...” Common Core State Standards & Career and Technical Education: Bridging the Divide between College and Career Readiness was prepared for Achieve by Hans Meeder and Thom Suddreth of the Meeder Consulting Group, with the Association for Career and Technical Education and the National Association of State Directors of Career Technical Education Consortium.
  • 11. How do we cultivate innovation and innovators? Academics CTE Classical Contemporary Education Health Arts
  • 12. What is the role of education, workforce, and economic development in U.S. competitiveness? QUALITY WEALTH OF JOBS LIFE You, championing next generation CTE! SURVIVAL OF SPECIES SECURITY/ SAFETY
  • 13. Forecasting.tstc.edu Nanotechnology ADM, Hybrid, MEMS, Computer Forensics Fuel Cells Wireless: M2M Digital Games Biotechnology Home Technology Integration Homeland Security Mechatronics
  • 14. Understanding the structure of technology Defining STEM in the context of workforce and economic development Education pathways to innovation
  • 15. What do you think of when I say?
  • 16. Robot
  • 17. John Hart / AP
  • 18. http://ae45ipb.wordpress.com/2009/12/31/masa-depan-pertanian-ada-di-tangan-robotikabisakah/
  • 19. http://ae45ipb.wordpress.com/2009/12/31/masa-depan-pertanian-ada-di-tangan-robotikabisakah/
  • 20. Lost in Space Control Robot
  • 21. The Day the Earth Stood Still - Gort
  • 22. We need to think beyond these. v v
  • 23. Robots are now fundamental to how we live, work, and play in the 21st century.
  • 24. …gnitropxE …gnitropxE FDP ot tropxE FDP ot tropxE FDP ot tropxE http://img9.joyreactor.com/pics/post/gif-cats-iRobot-vacuum-cleaner-278519.gif
  • 25. 32 http://www.gadgetspage.com/wp-content/uploads/inside-redbox.jpg
  • 26. Harry Potter & the Forbidden Journey http://www.coaster-net.com/park-gallery/37-islands-of-adventure/photos/90-harry-potter-and-the-forbidden-journey-artwork/12887
  • 27. DEFINE ROBOT http://perfectpollypet.com/
  • 28. Home Technology
  • 29. 36 http://media.englishrussia.com/newpictures/nanotrain002-53.jpg
  • 30. 37 http://www.dailymail.co.uk/news/article-2139635/Queen-skies-The-girl-Britains-youngest-female-airline-pilots-aged-just-25.html
  • 31. Tesla 256 MPGe
  • 32. A Pacemaker the Size of a Tic Tac Medtronic is using microelectronics to make a pacemaker so small it can be injected. Technology Review http://www.technologyreview.com/biomedicine/32436/? nlid=4177
  • 33. Emerging Technology Robot Cyber Physical Computer Informational Appliance
  • 34. What are the implications for work?
  • 35. The increasing footprint of automation in cars, trains, planes, and heavy equipment has necessitated a shift from mechanic to “technician.” What are the implications for work? http://www.calcars.org/photos.html
  • 36. The structure of technology is evolving from informational to cyber physical. Electronics Computers Cyber physical systems utilize information technology (computers, software, and networks, “cyber”) to direct the communication and control of physical processes and systems (or vice versa). Software Motors
  • 37. “Superior is about precision... high quality and high tolerance... Tolerances are within thousandths of an inch.” --Randy DeBolt, Co-founder, Superior Extrusion
  • 38. “Superior’s processes are all automated. Technicians work at the intersection of mechanical, computer, and electrical processes.” -Randy DeBolt, Co-founder, Superior Extrusion
  • 39. Multi-Craft/Multi-Skill Skill Jobs Today’s Jobs Knowledge Jobs
  • 40. “Digital control systems require people who have theory and skill... Most new employees have associates or university degrees.” --Troy Sarles, Administrator for Employee Relations, HR, Cliffs Natural Resources
  • 41. “We never physically touch product... We support safety, people, process and machines...” --Troy Sarles, Administrator for Employee Relations, HR, Cliffs Natural Resources
  • 42. Spirit AeroSystems Butler Community College April 7 to 11, 2008
  • 43. D-J Engineering Engineering Design $50K - $180K Machinists & Sheet Metal $22K - $42K --Razaul A. Chowdhury, President Butler Community College April 7 to 11, 2008
  • 44. Emerging Jobs Systems Knowledge & Skills Specialized Knowledge & Skills
  • 45. “In most industries you have electricians, mechanics and IT, in wind, you are expected to do everything.” -- Bryan Gregory, Jr. 11.1.2006, TSTC West TX, Sweetwater
  • 46. NMU Electrical Line Technician
  • 47. Frontier El Dorado Refining Company Butler Community College April 7 to 11, 2008
  • 48. 4/2007, TSTC Marshall
  • 49. The technicians who work at the intersection of cyber and physical systems and processes are referred to as “multi-craft technicians,” “multi-skill technicians,” “integrated systems technicians,” “mechatronics technicians,” “engineering technicians,” “instrumentation and control systems technicians,” “process control technicians,” and “Science and Technology R&D technicians” among other names.
  • 50. Cyber physical systems extend computer control into the realms of biology and chemistry. Electronics Computers Bio Chemistry Cyber Physical Systems Neuro Software Physics Motors
  • 51. Butler Community College April 7 to 11, 2008
  • 52. “….we had to upgrade our basic mechanic skills to include programmable logic controllers and electrical systems.”--Dr. Ron Lentsch, Allergan 4.16.2007, TSTC Waco
  • 53. “In 2006, demand was off the charts. Every graduate had a job 6 months before graduation. Chemical Technology Graduates typically start at $35K and it is not uncommon for them to make $60K-to-$70K per year.” –Robert Hernandez, TSTC
  • 54. National Center for Agricultural Utilization Research
  • 55. Emerging Economy Robot Age Information Age
  • 56. The role of workforce, education, and economic development collaboration in U.S. competitiveness is to enable innovation. Similar to space in 1957, cyberspace is now the the platform and engine of education, workforce, and economic innovation, while simultaneously representing an emerging domain of warfare, terrorism, and crime. The integration of computers, networks, software, and machines (cyber physical systems) has given birth to a new generation of work, education, and economic development.
  • 57. Rearview Mirror
  • 58. Morrill Act, July 2, 1862 Liberal Arts S&T Motivates New Ed Practical Arts “...promote the liberal and practical education of the industrial classes.” (Barlow, 2001 Years of Education 1776-1976, Feb. 1976)
  • 59. St. Louis Manual Training School, 1880 Steam-driven threshing machine near Hallock, Minnesota. Photo from 1882, scanned from H. Arnold Barton, A Folk Divided: Homeland Swedes and Swedish Americans, 1840—1940, Uppsala: Acta Universitatis Upsaliensis, 1994. Held by Nordiska Museet, Stockholm. Public domain by reason of age in Wikipedia. Hail the skillful cunning hand! Hail to the cultural mind! Contending for the world’s command, Here let them be combined. (Barlow, 2001 Years of Education 1776-1976, Feb. 1976)
  • 60. Understanding the structure of technology Defining STEM in the context of workforce and economic development Education pathways to innovation
  • 61. What do you think of when I say?
  • 62. STEM JOBS
  • 63. STEM JOBS Audience Survey What percentage of jobs in the U.S. in 2010 are classified as STEM jobs by the U.S. Department of Commerce?
  • 64. STEM JOBS 60% or more
  • 65. STEM JOBS 25%49%
  • 66. STEM JOBS 6%24%
  • 67. STEM JOBS Less than 6%
  • 68. 5.5% STEM JOBS 5.5% of U.S. Workforce, 7.6MM STEM Jobs in 2010 David Langdon, George McKittrick, David Beede, Beethika Khan, and Mark Doms, “STEM: Good Jobs Now and for the Future.” US Department of Commerce, Economics and Statistics Administration last accessed online October 28, 2012 http://www.esa.doc.gov/sites/default/files/reports/documents/stemfinalyjuly14_1.pdf
  • 69. David Beede, Tiffany Julian, David Langdon, George McKittrick, Beethika Khan, and Mark Doms, Office of the Chief Economist, “Women in STEM: A Gender Gap to Innovation.” US Department of Commerce, Economics and Statistics Administration last accessed online October 28, 2012 http://www.esa.doc.gov/sites/default/files/reports/documents/ womeninstemagaptoinnovation8311.pdf
  • 70. David Beede, Tiffany Julian, David Langdon, George McKittrick, Beethika Khan, and Mark Doms, Office of the Chief Economist, “Women in STEM: A Gender Gap to Innovation.” US Department of Commerce, Economics and Statistics Administration last accessed online October 28, 2012 http://www.esa.doc.gov/sites/default/files/reports/documents/ womeninstemagaptoinnovation8311.pdf
  • 71. 5.5% STEM JOBS ½ of STEM Jobs are Network and Information Tech David Langdon, George McKittrick, David Beede, Beethika Khan, and Mark Doms, “STEM: Good Jobs Now and for the Future.” US Department of Commerce, Economics and Statistics Administration last accessed online October 28, 2012 http://www.esa.doc.gov/sites/default/files/reports/documents/stemfinalyjuly14_1.pdf
  • 72. There are between 3.8 (DOL) and 5.8 (OECD) million people in the US employed in NIT. Computer and mathematical occupations are projected to add 785,700 new jobs from 2008 to 2018. As a group, these jobs are forecast to grow more than twice as fast as the average for all occupations in the economy. http://www.whitehouse.gov/sites/default/files/microsites/ostp/pcast-nitrd-report-2010.pdf
  • 73. August 2012 DEFENSE HORIZONS National Defense University David J. Kay is a Research Analyst in the Center for Technology and National Security Policy (CTNSP), Institute for National Strategic Studies, at the National Defense University. Terry J. Pudas is a Senior Research Fellow in CTNSP. Brett Young was a Research Assistant in CTNSP. Key Points There is widespread agreement in the public and private sectors that U.S. educational institutions are unable to meet the growing demand for cyber workforce professionals. It is difficult to measure the true size and requirements for the cyber workforce due to the lack of com- Preparing the Pipeline: The U.S. Cyber Workforce for the Future by David J. Kay, Terry J. Pudas, and Brett Young I n 2008, Therethe Comprehensive National Cybersecurity Initiative listed “expanded is widespread agreement in cyber education” as one of its key recommendations. In 2009, the Partnership the public produced aprivatethat the current pipeline of cyberfor Public Service and report stating sectors that security workers into the government U.S.Robert Gates stated that thewas inadequate. In the same year, Secretary of educationalmilitary was “desperately short of people who institutions are unDefense ablecapabilities [to operate in cyberspace].” And in 2011, the Inspector Genhave the to meet the growing demand eral of the Federal for investigatingBureau ofsecurity cyber-intrusion cases 35 percent of thetraining cybernational Investigation reported that lacked necessary special workforce professionals. agents 1 2 L SECURITY POLICY About the Authors
  • 74. “In this report, we define STEM jobs to include professional and technical support occupations in the fields of computer science and mathematics, engineering, and life and physical sciences.” David Langdon, George McKittrick, David Beede, Beethika Khan, and Mark Doms, “STEM: Good Jobs Now and for the Future.” US Department of Commerce, Economics and Statistics Administration last accessed online October 28, 2012 http://www.esa.doc.gov/ sites/default/files/reports/documents/ stemfinalyjuly14_1.pdf 87
  • 75. ANTHONY P. CARNEVALE NICOLE SMITH MICHELLE MELTON, “Science, Technology, Engineering & Mathematics”, Georgetown University, Center on Education and the Workforce, October 20, 2012 last accessed October 28, 2012 at http://cew.georgetown.edu/stem/.
  • 76. Note: STEM does not include medical and health jobs or many of the middle skill jobs transformed by technology in the past decade across industry sectors. ANTHONY P. CARNEVALE NICOLE SMITH MICHELLE MELTON, “Science, Technology, Engineering & Mathematics”, Georgetown University, Center on Education and the Workforce, October 20, 2012 last accessed October 28, 2012 at http://cew.georgetown.edu/stem/.
  • 77. While STEM accounts for 7.6MM jobs, there are 29 million middle skills jobs 62% of middle skills job pay $35K plus 2 out of 5 middle skill jobs pay $50k plus CTE - Five Ways That Pay, Center for Education and the Workforce, Georgetown University, Sep 2012, Last accessed online October 28, 2012 at http://www9.georgetown.edu/grad/gppi/hpi/cew/pdfs/ CTE.FiveWays.FullReport.pdf
  • 78. US Department of Labor and US Bureau of the Census in National Skills Coalition
  • 79. 5.5% STEM JOBS U.S. Department of Commerce, Economics and Statistics Administration, STEM Jobs Now and for the Future, 7.6MM STEM Jobs in 2010, 5.5% of U.S. Workforce Technology impacts all jobs and academic disciplines—all aspects of life.
  • 80. What are the implications for economic development?
  • 81. STEM practice is culturally and geographically bound. Science Technology STEM Physics Engineering Mathematics
  • 82. The United States Air Force Security Service 1948 .
  • 83. http://www.thenewnewinternet.com/wp-content/uploads/24th-air-force.jpg
  • 84. Since going public on August 8, 2008, the company’s stock has soared from $12.50 a share to more than $56 a share today. The company has a market capitalization of $6.5 billion. 2008 http://www.siliconhillsnews.com/2012/03/23/rackspace-and-graham-westons-impact-on-silicon-hills/
  • 85. Cyber Patriot uscyberpatriot.org http://www.mysanantonio.com/default/article/Students-hoping-to-ridethe-cybersecurity-wave-1043235.php#ixzz1IBe4Gqls
  • 86. Man-InSpace Program John F. Kennedy, Nov 21, 1963
  • 87. 2005 SFBR is home to the world's largest computer cluster devoted to statistical genetic analysis. Home of military medicine. Richard V. Butler, Ph.D. Mary E. Stefl, Ph.D. Trinity University
  • 88. http://www.mysanantonio.com/news/education/article/UTSA-boasts-world-class-gift-794295.php Miguel Yacaman, who heads UTSA's physics and astronomy department, shows off images taken by the world's most powerful electron microscope, nicknamed 'Helenita' after King Ranch heiress Helen Groves, whose gift was used to buy the device. / SA
  • 89. Picture is Denton ISD Northwest Vista College, ION, Improving Opportunities in Nanotechnology
  • 90. 1965 Lt. Colonel Edward White
  • 91. spaceTEAMS Andrew Schuetze San Antonio,TX High School
  • 92. General Bernard Schriever, Father of the U.S. Air Force space and missile program Feb. 19, 1957 Inaugural Air Force Office of Scientific Research Astronautics Symposium in San Diego. Commander of Western Development Division Headquarters
  • 93. Alamo Heights Rocketry Picture is Fredericksburg ISD, Texas
  • 94. What do we mean when we say STEM? WEALTH LIFE QUALITY JOBS Technological transformation of existing situations into new situations (work, learning, play, civil society, economy). SURVIVAL OF SPECIES SECURITY/ SAFETY
  • 95. Knowledge Organizations Industries Markets Technical Systems Human Capital Curricula
  • 96. Understanding the structure of technology Defining STEM in the context of workforce and economic development Education pathways to innovation
  • 97. How do we cultivate innovation and innovators? Academics CTE Classical Contemporary Education Health Arts
  • 98. TE(a)MS Model Schools Classical Contemporary Education • High degree of faculty interaction across disciplines and grades (systems) • Integrating CTE, Arts and Academics (systems) • Learning laboratories and worldly experience with industry-standard tools, processes and problems (systems) • Emerging P-20 systems (P-20) -- Sequenced, integrated and transferable courses HS to CTC to University (systems) • Transdisciplinary culture (systems) -- Context and frame for learning is real world, purpose driven and action oriented.
  • 99. TE(a)MS State System Maryland Classroom: CTE: Educating Tomorrow’s Workforce Today, April 2008
  • 100. TE(a)MS State System Maryland Classroom: CTE: Educating Tomorrow’s Workforce Today, April 2008
  • 101. Denton ISD, Texas http://www.dentonrc.com/sharedcontent/utilities/clickedimage/index.html
  • 102. Alamo Heights Rocketry Picture is Fredericksburg ISD, Texas
  • 103. ITSA, San Antonio, TX http://www.mysanantonio.com/default/article/Students-hoping-to-ridethe-cybersecurity-wave-1043235.php#ixzz1IBe4Gqls
  • 104. The key literacy of the 21st century is transdisciplinarity. World Knowledge Applied Problem Solving
  • 105. Transdiscipline Transdiscipline is the organization of people across academia and institutional silos to innovate. Innovation is the creation of new knowledge, tools, processes, and systems.
  • 106. http://www.olin.edu/
  • 107. http://www.olin.edu/
  • 108. http://www.olin.edu/
  • 109. http://www.olin.edu/
  • 110. Denton ISD, Texas Programs of study connecting pathways to both 2 year and 4 year post secondary degrees.
  • 111. spaceTEAMS San Antonio,TX Connecting formal and informal education into a coherent sequence of programs across grade levels and educational institutions. Elementary
  • 112. spaceTEAMS San Antonio,TX Middle School
  • 113. TIER/spaceTEAMS Andrew Schuetze San Antonio,TX High School
  • 114. Source, DIAC, Computer Professionals for Social Responsibility (CPSR), Pattern Languages for the 21st Century, Brazell and Monroe, 2003
  • 115. Holmes High School and San Antonio Cyber Initiative
  • 116. ITSA highschoolcdc.com Read more: http://www.mysanantonio.com/default/article/Students-hoping-to-ridethe-cybersecurity-wave-1043235.php#ixzz1IBe4Gqls
  • 117. Learn more about TX cyber today at the Texas Cyber Education, Workforce, and Economic Development session from 2:00-3:15.
  • 118. Understanding the structure of technology Defining STEM in the context of workforce and economic development Education pathways to innovation
  • 119. Common Core State Standards & Career and Technical Education: Bridging the Divide between College and Career Readiness was prepared for Achieve by Hans Meeder and Thom Suddreth of the Meeder Consulting Group, with the Association for Career and Technical Education and the National Association of State Directors of Career Technical Education Consortium. “The goal of ensuring that all students graduate from high school ready for college, careers and life has taken hold in every state across the nation. Yet all too often, the focus on “college readiness” and “career readiness” remains in two distinct silos...”
  • 120. What is the role of education, workforce, and economic development in U.S. competitiveness? QUALITY WEALTH OF JOBS LIFE Cultivating innovation and innovators. SURVIVAL OF SPECIES SECURITY/ SAFETY
  • 121. What is the role of education, workforce, and economic development in U.S. competitiveness? QUALITY WEALTH OF JOBS LIFE You, championing next generation CTE! SURVIVAL OF SPECIES SECURITY/ SAFETY
  • 122. Super Systems: The Role of Education, Workforce and Economic Development Collaboration in U.S. Competitiveness Texas Workforce Commission, Dallas, TX, November 28, 2012 JIM BRAZELL jimbrazell@ventureramp.com

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