- The document discusses emerging technologies like nanotechnology, biotechnology, robotics and their implications for jobs and education. - It presents strategies for integrating academic subjects like STEM with career and technical education to prepare students for in-demand jobs that require both skills and knowledge. - Models are discussed that merge disciplines through integrated curricula and involve faculty collaboration between high schools, career and technical centers, and universities.

1. The Future is
Here - California

2. October
4, 1957

3. October
4, 1957

4. GlobalS&T
Demography
Our Sputnik

5. “If the U.S. is to maintain its
economic leadership and
compete in the new global
economy, the nation must
prepare today’s K-12 students
better to be tomorrow’s
productive workers and citizens.”
http://www.nsf.gov/nsb/documents/2006/0502/testimony.pdf

6. Butler County
Economic
Development
“In the world of economic
development, people talk
about the importance of
location, location,
location… but without the
labor force location means
nothing.”
--David Alfaro, Director Butler
County Economic Develoipment
Butler Community College
April 7 to 11, 2008

7. “We can’t be in our
silos like we have
been in the past.”
--D Smith, Visioneering
Wichita

8. “The 3 Rs are stressed
so much that there is no
time for T & I credit.”
–Robert Becker, Principal, In
Tolerance, MI

9. “…newer programs like Pre-
engineering, Biomedical Sciences,
Manufacturing Engineering
Technologies, and Homeland
Security and Emergency
Preparedness are attracting more
and more students.”
Maryland Classroom: CTE: Educating Tomorrow’s
Workforce Today, April 2008

10. “I do not think Maui is any
different than the
mainland…post
industrialization has
placed greater demands
on math and education.”
–Rose Yamada, elder

11. Industrial
Age
Post
Industrial
Age
Notion of
Information
Age

12. The Future is
Here: Emerging
Technologies,
Jobs and
Strategies

13. www.kurzweilai.net/.../ SIN_headshot_highres.html
“We're
doubling the
rate of
progress every
decade, we'll
see a century
of progress--at
today's rate--in
only 25
calendar
years.”
Kurzweil, KurzweilAI.net,
March 7, 2001

14. http://www.nasa.gov/multimedia/imagegallery/image_feature_598.html

15. http://www-bsac.eecs.berkeley.edu/archive/users/warneke-brett/SmartDust/
Berkeley’s Golem Dust
11.7 mm3 total circumscribed volume
~4.8 mm3 total displaced volume
Berkeley’s Deputy Dust
6.6 mm3 total circumscribed
volume
4th
Gen
11.7 mm3
6.6 mm3

16. Home Technology

17. Construction
Patent thin-nickel-strip
magneto-strictive sensor
(MsS™). Applicable to
airplanes, ships, plants,
pipelines and bridges.
US 80 billion square feet of commercial and government
facilities and buildings, and more than 100 billion square
feet of dams and bridges (Sensametrics, 2003). One trillion
dollar market (Elgamal).
http://www.swri.org/3pubs/ttoday/fall03/Future.htm
SwRI MsS™
http://www.swri.edu/3pubs/IRD2002/14-9285.htm

18. Security and Process Control
SCADA $3.1 B (2004) to over $4 B (2007).
SCADA security software to grow by 50%
annually through 2007 (Kuykendall, 2004).
RF Modules 1.9 MM units (2004) to climb to
165 MM units (2010) (Legg, 2004).
Industrial wireless sensors $24 MM (2001)
over $100 MM (2008)
(Donoho, 2002).
NovusEDGE
Armida
DevicePoint

19. Utilities
A California study indicates that peak-rate usage can be shaved by 20
percent if utilities used Automated Meter Reading (ARM) for accurate
pricing information--each megawatt of reduction can equate to $400,000 in
savings per year (Jackson, 2004, p. 1) saving California utilities and
consumers at least $5 billion a year.
http://www.utilitiesproject.com/documents.asp?grID=85&d_ID=2402
More than 25 million AMR
units installed on gas (21
percent), water (11 percent),
and electric utility (16
percent) meters.
200 million units yet to be
changed out to AMR
(Jackson, 2004).

20. If you have an automobile made in the past 10 years,
your car has more computing power than rockets
used to put man on the moon.
TSTC West TX, Sweetwater, 10.31.2006

21. http://www.xpcarteam.com/
XP Vehicle Systems
Features: Over 2500 mile range using our patented XPack Multi-Core(TM) power plant, energy is delivered
to you when you need it, inflatable frame technology, extensive ability to customize and mitigate
obsolescence (EVERYTHING is upgradeable), you assemble or dealer assemble, direct ships to
you, some models can change bodies, some models fold after assemble for storage or parking.

23. PRIUS+ team: we built the first PRIUS+ conversion Sept 11-22, 2004, starting with a low-cost
lead-acid battery pack. Pictured are (L-R) Ron Gremban, Felix Kramer, Marc Geller, Kevin Lyons, Andrew Lawton.
See About CalCars for names of those who helped but are not pictured.

27. Unfortunate for some.

29. 1,000 MPG eq. Fuel Cell Car

30. Los Altos Academy of
Engineering, La Puente Valley
ROP, California

32. http://www.msnbc.msn.com/id/7643818/
Adidas 1 Running Shoe

33. http://www.adidas.com/campaigns/
• 1,000th
of a second sensor measures gap
between heel and a magnet
• 20-MHz microcontroller measures changes
in compression
• Motor spins at 4000 rpm turns a screw
loosens cable
• Environmentally and operator adaptive shoe
sole
Wearable
Robot

34. MIT Tech Review, 2005
Sensors
Physical
Chemical
Biological
http://www.rieti.go.jp/en/events/bbl/03102801.pdf , page 16
Actuators
Physical
Chemical
Biological
PhiloMetron™

35. http://bleex.me.berkeley.edu/CV/Berkeley-Exo-HR.jpg
100-pound
exoskeleton
and a 70-
pound
backpack
while feeling
as if he were
lugging a
mere 5
pounds

36. http://www.terremoto.ca/images/exoskeleton.jpg
Hal 3 may
some day
replace the
wheel chair
for many
people..

37. http://www.startrekdesktopwallpaper.com/new_wallpaper/Star_Trek_Voyager_SevenOfNine_JerryRyan_desktopwallpaper_800.jpg

38. https://www.carle.com/Hospital/about/images/Ear%20Diagram3.jpg
Cochlear Ear Implant

39. Physicians are using
VNS from last 10 years
to treat epilepsy to slash
seizures till upto 40
percent. October 2005
study revealed that after
using this VNS
technique by severely
depressed patients
ninety-one percent
retained their recovery
in nine months.
http://www.medgear.org/page/4/

40. http://www.skidmore.edu/~dvella/fantvoy.jpg

41. http://www.rsc.org/ej/LC/2006/b507312j/b507312j-f2.gif
http://www.rsc.org/ejga/LC/2006/b507312j-ga.gif
Lab-in-a-Pill

42. Wesley Medical Center, Butler Community College
April 7 to 11, 2008

43. http://www.rsc.org/ej/LC/2006/b507312j/b507312j-f2.gif
http://www.rsc.org/ejga/LC/2006/b507312j-ga.gif
Lab-in-a-Pill

44. An artificial red cell – the respirocyte [41]. Designer
Robert A. Freitas Jr. ©1999 Forrest Bishop.
http://www.imminst.org/freitas.html
Nano-
Mechatronics

45. What are the
implications?

46. Industrial
Age
Post
Industrial
Age
Notion of
Information
Age

47. Industrial
Age
Cybernetic
Age
Notion of
Information
Age

48. STEM
Mergers

49. Mechatronics
The synergistic
combination of
mechanical
engineering,
electronics,
control systems
and computers.
Mechanical, Aerospace, and
Nuclear Engineering
Departments at RPI
All Contents Copyright(C) 2001 Mechatronics Lab at RPI

50. Adapted from NSFNEURO NANO
BIOINFO
21st
Century Architecture

51. NEURO NANO
BIOINFO
Adapted from NSF
21st
Century Architecture

52. STEM
Mergers

53. Job
Mergers

54. Technology,
Jobs & Workers

55. Samuel Palmisano (CEO, IBM): Business Week: 10.11.2004
100 million jobs are going to
be created in a lot of these
cross-disciplinary fields
Council on Competitiveness:
National Innovation Initiative

56. Nanotechnology Fuel Cells Homeland Security
ADM, Hybrid, MEMS,
Computer Forensics Wireless: M2M Mechatronics
Home Technology
IntegrationBiotechnology
Digital Games
Demand for Multi-Disciplinary Learners & Workers

57. forecasting.tstc.edu

59. “Turbine Techs earn
$28-$40K a year… Many
techs earning $40K -
$80K a year with OT.”
– Bryan Gregory, Jr.
11.1.2006, TSTC West TX, Sweetwater

60. “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

61. Mechatronics
The synergistic
combination of
mechanical
engineering,
electronics,
control systems
and computers.
Mechanical, Aerospace, and
Nuclear Engineering
Departments at RPI
All Contents Copyright(C) 2001 Mechatronics Lab at RPI

64. Medium to High Pay
Jobs
Knowledge
Jobs
Skill
Jobs
Next
Gen
Jobs

65. Mechatronics
Jobs

66. Butler Community College
April 7 to 11, 2008

67. “It used to be the
sledgehammer
mechanic. These days,
the technology has
advanced so much that
our most important tool
is our brain. It is more
of a thinking man’s
game now.”
Jeff Nelson
Service Manager
CAT
Skill Mergers

68. “Tolerances
are getting
tighter and
tighter…”
–Patrick
Peronnet

69. “Manufacturing
is increasingly
more
automated—
electronics,
motors,
controls,
robots and
scheduling.”
--ATS,
PeoriaTSTC West TX

70. www.af.mil/news/airman/0104/launch1b.html
“Production
Engineers [from
TSTC] start at $43K-
$57K per year at
United Launch
Alliance.”
– Edward
Rodriguez, Sr.
Manufacturing
Engineering
Manager, ULA

71. “Aviation
Technicians
qualify for two
pay raises per
year of $1.00
per hour
topping out at
$54K per year.”
–Harvey Hall,
American Eagle,
Abilene

72. “Entry-level
machinists make
$36K-$37K.
They top out at
$60K but they
can earn
overtime and up
to $7,500 per
year for college
reimbursement
too.”
–Chuck Marbut, Bell
Helicopter

73. Butler Community College
April 7 to 11, 2008
Frontier El Dorado
Refining Company
Operator
$40K - $60K
Instrumentation
$40K - $60K
Machinist
$40K - $60K
--Bill Kloeblen, Manager
Human Resources

74. CHEM-
BIO

75. “….we had to upgrade our basic
mechanic skills to include
programmable logic controllers and
electrical systems.”
--Dr. Ron Lentsch, Allergan
4/2007, TSTC Waco

76. Entry-Level R&D Tech
$40,000-to-$50,000
4.16.2007, TSTC Waco

77. Specialized
Knowledge &
Skills
Systems
Knowledge &
Skills
Next Gen Jobs

78. Break Out Session
II and III

79. What are the
implications?

80. STEM
Mergers

81. Job
Mergers

82. Medium to High Pay
Jobs
Knowledge
Jobs
Skill
Jobs
Next
Gen
Jobs

83. Academic
Mergers

84. Med-to-High Skill and
Professional Jobs
General
Academics
Career & Tech
Education
Next
Gen
Ed

85. Strategies &
Models

87. Governor
Rick Perry
Texas
Competitiveness
Council and
Industry Cluster
Initiative

89. “Growing evidence shows that pathways
hold promise for reducing high school
dropout rates, increasing academic
achievement and learning, and increasing
students’ earning power when they
graduate. Equally compelling, studies
show that students enrolled in pathways
perform as well as their traditionally
educated counterparts on key measures”
(Hoachlander, et al, p. 3, 2008).

90. “Those who complete both a strong
academic curriculum and a vocational
program of study (dual concentrators) may
have better outcomes than those who
pursue one or the other (Silverberg,
Warner, Fong, & Goodwin, 2004; Plank,
2001; Stone & Aliaga, 2003)” (National
Alliance for Secondary Education and
Transition, 2005, Career Preparatory
Experiences, ¶ 3).

91. Liberal Arts
STEM CTE
TEAMS

92. Next
Generation

93. Technology
Engineering
Arts (Liberal & Fine)
Mathematics
Science

94. Maryland
Comprehensive
Liberal Arts,
STEM and CTE
Model

95. Maryland Classroom: CTE: Educating Tomorrow’s
Workforce Today, April 2008

96. Maryland Classroom: CTE: Educating Tomorrow’s
Workforce Today, April 2008

97. Maryland Classroom: CTE: Educating
Tomorrow’s Workforce Today, April 2008

98. TEAMS Model Schools
• High degree of faculty interaction
• Integrated curricula
• Sequenced courses HS, CTC and
University
• Transdisciplinary culture

99. Contextual
Theoretical Applied
TEAMS

102. Transdisciplinary
Theoretical +
Applied + Real
WorldProblems

103. Los Altos
Academy of
Engineering, La
Puente Valley
ROP, California

108. Break Out Session
II and III

109. The Future is
Here: Emerging
Technologies,
Jobs and
Strategies

110. October
4, 1957

111. GlobalS&T
Demography
Our Sputnik

112. Industrial
Age
Cybernetic
Age
Notion of
Information
Age

113. Industrial
Age
Cybernetic
Age
Notion of
Information
Age
The Age of
CTE & ROPs

114. jim@ventureRAMP.com