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1、THE SKILLEDTECHNICALWORKFORCE:Crafting Americas Science&Engineering EnterpriseWhy do the National Academies expect 3.4 million unfilled skilled technical jobs by 2022?What did 139 stakeholders from across the country say the U.S.should do to improve opportunities for skilled technical workers?What 4
2、 recommendations do we offer for building the Skilled Technical Workforce of the future?3.4M1394NATIONAL SCIENCE BOARDTHE SKILLED TECHNICAL WORKFORCE2 Cover Photo Credit:Darryl EstrineTHE SKILLED TECHNICAL WORKFORCE3September 2019Report#:NSB-2019-23THE SKILLED TECHNICAL WORKFORCE:Crafting Americas S
3、cience&Engineering EnterpriseTHE SKILLED TECHNICAL WORKFORCE4BOARD MEMBERSJOHN L.ANDERSONPresidentNational Academy of EngineeringROGER N.BEACHYProfessor Emeritus of BiologyWashington University,St.LouisARTHUR BIENENSTOCKProfessor Emeritus of Photon ScienceStanford UniversityVICKI L.CHANDLERDean of F
4、acultyMinerva Schools at KGIMAUREEN L.CONDICAssociate Professor of Neurobiology and AnatomyUniversity of Utah,School of MedicineW.KENT FUCHSPresidentUniversity of FloridaSURESH V.GARIMELLAPresidentUniversity of VermontROBERT M.GROVESProvost and Executive Vice President;Gerard J.Campbell,S.J.Professo
5、r in the Math and Statistics Department;Professor in the Sociology DepartmentGeorgetown UniversityDIANE L.SOUVAINE NSB ChairProfessor of Computer Science and Adjunct Professor of MathematicsTufts UniversityELLEN OCHOANSB Vice ChairDirector(retired)Lyndon B.Johnson Space CenterJAMES S.JACKSONDaniel K
6、atz Distinguished University Professor of Psychology;Professor of Afro-American and African Studies;Research Professor,Research Center for Group Dynamics,Institute for Social ResearchUniversity of MichiganSTEVEN LEATHPresident(retired)Iowa State University and Auburn UniversityW.CARL LINEBERGERFello
7、w of JILA and E.U.Condon Distinguished Professor of ChemistryUniversity of ColoradoVICTOR R.MCCRARYVice President for Research and Graduate Programs;Professor of ChemistryUniversity of the District of ColumbiaEMILIO F.MORANJohn A.Hannah Distinguished Professor of Global Change ScienceMichigan State
8、UniversitySETHURAMAN PANCHANATHANExecutive Vice President and Chief Research and Innovation Officer of Knowledge Enterprise Development;Director of the Center for Cognitive Ubiquitous ComputingArizona State UniversityG.P.“BUD”PETERSONProfessorWoodruff School of Mechanical EngineeringGeorgia Institut
9、e of TechnologyJULIA M.PHILLIPSExecutive EmeritusSandia National LaboratoriesDANIEL A.REEDSenior Vice President for Academic Affairs(Provost)University of UtahGERALDINE L.RICHMONDPresidential Chair in Science and Professor of ChemistryUniversity of OregonANNEILA I.SARGENTIra S.Bowen Professor of Ast
10、ronomyCalifornia Institute of TechnologyS.ALAN STERNAssociate Vice President and Special Assistant to the PresidentSouthwest Research InstituteSTEPHEN H.WILLARDCEOCellphire,Inc.MARIA T.ZUBERVice President for ResearchMassachusetts Institute of TechnologyTHE SKILLED TECHNICAL WORKFORCE5Dear Colleague
11、:For many years,the National Science Board(NSB,Board)has had a keen interest in the state of the STEM-capable workforce in the United States.The health of that workforce is vital to Americas economic prosperity,our scientific and technological competitiveness,and our national security.Building on th
12、e Boards past work,this report focuses on a crucial but underappreciated part of the science and engineering enterprise:the Skilled Technical Workforce(STW),the millions of men and women with STEM skills and knowledge who do not have a bachelors degree.This report is the culmination of our 18-month
13、effort to identify the opportunities and challenges facing students,incumbent workers,businesses,educators,and others involved with the STW.It offers recommendations for how federal policymakers and educators can work together to foster the STW,so that all Americans can participate in and benefit fr
14、om advances in science and technology.The NSBs engagement with this topic is not over.The work of the Task Force will continue to influence and inform our thinking as we craft the STEM-capable workforce of the future.We welcome feedback on this report.If you have comments or questions,please contact
15、 Dr.John Veysey II,Executive Officer to the Board at(703)292-7000 or at jveyseynsf.gov.Sincerely,Diane L.SouvaineChair,NSBCHAIRS MESSAGEJOHN J.VEYSEY IIExecutive OfficerNational Science BoardNational Science FoundationFRANCE A.CRDOVADirectorNational Science FoundationMEMBERS OF THE STW TASK FORCEVic
16、tor R.McCrary,ChairVicki L.ChandlerRobert M.GrovesJames S.JacksonW.Carl LinebergerGeraldine L.RichmondTHE SKILLED TECHNICAL WORKFORCE6EXECUTIVE SUMMARYchanges in the nature of work,education,technology,workforce demographics,and international competition have led the National Science Board(NSB,Board
17、)to conclude that our competitiveness,security,and research enterprise require this critical,but often overlooked segment of our STEM-capable workforce.Adding to the near-term urgency,a National Academies of Sciences,Engineering,and Medicine report predicts a shortfall of nearly 3.4 million skilled
18、technical workers by 2022.1 Expanding the diversity and inclusivity of science and engineering is vital to the future of the S&E enterprise and crucial to maintaining the broad public support for S&E that has fueled American prosperity and national security for the past 70 years.It is in the nations
19、 interest that all Americans,including the two in three U.S.adults who do not have a bachelors degree,have the opportunity to participate in and benefit from our scientific and technological progress.To achieve this,the Board believes that the United States should increase the emphasis on cultivatin
20、g the STW as part of continued robust support for the education of scientists and engineers.Over the past two years,the NSB Task Force on the Skilled Technical Workforce has identified opportunities and challenges facing students,incumbent workers,businesses,educators,and others involved with the ST
21、W.2 In the course of our activities,four systemic issues surfaced that will necessitate new partnerships among various types of educational institutions,all levels of government,and industry to strengthen this critical segment of the workforce.By focusing on these areas,we seek to build on the effor
22、ts of the White House,3 Congress,and others4 to create STW opportunities for more Americans.We offer the following recommendations:o grow our nations science,technology,engineering,and mathematics(STEM)capacity and ensure that Americans nationwide can participate in a science and engineering (S&E)in
23、tensive economy,the United States must foster its Skilled Technical Workforce(STW)individuals who use S&E skills in their jobs but do not have a bachelors degree.RapidTHE SKILLED TECHNICAL WORKFORCE7CHANGE THE MESSAGE:The NSB and the National Science Foundation(NSF),and other S&E leaders should comm
24、unicate the importance of the STW to our nations S&E enterprise,individual economic prosperity,national security,and U.S.global competitiveness.Raising awareness about STW career and educational pathways can also help to address misperceptions and lack of awareness of skilled technical career opport
25、unities among parents,educators,guidance counselors,and students.Key messages include:Skilled technical work is crucial to the nation and its S&E enterprise.The multiple educational pathways into the S&E enterprise are complementary and interdependent.Together they produce the educated,skilled,and d
26、iverse workforce the United States needs in todays knowledge-and technology-intensive world.Skilled technical work is a pathway that can lead in a variety of educational and career directions.Pursuit of skilled technical work is about personal preferences and choices.FOCUS ON THE DATA:To understand
27、and begin to address data gaps,NSFs National Center for Science and Engineering Statistics(NCSES),with additional federal resources and collaborating with other statistical agencies,should collect nationally representative data on the education,skills,and workforce characteristics of the STW.NSF sho
28、uld promote partnerships between governmental and non-governmental(industry,academia)stakeholders in the STW to share data and develop tools for public use and workforce planning.LEVERAGE THE PORTFOLIO OF FEDERAL INVESTMENTS:There is an opportunity for the Federal agencies that support STW-related p
29、rograms to leverage one anothers activities and maximize the nations federal investments in the STW through a holistic,coordinated approach.NSF can lead by example by conducting a full portfolio analysis that will value and categorize its STW investments across all directorates in the areas of educa
30、tion,research,infrastructure,data collection,and analysis.The analysis of NSFs portfolio of STW-related investments could publicize and inform stakeholders about the breadth of NSFs contributions to the STW,build awareness of funding opportunities,and help maximize and leverage the impact of these i
31、nvestments.BUILD PARTNERSHIPS:In strengthening educational pathways for the STW,policymakers and educational institutions should recognize that K-12 school systems,two-year colleges,four-year colleges and universities,and other post-secondary education and workforce development programs are integral
32、,synergistic parts of a whole.These institutions should work as partners together with business and industry to grow the STEM-capable U.S.workforce via STW programs that are tailored to the needs of their local communities.Policymakers can encourage the creation of such partnerships by developing fe
33、deral programs that require partnership participation from stakeholders from multiple sectors.The multiple educational pathways into the S&E enterprise are complementary and interdependent.Together they produce the educated,skilled,and diverse workforce the U.S.needs in todays knowledge-and technolo
34、gy-intensive world.THE SKILLED TECHNICAL WORKFORCE8THE SKILLED TECHNICAL WORKFORCE9We must“step up”our game and nurture and expand our domestic talent along the entire S&E worker-value chain from the STW to the Ph.D.if our workforce is to remain competitive.101Relies on Building a STEM-Capable U.S.W
35、orkforce(2018),the Board called for including workers at all educational levels in the STEM-capable workforce,and sought to move away from an older,outdated,and narrower concept of the STEM workforce based solely on academic degrees and occupations.This report reinforces and builds on the Boards pri
36、or work by calling attention to the STWs essential role in the S&E enterprise.Since our 2015 report,the need for a STEM-capable U.S.workforce at all educational levels has become more apparent and urgent.Technologically,we are on the cusp of revolutions in data and artificial intelligence,developmen
37、ts that will continue to accelerate changes in the workplace and intensify our need for citizens who excel at using data,information,and technology in their work.Other nations are investing substantially in human capital.We must“step up”our game and nurture and expand our domestic talent along the e
38、ntire S&E worker-value chain Our skilled workforce is foundational and essential to U.S.leadership in science and engineering(S&E)and the economic prosperity and security that flow from it.Yet on a near daily basis,headlines emphasize that we are not doing enough to develop and sustain our nations h
39、uman capital.For the United States to compete and thrive in todays S&E-driven world,our country must nurture a workforce that can lead in every phase of research and development(R&D),from discovery to innovation to product realization and sustainability.A key component of this workforce is the Skill
40、ed Technical Workforce(STW),the roughly 17 million workers who use S&E expertise and technical knowledge in their jobs but who do not possess a bachelors degree.5For several years,the National Science Board(NSB,Board)has stressed the need to think differently about the science and engineering workfo
41、rce.In Revisiting the STEM Workforce(2015)and Our Nations Future Competitiveness THE SKILLED TECHNICAL WORKFORCE11There are indications that we,as a nation,are not doing enough.makers,electricians,welders,and programmers could threaten our ability to maintain unique facilities for basic research,sop
42、histicated military assets(e.g.materials for nuclear submarines and hypersonic weapons systems utilizing artificial intelligence),and the future of the nations automobile industry(e.g.autonomous vehicles).At the same time,economic shifts toward jobs that put a premium in many lines of work on S&E kn
43、owledge and skills are leaving behind too many of our fellow Americans.Given the prominent role of S&E as a driver of 21st century economic activity,our nation must do a better job of growing our STEM-capacity and ensuring that millions of hardworking Americans at all educational levels and in all r
44、egions of the country have the opportunity to contribute to and benefit from todays and tomorrows S&E-intensive workplaces.This is not merely the right thing to do;it is necessary for the future of our economy,national security,the health of our S&E enterprise,and to ensure the broad public support
45、for S&E that has fueled American security and prosperity for the past 70 years.from the STW to the Ph.D.if our workforce is to remain competitive.As the Administrations STEM Education Strategic Plan states,“the country must prepare the STEM Workforce for the future both college-educated STEM practit
46、ioners and those working in skilled trades that do not require a four-year degree A diverse talent pool of STEM-literate Americans prepared for the jobs of the future will be essential for maintaining the national innovation base that supports key sectors of the economy and for making the scientific
47、 discoveries and creating the technologies of the future.”6Yet,there are indications that we,as a nation,are not doing enough.According to a 2017 National Academies of Sciences,Engineering,and Medicine(NASEM)report,by 2022,“the percentage of skilled technical job openings is likely to exceed the per
48、centage of skilled technical workers in the labor force by 1.3 percentage points or about 3.4 million skilled technical jobs.”7 Due to the continuing retirement of the Baby Boomers and the tendency of job skill requirements to increase over time,NASEM believes that the number of skilled technical wo
49、rkers will likely fall short of demand,even when accounting for how technological innovation may change workforce needs.8 Shortages of highly skilled tool and die THE WORKFORCE THAT ACTUALLY BUILT THE SPACE SHUTTLE WERE NOT FOUR-YEAR DEGREE ENGINEERS,THEY WERE SKILLED TECHNICIANS.WE NEED TO MAKE SUR
50、E THOSE JOBS ARE REPRESENTED.DR.MAE JEMISON,PRINCIPAL,100 YEAR STARSHIP;NASA ASTRONAUT(RETIRED)THE WORKFORCE THAT ACTUALLY BUILT THE SPACE SHUTTLE WERE NOT FOUR-YEAR DEGREE ENGINEERS,THEY WERE SKILLED TECHNICIANS.WE NEED TO MAKE SURE THOSE JOBS ARE REPRESENTED.DR.MAE JEMISON,PRINCIPAL,100 YEAR STARS
51、HIP;NASA ASTRONAUT(RETIRED)THE SKILLED TECHNICAL WORKFORCE14WECAN&MUST DOBETTERR&D enterprise,accounting for more than half of all workers in many of Americas“advanced industries.”10 These“R&D-intensive”industries,which include advanced manufacturing,pharmaceuticals,motor vehicles,and aerospace,ener
52、gy-providing industries such as oil and gas extraction and power generation,and critical service activities such as telecommunications and software design,account for 17 percent of U.S.Gross Domestic Product.11 All told,these industries generate$2.7 trillion in output annually,outpacing any other se
53、ctor.12 A growing number of jobs critical to our national security,in such areas as cybersecurity and defense-related technologies,require both S&E skills and U.S.citizenship.In addition,many of our national research facilitiesincluding those funded by NSF,the Department of Energy(DOE),the Departmen
54、t One way to prepare more of our citizens for the high-tech jobs of today and tomorrow,live up to the ideal that America is a land of opportunity for all,connect more Americans with the S&E enterprise,and help secure our nations future S&E leadership is to strengthen the Skilled Technical Workforcea
55、 crucial,but often overlooked,segment of our STEM-capable workforce.Representing 13 percent of the U.S.workforce age 25 and older,skilled technical workers contribute to all parts of the economy and the S&E enterprise.9 They bring critical thinking,design,digital,math,and coding skills to work as au
56、to mechanics,health care technicians,electricians,welders,computer systems analysts and administrators,and operators of“smart”infrastructure.They also make crucial contributions to the nations THE SKILLED TECHNICAL WORKFORCE15of Defense(DOD),and the National Aeronautics and Space Administration(NASA
57、)as well as research laboratories at colleges and universities rely on skilled technical workers to help advance the frontiers of basic science and engineering.13 With fewer barriers to entry than jobs requiring a bachelors degree,skilled technical work offers a pathway into S&E for the approximatel
58、y two in three U.S.adults who have some education beyond high school and less than a bachelorsdegree.14 As such,the STW has the potential to connect millions more Americans to the S&E enterprise.Employment in skilled technical jobs also offers millions of Americans competitivesalaries,benefits,and a
59、 discernible career path.15 These jobs tend to be higher paying and have lower unemployment rates relative to other jobs at a comparable education level.16 Compared to those S&E jobs which require at least a bachelors degree,STW occupations tend to be more widely distributed geographically.17In toda
60、ys environment where post-secondary work and educational pathways are less linear than they were several decades ago and whereoptions for post-secondary education and career preparation have proliferated,skilled technical education and employment are important ends in themselves as well as a launchi
61、ng pad for further STEM study.In the listening sessions thatthe NSB conducted around the country,we heard from students and workers about the paths that led them to STW education and skill development programs and about how they moved between such programs and work THE SKILLED TECHNICAL WORKFORCE16e
62、nvironments.A common theme was that the experiential learning associated with many STW education and skill development programs and their shorter duration relative to a bachelors degree make Career and Technical Education(CTE)programs(including CTE schools,coding boot camps,apprenticeship programs,a
63、nd associate degree programs)appealing avenues for exploring interests,developing STEM skills,and preparing for employment.Many individuals with whom the Board spoke found their“STEM spark”through STW education and employment,and some subsequently obtained a bachelors degree or higher in a STEM fiel
64、d.Expanding the STW also provides an opportunity to build a STEM-capable workforce that reflects our countrys people.As the 2019 National Academies of Sciences,Engineering,and Medicine report on the critical role of Minority Serving Institutions in advancing the Nations STEM workforce notes,demograp
65、hic trends suggests that overall STEM readiness of students of color will have a significant impact on Americas economic growth,security,and global prosperity.18 Federal data show that the STW is the most diverse segment of the STEM-capable workforce;its racial and ethnic composition is similar to t
66、he overall U.S.workforce age 25 and older.19 In contrast,there is work to be done to increase womens participation in the STW,which in most occupations remains predominantly maleless than 28%of STW workers overall are female.20 The exception to this is in healthcare occupations,in which women have a
67、 high rate of participation.Gender disparity is not specific to the STW;women compose 29%of the S&E workforce,making them underrepresented in the STEM-capable workforce at all levels.21National Science Board,“Science and Engineering Labor Force,”Science and Engineering Indicators 2020(forthcoming).D
68、ata source:Census Bureau,American Community Survey 2017,public use microdataTHE SKILLED TECHNICAL WORKFORCE17Community colleges welcome all students and are an important educational pathway into many parts of the STEM-capable workforce.In addition to educating the STW,community colleges prepare stud
69、ents to pursue bachelors and advanced degrees.Between 2010 and 2017,18%of those earning bachelors degrees in STEM fields also earned associates degrees.During that same period,47%of STEM bachelors degree earners reported doing some coursework at a community college.At the doctoral level,20%of the U.
70、S.citizens and permanent residents who received S&E doctoral degrees in 2017 reported having attended a community college at some point in their educational careers,and 6%earned an associates degree along the way.As a critical access point for groups historically underrepresented in STEM,community c
71、olleges also play an important role in broadening participation.In particular:50%of all Hispanic undergraduates are enrolled in community colleges.11%of Black and 8%of Hispanic or Latino S&E doctoral degree recipients in 2017 had previously earned an associates degree.In comparison,only 6%of whites
72、and 3%of Asians who earned doctoral degrees in S&E fields in 2017 had previously earned an associates degree.29%of community college students are first generation college students.In 2015,55%of Minority Serving Institutions(MSIs)were community colleges.MSIs,which are defined by legislation or enroll
73、ment,include Historically Black Colleges and Universities(HBCUs),Hispanic Serving Institutions(HSIs),and Tribal Colleges and Universities(TCUs).These data highlight the importance of MSIs and community colleges for engaging groups historically underrepresented in STEM and building a STEM-capable wor
74、kforce that reflects Americas diversity.COMMUNITY COLLEGE AS A PATHWAY INTO THE STEM-CAPABLE WORKFORCEGiven the importance of STW education and skill development as on-ramps to job opportunities,further STEM education,and to building a workforce that reflects the nations diversity,it is essential th
75、at S&E leaders and policymakers step up and do more to support the STW and integrate it within a framework of S&E education and workforce development that spans from primary and secondary school through post-secondary education and beyond.Bridging the dividebetween skilled technical and other S&E pa
76、thways matters not just for the progress of science,and for developing the robust,technologically-savvyworkforce of the future,but also for ensuring that S&E is an inclusive enterprise that actively welcomes all Americans and benefits from their participation and perspectives.THE SKILLED TECHNICAL W
77、ORKFORCE18One of the greatest scientific achievements of the 21st centurythe detection of gravitational waves at the Laser Interferometer Gravitational-Wave Observatory(LIGO)would not have been possible without the skill and dedication of hundreds of scientists,engineers,and skilled technical worker
78、s.The National Science Board appreciated this firsthand at LIGOs Livingston,Louisiana site.There,the Board met David Barker,who describes himself as a skilled technical worker.David works side-by-side with a team of operators and scientists to monitor and maintain the temperature in the 19,000 squar
79、e foot laser vacuum equipment area within 2/10ths of a degree.A temperature change of one-degree Fahrenheit would cause the laser to lose lock,forcing a shutdown and halting data collection.David playfully notes that he tells people that he is“a famous air conditioning man.”Without experienced and d
80、edicated skilled technical workers like David,fundamental scientific breakthroughs that require complex technologies and facilities would not be possible.THE STW AND BREAKTHROUGH SCIENCETHE SKILLED TECHNICAL WORKFORCE19THE SKILLED TECHNICAL WORKFORCE20DEVELOPING THE SKILLED TECHNICAL WORKFORCE THAT
81、OUR NATION NEEDSTHE SKILLED TECHNICAL WORKFORCE21Over the past two years,the NSBs Task Force on the Skilled Technical Workforce heard from numerous stakeholders about the challenges the nation faces as it seeks to strengthen the STW.In this section,we highlight four systemic challenges and opportuni
82、ties to create the vibrant skilled technical workforce that the United States needs:1.Designing STW education and preparation to meet the needs of individuals;2.Building partnerships among education,industry,non-profit,and government sectors to leverage resources and knowledge,and meet the needs and
83、 circumstances of local communities;3.Conveying accurate information about employment and career opportunities in the STW;4.Addressing data gaps and data silos so that government,industry,and educational institutions can maximize the effectiveness of programs and initiatives.By focusing on these iss
84、ues,we seek to build on and encourage others efforts to create STW opportunities for more Americans.Policymakers are already making progress on these issues.In 2018,the White House issued an executive order establishing the Presidents National Council for the American Worker and released a five-year
85、 strategic plan for STEM education,Charting a Course for Success:Americas Strategy for STEM Education,which includes a focus on the STW.Congress also passed STW-related legislation,including the Strengthening Career and Technical Education for the 21st Century Act of 2018(Pub.Law.115-224)and the Inn
86、ovations in Mentoring,Training,and Apprenticeships Act of 2018(Pub.Law.115-402).2018 was also an active year at the state level,with legislation in various states related to data collection,funding of workforce development programs,and creating infrastructure for state-level coordination of educatio
87、n and workforce efforts.22 THE SKILLED TECHNICAL WORKFORCE22To develop the skilled technical workforce that our country needs,we must do more to address the barriers that prevent individuals from embarking on and/or completing skilled technical education.In conversations with stakeholders,the Task F
88、orce heard repeatedly about these barriers and how approaches that“meet students where they are”can make a difference in persistence,program completion,and pursuit of additional STW-pathways.We frequently heard about the importance of centering programs around studentsnot institutions,educators,and
89、employers.This student-centric approach starts with the competencies and skills that students need.Are curricula pitched at a level consistent with students math skills?Do they teach STEM knowledge and concepts in the context of their application?Are they focused on the skills that students will nee
90、d to secure employment?Has a close look been taken at the full curriculum to minimize the need for pre-requisites/other coursework that could create a barrier to entry?One example of this“student-centered”approach comes from the work of Dr.Kevin Cooper,Assistant Dean of Applied Technology at Indian
91、River State College in Fort Pierce,Florida.Dr.Cooper and his team have designed a highly successful education program for skilled technical workers in the nuclear energy field.Traditionally,entry into the nuclear program required students to be college algebra ready.After observing that math was a b
92、arrier for many students,Dr.Cooper set out to learn more about the specific math skills required of workers in that industry.Following conversations with industry leaders,Dr.Cooper revamped the math curriculum for the nuclear technology program,targeting the algebra,trigonometry,and statistics skill
93、s necessary to work safely and successfully at a nuclear energy plant.As part of his effort to teach math skills in a practical and applied way,he invites industry representatives to his class to demonstrate how the inverse square laws and exponential decay matter to workplace safety.With a 90%math
94、course success rate,the new curriculum has successfully eliminated pre-existing math barriers while maintaining high educational standards that prepare students for success in the workforce.Dr.Cooper is hoping that this pilot program will become a permanent program and that other faculty will focus
95、on what students“need”to get out of their math courses to be successful in the workplace and redesign their curricula accordingly.We also heard about the need for education and skill development programs to work with the constraints on students lives.With an average age of 28,community college stude
96、nts often have bills to pay,children to raise,and,in some cases,parents who rely on them for support.23 For many of the students with whom we met,leaving the workforce for one to two yearsor even a few monthsto complete a degree or participate in a research opportunity or internship was a nonstarter
97、.Both students and faculty stressed the importance of designing programs with flexible schedules and providing students opportunities to“earn while you learn”through apprenticeships and other work-based learning programs.We also heard about the need for“wrap-around services”including transportation
98、and affordable and high-quality childcare either on campus or nearby.Such services made the difference between students staying in or leaving the program.A student who participated in our Community College Innovation Challenge(CCIC)Listeningsession attributed his ability to return to collegeto flexi
99、ble scheduling at his local community college.After having been forced to leave a four-year college following his parents bankruptcy,he worked as a teachers aide in K-12 STEM classes.This work experience continued to fuel his passion for STEM.After several years in the workforce,MEETING STUDENTS WHE
100、RE THEY ARE IS CRUCIAL TO DEVELOPING THE SKILLED TECHNICAL WORKFORCETHE SKILLED TECHNICAL WORKFORCE23“It is not about having a college degree.It is about learning the specific skills of being a tech support person.”Lisa Gevelber,Vice President of Global Marketing,Google“There are so many possibiliti
101、es still in the future.There are jobs that havent even been labeled yet.You can create your own job in this field and that is what I love about it.”Erika Bim,Student,Oakton Community CollegeTHE SKILLED TECHNICAL WORKFORCE24THE SKILLED TECHNICAL WORKFORCE25he began studying at a local community colle
102、ge so that he could transition into a career in the aerospace industry.By this time,he also had a family of his own.He credits the structures at his community college for the ability to pursue his studies,participate in extracurricular programs,and connect with industry.Employers play an important r
103、ole in meeting students and workers where they are.We heard from students and employers that human resource departments often require a bachelors degree for work that can be done by someone without a bachelors degree.A few years ago,Google re-examined how it defines“qualified candidates.”For Google,
104、qualified does not always mean having a college degree;it means having the specific skills necessary to do the job.Like Google,other employers have started to re-examine their hiring practices and focus on skills rather than degrees.The importance of meeting people where they are continues even afte
105、r a worker lands his or her first skilled technical job.Lifelong learning is the new standard;this is particularly crucial in the STW fields where technology changes rapidly.As Mike Reichenbach,president of Mike Reichenbach Ford,Lincoln,VW,and Chevrolet of Florence,South Carolina,said,“the type of w
106、orker who is successful in the skilled technical workforce is that individual who understands that the status quo isnt able to be maintained for very long.Either you are moving forward and embrace that change or you find yourself left behind.”24 As the National Academies of Sciences,Engineering,and
107、Medicine have noted,skilled technical workforce development in the United States is decentralized and consists of“many,often competing sources of authority in government,business,civil society,and private life.”25 Students;workers;labor unions and other worker associations;families;educators;industr
108、y associations;employers;as well as government at all levels play a role in educating and preparing the STW.26 Funding for STW education and preparation is equally varied and can include user fees,state and local government resources,philanthropic contributions,and grants.At the federal level alone,
109、STW education and preparation is administered by 43 different government programs across nine different federal agencies,including NSF.27 Greater coordination and partnerships among government,industry,and educational institutions will be crucial to strengthening the STW.As the Board heard from list
110、ening session participants,coordination and partnerships take many forms.Many successful partnerships avoid“one size fits all approaches”and respond to the workforce needs in a specific region or industry.At various listening sessions,the Board learned about a number of thriving partnerships among c
111、ommunity colleges,industry,and four-year colleges and universities.COORDINATION ANDPARTNERSHIPS AMONG STWSTAKEHOLDERS ARE ESSENTIALTHE SKILLED TECHNICAL WORKFORCE26After spending several years in industry as an engineer,Dr.Kevin Cooper,Assistant Dean of Applied Technology at Indian River State Colle
112、ge,saw an opportunity to meet the nuclear industrys workforce needs by developing a standardized curriculum.To develop this curriculum,Dr.Cooper forged partnerships within his institution,and with industry,labor unions,and other community colleges offering similar programs.After a startup period of
113、about five years,the NSF-funded Regional Center for Nuclear Education and Training(RCNET)was educating and delivering technicians into well-paying jobs in nuclear technology.Dr.Cooper subsequently worked with industry to establish the Nuclear Uniform Curriculum Program(NUCP)certificate.Students who
114、graduate from a program that offers the NUCP certificate do so with a nationally recognized credential that gives them access to jobs that can start at$40/hour.Dr.Cooper stresses that forming these partnerships took time,persistence,a willingness to learn from failure,and a commitment to talking wit
115、h students,workers,and industry to design a program that truly meets their needs.THE POWER OF PARTNERSHIPS:STANDARDIZED CURRICULATHE SKILLED TECHNICAL WORKFORCE27Partnerships between bachelors and graduate degree granting universities and community and technical colleges can improve diversity,broade
116、n pathways into higher education,support regional workforce development,and help accelerate the translation of research conducted at universities to market.As Dr.Anand Gramopadhye,Professor and Dean of the College of Engineering,Computing and Applied Sciences at Clemson University,notes,“partnership
117、s provide opportunities for all while making sure our students and workforce are set for success in todays technologically changing landscape.”As a Principal Investigator on an NSF Advanced Technological Education grant that supports the Center for Aviation and Automotive Technological Education Usi
118、ng Virtual E-Schools(CA2VES),Dr.Gramopadhye and his team have cultivated a community of practice that includes numerous community colleges in South Carolina,automotive and aviation industry leaders,and four-year colleges and universities.The state of South Carolina is an important partner in these e
119、fforts.In 2015,the state created theCoordinating Council for Workforce Development.Comprised of members from South Carolinas Department of Commerce,Commission on Higher Education,presidents of research universities and community colleges,school superintendents,and members of the business community,t
120、he Council was charged with coordinating workforce development efforts throughout the state.In addition,South Carolina has appropriated resources to support education and training for in-demand industries and to spread the message about STW pathways.At Clemson,fostering partnerships and connections
121、with industry,technical colleges,and community colleges has proven to be a way to pursue world class research,workforce development,and education while furthering the core mission of this modern,public,research,land-grant university.THE POWER OF PARTNERSHIPS:UNIVERSITIES AND COMMUNITY/TECHNICAL COLL
122、EGESThese partnerships shared the following key ingredients:leveraged familiarity with a region and its industries;secured buy-in from all partners and cultivated champions at the highest levels of the participating organizations;developed a clear sense of the value proposition for all parties invol
123、ved;and committed the time and resources to see their collaborations through to fruition.For example,when visiting the Center for Advanced Automotive Technology(CAAT),an NSF-funded Advanced Technological Education Center at Macomb Community College in Warren,Michigan,the NSB learned about Macombs pa
124、rtnerships with major automakers to educate and prepare auto workers.Automakers play a key role in shaping Macombs programs by providing adjunct faculty for the colleges automotive education/workforce development programs and donating equipment for use in its facilities.Additionally,when Macomb crea
125、ted a new interdisciplinary degree program in vehicle development,it did so by bringing together THE SKILLED TECHNICAL WORKFORCE28content experts who understood the skills and competencies needed in the workplace and the experience of educators at the community college.Establishing the new degree pr
126、ogram took three years and countless meetings between Macomb and industry leaders.According to Bob Feldmaier,a retired auto industry engineer and Director of CAAT,the new degree program would have been“nearly impossible without industry help.”Increasingly,four-year colleges and universities are also
127、 embracing partnerships with community colleges to help support educational and career pathways and fuel local and regional economic development.Working with industry,both two-year and four-year educational institutions are creating integrated learning environments that link education,skill developm
128、ent,and work.Various media and policy reports have identified the focus in recent decades on“college for all”as a barrier to encouraging STW pathways.28 All too often,“college for all”has been equated with the message that a bachelors degree is the only route to a good career.In reality,while some p
129、ost-secondary education has become increasingly necessary to secure a“good job,”not every career track requires a four-year degree.29 The cultural emphasis on four-year educational pathways has created the unintended consequence of portraying two-year and four-year post-secondary educational pathway
130、s as oppositional.As post-secondary educational and workforce pathways become increasingly non-linear,it is crucial that the variety of post-secondary options be discussed,that two-and four-year paths not be placed in opposition,and that the STW be highlighted in discussions of post-secondary educat
131、ional and career options.INCREASE AWARENESS AND UNDERSTANDING OF STW CAREERS AND EMPLOYMENT OPPORTUNITIESMany students with whom the NSB spoke emphasized that lack of information and awareness about STW careers help perpetuate misperceptions and play a significant role in discouraging individuals fr
132、om pursuing skilled technical education and employment.They noted that skilled technical education and pathways were not presented to them in high school as post-secondary education and career options.As a result,a number of students described finding their preferred career opportunity required tech
133、nical education after having begun or completed a four-year degree.In the course of the Task Forces activities,NSB met students who were pursuing skilled technical education by choice.Many noted that they loved the hands-on work with modern technologies,the small classes,the focus on applicable skil
134、ls,and the prospect that their education would lead to immediate employment.As a student in Macomb Community Colleges(MCC)Controls Technician Program explained,his familiarity with Programmer Logic Control(PLC)is widely applicable.“Everyone is switching over to robotics now.”Workers with programming
135、 skills are regularly“fixing robots,programming them,and telling them what to do.Training in PLC opens up avenues to a bunch of opportunities.Once you get into an industry you can start to move up as you know more people.”The narrative around the STW is starting to change.Work-based learning program
136、s,including registered and non-registered apprenticeships,are growing in popularity.Organizations like the American School Counselors Association,the leading professional association for high school counselors,are speaking out about career readiness and building awareness about a range of educationa
137、l and career pathways.Some high schools are re-integrating or building up CTE programs and making them part of the educational offerings for all students.Still other THE SKILLED TECHNICAL WORKFORCE29“You are working on very high-tech systems with excellent pay,excellent benefits,and long-term opport
138、uni-ties.”Bob Feldmaier,Director of the Center for Advanced Automotive Technology,Macomb Community Collegehigh schools are establishing partnerships with local community colleges and industry to create viable and rewarding pathways for students seeking to enter the STW.More and more students and fam
139、ilies are also discovering that the STW is a pathway to well-paying jobs,career opportunities in cutting edge industries,as well as an avenue that can lead to additional post-secondary STEM education.THE SKILLED TECHNICAL WORKFORCE30In the past few years,policymakers,industry,and educational institu
140、tions have taken steps to address changing workforce needs by introducing new policies and programs geared toward the STW.Much of this activity is,however,occurring in the context of limited or siloed data.Addressing data gaps and silos will be essential if the United States is to take a strategic,s
141、ystems-level approach to cultivating the STW.Relative to S&E workers who have earned a bachelors degree or more,the data portrait of the STW remains very limited.We heard from multiple stakeholders about the pressing need for policy-relevant data to address STW-related data gaps,including:How/where
142、skilled technical workers acquire their skills and education.Which programs are most effective at preparing students for the workforce.How people use their skills once they enter the workforce.Longitudinal measurements of how people move from education and workforce preparation programs to their fir
143、st job,and subsequent jobs and/or additional education.Information on the links among post-secondary credentials(degrees,certificates,certifications,badges,micro-credentials),training,and wages.Characterization of the skills that people use in a given occupation.Information on how individuals and em
144、ployers are investing in STW education and skill building.INSUFFICIENT DATA AND DATA COORDINATION CONTRIBUTE TO STW-RELATED CHALLENGESThese data gaps pose a number of challenges.First,the lack of data makes it difficult to assess the supply and demand for skilled technical workers nationally and in
145、local labor markets.This makes workforce planning and national policymaking difficult.Second,it is challenging for policymakers,employers,and educators to design programs and determine how to attract and retain skilled technical workers without information on how people enter the STW,how they mainta
146、in and update their skills,and how they advance along a career pathway.Third,limited data also affect partnership formation.Better information on skill requirements could help spur partnerships between industry and educational entities that are crucial to ensuring that students who complete programs
147、 are job ready.Fourth,the current dearth of reliable,transparent information about job preparation and educational opportunities and outcomes makes it hard for consumers to make informed choices and understand the likely return on their educational investments.The need for such information is becomi
148、ng increasingly vital as post-secondary education and skill development opportunities as well as credentials and certificates proliferate.30 Collecting and disseminating robust data on the STW will be a multi-year effort.It will require the participation of industry,private sector data providers,sta
149、te and local government,and coordination among federal statistical agencies including the Bureau of Labor Statistics,the Census Bureau,National Center for Education Statistics(NCES),and NSFs National Center for Science and Engineering Statistics(NCSES).THE SKILLED TECHNICAL WORKFORCE31The Board is a
150、lso disseminating existing STW data.The 2020 edition of NSBs congressionally-mandated report,Science and Engineering Indicators,will include some data and discussion of the STW.The efforts by NSF,NSB,and federal statistical agencies to improve the data portrait of the STW can enable policymakers,con
151、sumers,industry,and other entities that work to support the STW to channel resources and energy more efficiently.In response to interest from the National Academies Committee on National Statistics,and further motivated by the establishment of theBoards Task Force and the Innovations in Mentoring,Tr
152、aining,and Apprenticeships Act of 2018,NSFs NCSES is working with the Census Bureau and the NCES to develop information and data analysis tools,explore survey and administrative data on the STW,and collect comprehensive information on STW employers.NCSES is also communicating with the Bureau of Labo
153、r Statistics about its data products and how the two federal statistical agencies can work together more effectively.The NSB believes that these efforts are laying the groundwork for creating a coordinated federal approach to addressing STW data gaps.THE SKILLED TECHNICAL WORKFORCE32THE SKILLED TECH
154、NICAL WORKFORCE33In July 2018,Executive Order 13845 established the Presidents National Council for the American Worker(NCAW)to“provide a coordinated process for developing a national strategy to ensure that Americas students and workers will have access to affordable,relevant,and innovative educati
155、on and job training that will equip them to compete and win in the global economy.”This Executive Order also established the American Workforce Policy Advisory Board.In June 2019,the Workforce Policy Advisory Board announced four focus areas:Develop a campaign to promote multiple pathways to career
156、success Increase data transparency to better match American workers to American jobs Modernize candidate recruitment and training practices Measure and encourage employer-led training investmentsAs NCAW tackles near-term employment and workforce development needs,it has independently identified mess
157、aging and data as areas for action.The Administrations convening and coordination power can catalyze national progress on these challenges.NCAWs deep engagement with industry stakeholders is also essential,complementing this reports focus on the role of educational institutions and government.Given
158、that the business sector conducts most of our countrys R&D,attention to skilled technical workers in industry settings is critical.NATIONAL COUNCIL ONTHE AMERICAN WORKERTHE SKILLED TECHNICAL WORKFORCE34CHANGE THE MESSAGEA lack of awareness among students,parents,and mentors about the nature of skill
159、ed technical work and the doors that it opens were recurring themes of Task Force listening sessions.Understanding and countering negative perceptions and raising awareness of the broad range of viable and attractive careers for STEM-capable individuals are crucial to the future of the STW and the U
160、.S.S&E enterprise.We need individuals at all levels to be part of the STEM-capable workforce.RECOMMENDATION:The NSB and NSF,and other S&E leaders should communicate the importance of the STW to our nations S&E enterprise,individual economic prosperity,national security,and U.S.global competitiveness
161、.Key messages include:Skilled technical work is crucial to the nation and the S&E enterprise.The multiple educational pathways into the S&E enterprise are complementary and interdependent.Together they produce the educated,skilled,and diverse workforce the United States needs in todays knowledge-and
162、 technology-intensive world.Skilled technical work is a pathway that can lead in a variety of educational and workforce directions.Pursuit of skilled technical work is about personal preferences and choices.We offer the following recommendations to policymakers and S&E leaders to strengthen the STW
163、and the S&E enterprise.The recommendations presented here are interconnected,each addressing aspects of one or more of the big picture,systemic challenges identified in this report.THE SKILLED TECHNICAL WORKFORCE35FOCUS ON THE DATAIt is critical that policymakers,employers,and individuals considerin
164、g STW education and career pathways have high-quality data and information on the characteristics,educational needs,and career opportunities of the STW.Gathering these data will require additional federal resources,including funding and personnel,as well as coordination across federal statistical ag
165、encies and input from states and industry.These efforts will improve our understanding of STW characteristics and the design of policies,education,and skill development programs,including those developed in response to the Innovations in Mentoring,Training,and Apprenticeships Act of 2018.RECOMMENDAT
166、ION:To understand and begin to address data gaps,NSFs NCSES,with additional federal resources and collaborating with other statistical agencies,should collect nationally representative data on the education,skills,and workforce characteristics of the STW.NSF should promote partnerships between gover
167、nmental and non-governmental(industry,academia)stakeholders in the STW to share data and develop tools for public use and workforce planning.Given the number of federal agencies that address aspects of the STW,an opportunity exists for all federal agencies to think holistically about how to leverage
168、 resources and complement one anothers activities.To do so effectively,a full inventory and understanding of the programs and activities that relate to the STW is needed.THE SKILLED TECHNICAL WORKFORCE36THE SKILLED TECHNICAL WORKFORCE37LEVERAGE THE PORTFOLIO OF FEDERAL INVESTMENTSGiven the number of
169、 federal agencies that address aspects of the STW,an opportunity exists for all federal agencies to think holistically about how to leverage resources and complement one anothers activities.To do so effectively,a full inventory and understanding of the programs and activities that relate to the STW
170、is needed.For example,while the Advanced Technical Education(ATE)program is NSFs best known STW-related program,NSF also makes other STW research and education investments.Research on K-12 STEM education,digital literacy,the future of work,as well as research into effective pedagogy in mathematics a
171、nd computer science at community colleges can all help inform preparation of the STW.A portfolio analysis of NSFs current STW-related investments across all directorates could help the Board and NSF convey to stakeholders NSFs contribution to strengthening the STW,engage in strategic discussions abo
172、ut how these STW investments fit with other parts of NSFs portfolio,and better communicate STW-related funding opportunities to principal investigators.RECOMMENDATION:NSF should conduct a full portfolio analysis of its STW investments.The analysis could publicize and inform stakeholders about the br
173、eadth of NSFs contributions to the STW,build awareness of funding opportunities,and maximize and leverage the impact of these investments.BUILD PARTNERSHIPSA one-size-fits-all approach to creating fruitful,sustainable partnerships does not exist.Partnerships must meet the needs of local employers an
174、d respond to the community,leveraging locally available educational resources at the high school and post-secondary level.For four-year institutions,building partnerships with other local entities(business/industry,high schools,community colleges,state and local governments)provides a way to broaden
175、 participation in higher education and the base of support for the institutional mission.Partnerships can take considerable trust,time,and resources to establish and sustain.Local and state governments,federal policymakers,and funding agencies must support and encourage partnerships formation.RECOMM
176、ENDATION:In strengthening educational pathways for the STW,policymakers and educational institutions should recognize that K-12 school systems,two-year colleges,four-year colleges and universities,and other post-secondary education and workforce development programs are integral,synergistic parts of
177、 a whole.These institutions should work as partners together with business and industry to grow the STEM-capable U.S.workforce via STW programs tailored to the needs of their local communities.Policymakers can encourage the creation of such partnerships by developing federal programs that require pa
178、rtnership participation from stakeholders from multiple sectors.Given the number of federal agencies that address aspects of the STW,an opportunity exists for all federal agencies to think holistically about how to leverage resources and complement one anothers activities.To do so effectively,a full
179、 inventory and understanding of the programs and activities that relate to the STW is needed.LISTENING SESSIONCommunity CollegeInnovation ChallengeAlexandria,VAJune 12,2018LISTENING SESSION Macomb Community CollegeWarren,MI April 19,20182017MARJANAPRAPRJULOCT2018FEBMAYAUGNOVJANMARJUNSEPDECFEBTIMELIN
180、EBOARD MEETINGFirst NSB discussion on the Skilled Technical Workforce ProjectFebruary 21,2017NATIONAL ACADEMIES OFSCIENCES,ENGINEERING,AND MEDICINE REPORT“Building Americas SkilledTechnical Workforce”May 18,2017NSB ACTIVITIESOTHER RELATED ACTIVITIESBOARD MEETINGTask Force on theSkilled TechnicalWork
181、force Establishedand Charge ApprovedNovember 9,2017CONGRESSIONAL HEARING“Innovations in STEM Mentoring,Training,and Apprenticeships”-U.S.House of Representatives,Committee on Science,Space,and TechnologyFebruary 15,2018LISTENING SESSIONSBaton Rouge Community College Listening Session and Xavier Univ
182、ersity Listening SessionBaton Rouge and New Orleans,LAOctober 26,2017NSB POLICY STATEMENT“Our Nations Future Competitiveness Relies on Building a STEM-Capable U.S.Workforce”February 1,2018BOARD MEETING“Grow with Google”PresentationFebruary 22,2018BLUE COLLAR STEM 2017 CONFERENCEBaltimore,MDNovember
183、7,2017CONGRESSIONAL BRIEFING“Blue Collar STEM:The Future of the U.S.Workforce”-Congressional Black Caucus BriefingNovember 7,2017BOARD MEETINGSkilled TechnicalWorkforce PanelAugust 16,2017SENATE HEARING“Closing the Skills Gap and Boosting U.S.Competitiveness”-Senate Committee on Commerce,Science,and
184、 TransportationMarch 29,2017JULYOCT2019MARMAYAUGNOVJANAPRJUNSEPDECFEBMAY JUN JUL AUG SEPLISTENING SESSIONAdvanced Technological Education ConferenceWashington,D.C.October 25,2018NATIONAL SCIENCE BOARD REPORT“The Skilled Technical Workforce:Crafting Americas Science&Engineering Enterprise”September 2
185、019EXECUTIVE ORDER“Establishing the Presidents National Council for the American Worker”July 19,2018DEAR COLLEAGUE LETTERFor NSFs Convergence Accelerator Pilot tracks:“AI and Future Jobs”and“National Talent Ecosystem”March 15,2019LISTENING SESSIONCommunity CollegeInnovation ChallengeAlexandria,VAJun
186、e 12,2018LISTENING SESSION Macomb Community CollegeWarren,MI April 19,2018LISTENING SESSIONFlorence-Darlington Technical CollegeFlorence,SCSeptember 26,2018STEM EDUCATION PLANWhite House Unveils Five-year Strategic Plan-“Charting a Course for Success:Americas Strategy for STEM Education”December 4,2
187、018NATIONAL ACADEMIES OF SCIENCES,ENGINEERING,AND MEDICINE REPORT“Minority Serving Institutions:AmericasUnderutilized Resource for Strengthening theSTEM Workforce”December 13,2018H.R.5509 PASSESInnovations in Mentoring,Training,and Apprenticeships ActDecember 31,2018AMERICAN WORKFORCE POLICY ADVISOR
188、Y BOARD MEETINGRelease of Working Group PrioritiesJune 18,2019BUSINESS-HIGHEREDUCATION FORUMWORKSHOPOn“Reskilling AmericasWorkforce”Alexandria,VASeptember 24-25,2018BLUE COLLAR STEM 2018 CONFERENCEBaltimore,MDNovember 5,2018THE SKILLED TECHNICAL WORKFORCE401THE SKILLED TECHNICAL WORKFORCENSB ACTIVIT
189、IESAPPENDIX1THE SKILLED TECHNICAL WORKFORCE41THE SKILLED TECHNICAL WORKFORCE42o meet its charge,the Task Force undertook a number of activities,including:Stakeholder engagement:The Task Force met with relevant organizations in the Washington,D.C.area,including the Department of Labor,Department of E
190、ducation,the American Association of Community Colleges,NCSES,the Georgetown University Center on Education and the Workforce,and the American School Counselors Association to learn about their work and efforts to strengthen the STW.Listening Sessions:The Board held five listening sessions that incl
191、uded 203 participants from 65 locations dispersed throughout the United States(see Figure on Page 44).Participants shared experiences and insights about the STW in their local and regional communities.Although much of what we heard is documented in a growing body of literature,the workers,students,b
192、usinesses,and educators we met with shared personal stories,providing a compelling human portrait of the challenges and opportunities facing the STW as outlined in the body of this report.More detailed information about the five listening sessions is included below:Baton Rouge Community College(BRCC
193、):BRCC is located in Baton Rouge,Louisiana,in a region where the oil and gas industries fuel some 260,000 jobs.Like many community colleges,Baton Rouge Community College is an essential education center for students entering the skilled technical workforce.Macomb Community College(MCC):MCC is locate
194、d in Warren,Michigan,in the heart of the rejuvenated automobile industry and home to the Center for Advanced Automotive Technology(CAAT),a NSF-funded Advanced Technological Education(ATE)center.CAATs mission is to meet the expanding workforce needs of the automotive industry by increasing the pool o
195、f skilled technical workers in advanced automotive technology including automated and connected vehicles,and vehicle electrification.Community College Innovation Challenge(CCIC):NSFs Community College Innovation Challenge is a two-stage competition in which students use STEM to find innovative solut
196、ions to real-world problems.NSF brings student finalists and their faculty mentors from around the country to Alexandria,Virginia,each year to participate in an Innovation Boot Camp.The Board met with these students and faculty mentors who echoed many of the themes that came to light at BRCC and MCC
197、.Florence Darlington Technical College(FDTC):FDTC is a two-year technical college located in Florence,South Carolina,a region that is home to a variety of industry sectors including advanced manufacturing,advanced materials,aerospace,and automotive.The South Carolina Advanced Technological Education
198、(SCATE)Center of Excellence,located at FDTC,is NSFs longest running ATE initiative.The SCATE Center offers a variety of resources supporting industrial and engineering technology programs and related STEM programs nationwide,including recommendations for faculty development best practices,strategies
199、 for recruiting and retaining students,and methods for effective instruction.THE SKILLED TECHNICAL WORKFORCE43 Advanced Technological Education(ATE)Principal Investigators Conference:NSFs ATE program focuses on educating technicians for the high-technology fields that drive our nations economy.The a
200、nnual ATE conference brings together over 800 people to focus on the critical issues related to advanced technological education.Forty-five participants joined NSBs listening session,which included community college students and faculty,and recent ATE program alums.Participants represented 30 commun
201、ity colleges across the country.The Task Force shared its observations with the public,scientific community,and policymakers through communication pieces,Hill testimony,panel discussions,and a resource website.NSBs activities occurred simultaneously with other federal efforts,such as the National Co
202、uncil for the American Worker,the release of the Administrations five-year STEM Education plan,and congressional legislation focused on the Skilled Technical Workforce.Resources developed from the activities of the NSB Task Force on the Skilled Technical Workforce are available online at https:/www.
203、nsf.gov/nsb/NSBActivities/skilled-technical-workforce.jsp.THE SKILLED TECHNICAL WORKFORCE44Advanced TechnologicalEducation Conference Academia*Translucent circles represent listening session locations*Solid circles represent attendee locationsAcademiaIndustryIndustryGovernmentNon-ProfitNon-ProfitGov
204、ernmentNon-ProfitIndustryIndustryAcademiaAcademiaAcademia455520241Alexandria,Virginia56 Attendees10 Participant Locations Washington,D.C.45 Attendees31 Participant LocationsFlorence,South Carolina40 Attendees9 Participant Locations Warren,Michigan22 Attendees10 Participant Locations Baton
205、 Rouge,Louisiana21 Attendees2 Participant Locations Community CollegeInnovation ChallengeFlorence DarlingtonTechnical CollegeMacombCommunity CollegeBaton RougeCommunity CollegeTHE SKILLED TECHNICAL WORKFORCE45NSF INVESTMENTSIN THE STWAPPENDIX2THE SKILLED TECHNICAL WORKFORCE48(SATA)(Pub.Law.102-476)e
206、xplicitly adding support for the STW to NSFs statutory functions.This legislation directed NSF to award grants to associate-degree granting colleges in order to expand the pool of skilled technicians,increase the productivity of the nations industries,and improve U.S.competitiveness.31 Since then,NS
207、F has helped strengthen the STW through a variety of mechanisms,including:Education and Workforce Development:The Advanced Technological Education(ATE)program,which was a direct response to the SATA legislation,educates highly qualified science and engineering technicians for advanced technology fie
208、lds that drive our nations economy.ATE is NSFs single largest investment in the STW,providing approximately$60-$65 million annually in grants to public,two-year,community and technical colleges.Improving Undergraduate STEM Education(IUSE)supports a suite of investments to addressimmediate challenges
209、 and opportunities facingundergraduate education.IUSE also supports new structures(e.g.organizational changes,new methods for certification or credentialing,course re-conception,cyberlearning,etc.)and functions of undergraduate learning and teaching.Scholarships in Science,Technology,Engineering,and
210、 Mathematics(S-STEM)addresses the need for a high-quality workforce in the STEM disciplines supported by the program and for increased success of low-income,academically talented students with demonstrated financial need who are pursuing associate,baccalaureate,or graduate degrees in STEM.The progra
211、m provides awards to higher education institutions for scholarships and to advance the adaptation,implementation,and study of effective evidence-based curricular and co-curricular activities.Computer Science(CS)For All aims to provide all U.S.students the opportunity to participate in CS and computa
212、tional thinking at the pre-K-12 level.NSFs current solicitation focuses on researcher-practitioner partnerships that foster the research and development needed to bring CS and computational thinking to all schools.Fundamental Research:In March 2019,NSF issued a Dear Colleague Letter inviting proposa
213、ls for convergent research on the topics of“Artificial Intelligence(AI)and the Future of Jobs”and a“National Talent Ecosystem.”The former will support research and development to understand and influence the impact of AI on workers and work and foster lifelong learning.The latter supports research a
214、nd development of innovative approaches for employers to support workers seeking the skills for 21st century work related to AI,data science,predictive analytics,and other technologies of the future.Approaches of interest include re-envisioning the concepts,structures,and technologies needed for emp
215、loyers to support continuous learning for dynamic,digitally-intensive work,and providing access to skilled talent.NSF also funds research relevant to the STW such as research on math pedagogy for non-traditional students,computer science education,and barriers facing women and persons of color n imp
216、ortant element of NSFs mission is to prepare the STEM workforce of the future,including the STW.In 1992,Congress passed the Scientific and Advanced-Technology Act THE SKILLED TECHNICAL WORKFORCE49in STEM.This research is funded through NSFs Directorate on Education and Human Resources(EHR)and NSFs s
217、cience directorates.Infrastructure:NSFs Science of Learning program supports basic research that expands fundamental knowledge about learning principles,processes,and constraints.See also ATE above.Data Collection and Analysis:The National Center for Science and Engineering Statistics(NCSES),a feder
218、al statistical agency housed within NSF,collects high quality data on the S&E enterprise,including statistics related to the education and career pathways of all STEM workers.New NCSES data and analysis on the STW will be included in the 2020 edition of the Boards Science and Engineering Indicators
219、report.Community Building:NSF supports the annual Community College Innovation Challenge(CCIC),a competition in which community college teams use STEM to create solutions for real-world problems.Teams earn full travel support to attend an Innovation Boot Camp in Washington,D.C.and discover how to tr
220、ansform ideas into reality by learning entrepreneurship strategies,customer discovery,start-up business and product developing methodology,and design-centered thinking.NSF INVESTMENTS IN SKILLED TECHNICALWORKFORCE DEVELOPMENTResearchEducational ResearchNSF Convergence Accelerator TracksAI and the Fu
221、ture of JobsInfrastructureAdvanced Technological EducationScience of Learning Data and ToolsData Collection and AnalysisStakeholder Outreach to Identify Data GapsNew National Tradining Education and Private Sector Data SourcesCommunity BuildingCareer Compass ChallengeCommunity College Innovation Cha
222、llengeEducation and Workforce DevelopmentAdvanced Technological EducationS STEMCS for AllCommunityBuildingNCAWSTEM Ed Strategic PlanNSF Strategic Plan FY18-22National Science Boardworkforce reportsPolicy ContextTHE SKILLED TECHNICAL WORKFORCE50The National Science Board wishes to thank the numerous
223、individuals who gave their time and thoughtful input to this report.The Board thanks Victor McCrary,who chaired the Task Force on the Skilled Technical Workforce(STW),and the NSB Task Force members Vicki Chandler,Robert Groves,James Jackson,Carl Lineberger,and Geraldine Richmond who led the developm
224、ent of the report on the Boards behalf.The NSB would also like to acknowledge the current Chair and Vice Chair of the Board,Diane Souvaine and Ellen Ochoa,and former Board Chair Maria Zuber for their vision and leadership on this important and timely policy issue.NSF Director,France Crdova provided
225、insights throughout the process and connected us with resources within NSF and beyond.Staff from the National Science Foundation and NSFs National Center for Science and Engineering Statistics(NCSES)graciously lent their expertise to this report.In particular,Amy Burke,Senior Analyst and author of t
226、he Science and Engineering Indicators 2020 thematic report on the“Science&Engineering Labor Force,”was instrumental in helping to define the STW and provided helpful input on S&E workforce data throughout the process.The Board also wishes to thank Emilda Rivers,Division Director for NCSES;Beethika K
227、han,Program Director for the Science and Engineering Indicators(SEI,Indicators)program;John Finamore,Program Director for the Human Resources Statistics program;and Carol Robbins,Senior Analyst.From the projects inception,Celeste Carter,Program Director of the Advanced Technological Education(ATE)pr
228、ogram in NSFs Division of Undergraduate Education served as an invaluable content expert on community colleges and the skilled technical workforce.James Hamos,Senior Advisor in the Office of the Director,provided helpful guidance throughout the process and Lloyd Whitman,Assistant to the Director for
229、 Policy and Planning,lent his perspective on synergies with other government activities related to the skilled technical workforce.Karen Marrongelle,Assistant Director of the Directorate of Education and Human Resources,and Arthur Lupia,Assistant Director of the Directorate of Social and Behavioral
230、Sciences provided insights into NSFs current investments in the STW.Their feedback on drafts was instrumental in clarifying and strengthening the message and content of this report.The Board would also like to thank the many external experts and stakeholders who spoke with the Task Force and staff:R
231、obin E.Fernkas,Acting Deputy Administrator in the Office of Workforce Investment in the Department of Labor and her staff;Diane Auer Jones,Principal Deputy Under Secretary at the Department of Education;Mary Heiss,Senior Vice President of Academic and Student Affairs and Kent Phillipe,Associate ACKN
232、OWLEDGEMENTSTHE SKILLED TECHNICAL WORKFORCE51Vice President of Research and Student Success at the American Association of Community Colleges;Stephen DeWitt,Deputy Executive Director at the Association for Career and Technical Education;Richard Wong,Executive Director at the American School Counselo
233、r Association;and Anthony Carnevale,Director and Research Professor at the Georgetown University Center on Education and the Workforce and his staff.The Board also benefited from the insights shared by the speakers who presented at Board meetings:Lisa Gevelber,Vice President of Global Marketing at G
234、oogle;Dallas Elleman,Tulsa Community College Graduate and product development engineer at XWorks;Imelda Cossette,Executive Director and Principal Investigator for the National Resource Center for Materials Technology Education and Project;and Matt Glover,Chief Technology Officer at Le-Vel.This repor
235、t could not have been written without the stories and experiences of students,faculty,administrators,business leaders,and government representatives from across the country who participated in the Task Forces Listening Sessions.In particular,the Board would like to thank the faculty and staff at Lis
236、tening Session host institutions,including:Baton Rouge Community College,particularly Laura Younger,Vice Chancellor for Academic and Student Affairs,Jacqueline Jones,Associate Dean and Associate Professor of Learning Resources,Toni Manogin,Vice Chancellor for Academic and Student Affairs(interim);Ma
237、comb Community College,particularly,Bob Feldmaier,Director of the Center for Advanced Automotive Technology and Joseph Petrosky,Dean of the Engineering and Advanced Technology Department;and Florence Darlington Community College,Rick Roberts,Managing Director of the South Carolina Advanced Technical
238、 Education Center of Excellence,Teressa Gardner,Associate Vice President of Southern Institute of Manufacturing Technology(SiMT),and Mike Roth,Vice President of SiMT.The Board would also like to thank the students and faculty who participated in the listening sessions held at the annual ATE Principa
239、l Investigators Conference in Washington,D.C.as well as the inspiring students and faculty who attended the Community College Innovation Challenge Listening Session in Alexandria,Virginia.In additional to Listening Sessions,the Task Force also interviewed skilled technical workers and faculty/staff
240、who support the STW including:David Barker,Lead Systems Engineer at the LIGO Livingston Observatory;Kevin Cooper,Assistant Dean at Indian River State College;and Anand Gramopadhye,Professor and Dean of the College of Engineering at Clemson University.NSB also expresses its thanks to the National Sci
241、ence Board Office staff.Kim Silverman,Kathy Jacquart,DeMonica Parks,Brandon Powell,Ann Bushmiller,Turquoise Bowen,and Kyscha Slater-Williams helped organize and staff our Listening Sessions.Acacia Reed created the NSBs STW webpage.Chris Blair proofread the final draft of this report.NSBs American As
242、sociation for THE SKILLED TECHNICAL WORKFORCE52the Advancement of Science S&T Policy Fellows Mateo Muoz and Christina Maranto supported all aspects of the Task Forces work.Reba Bandyopadhyay brought to the project her knowledge of Indicators and her skills in policy communication.Matthew Wilson play
243、ed a leading role in the project from its inception until he started his detail at the Office of Science and Technology Policy.Elise Lipkowitz guided the report across the finish line with skill and dedication.Nadine Lymn and Brad Gutierrez provided their insights and editorial contributions through
244、out the project.Finally,we thank John Veysey for his guidance and the many roles that he has played in ensuring the Task Forces success.1 National Academies of Sciences,Engineering,and Medicine(NASEM),“Building Americas SkilledTechnical Workforce,”(Washington,D.C.:The National Academies Press,2017),
245、26.2 Task Force on the Skilled Technical Workforce(STW),National Science Board(NSB).3 White House activities include the Presidents National Council for the American Worker and release ofa five-year strategic plan for STEM education in 2018.4 For example,the Business-Higher Education Forums 2019 rep
246、ort,“Reskilling Americas Workforce:Exploring the Nations Future STEM Workforce Needs.”5 National Science Board,“Science and Engineering Labor Force,”Science&Engineering Indicators2020,(forthcoming).The definition for the STW used in the Indicators report builds on the definition introduced in Jonath
247、an Rothwells 2015 publication“Defining Skilled Technical Work.”The National Center for Science and Engineering Statistics(NCSES)has added to Rothwells definition by adding occupations that NCSES designates as S&E and S&E-related.6 Subcommittee on Federal Coordination in STEM Education,“Charting A Co
248、urse for Success:AmericasStrategy for STEM Education,”(Washington,D.C.:NSTC,2018),v.7 As both our 2015 report and the 2017 National Academies of Sciences,Engineering,and Medicinereport on“Building Americas Skilled Technical Workforce”noted,there is intense debate over the nature of labor market shor
249、tages,skills gaps,and mismatches.Labor market shortages in the STEM-capable workforce tend to be specific to field,type of work,and location.In fact,“Building Americas Skilled Technical Workforce”observed that there was not,in the aggregate,a shortage of skilled technical workers in the United State
250、s.The reports authors noted,however,that this did not preclude localized shortages in specific lines of skilled technical work or more widespread shortages in the future.NASEM,“Building Americas Skilled Technical Workforce,”(Washington,D.C.:The National Academies Press,2017),26.8 Ibid.,26.9 NSB,“Sci
251、ence and Engineering Labor Force,”Science&Engineering Indicators 2020,(forthcoming).10 Mark Muro,Jonathan Rothwell,Scott Andes,Kenan Fikri,and Siddharth Kulkarini,“AmericasAdvanced Industries:What They Are and Why They Matter,”(Washington,D.C.:Brookings Institution),4.11 Ibid.,4.12 Ibid.,23.13 For a
252、n overview of Federal investments in STW Education,including the role of the NationalLaboratories,see Daniel Kuehn and Diane Auer Jones,“Sub-baccalaureate STEM Education and Apprenticeship,”(Washington,D.C.:Urban Institute,2018).14 Data collected by the National Center for Education Statistics(NCES)
253、show that in 2017,34.6%ofall persons age 25 and over had a bachelors degree.NCES,Digest of Education Statistics,Table 104.10.“Rates of high school completion and bachelors degree attainment among persons age 25 and over,by race/ethnicity and sex:Selected years,1910 through 2017.”15 NASEM,“Building A
254、mericas Skilled Technical Workforce,”8.16 In 2017,the median earnings of skilled technical workers($45,000)was significantly higher thanthe median earnings of workers with less than a bachelors degree in other occupations($29,000).The unemployment rate for skilled technical workers was 3%rather than
255、 5%for other non-baccalaureate jobs.See NSB,“Science and Engineering Labor Force,”Science&Engineering Indicators 2020(forthcoming).ENDNOTES17 A small number of geographic areas account for a considerable proportion of S&E jobs.Twentymetropolitan areas with the largest S&E employment account for 42%o
256、f nationwide employment in S&E jobs,compared to 31%of employment in all occupations.See NSB,“Science and Engineering Labor Force,”Science&Engineering Indicators 2020(forthcoming).18 NASEM,“Minority Serving Institutions:Americas Underutilized Resource for Strengthening the STEMWorkforce,”(Washington,
257、D.C.:The National Academies Press,2019),1.19 NSB,“Science and Engineering Labor Force,”Science&Engineering Indicators 2020(forthcoming).20 Ibid.21 NCSES defines S&E occupations as occupations that require at least a bachelors level of STEM skills.See NSB,“Science and Engineering Labor Force,”Science
258、 and Engineering Indicators 2018(Alexandria,VA:National Science Board,2018),12.22 Lexi Anderson,“Priority Areas in 2018 Workforce Development Legislation,”Ed Note(blog),October15,2018.23 “Fast Facts 2019,”American Association of Community Colleges,last modified March 2019.24 NSB video,2018.“Industry
259、 Perspectives,”Youtube.25 NASEM,“Building Americas Skilled Technical Workforce,”(2017),39.26 Ibid,39.27 Council of Economic Advisors,“Government Employment and Training Programs:Assessing theEvidence on their Performance,”(Washington,D.C.:CEA,2019),6.28 For a sample of recent media reports on this t
260、opic see:“Post-secondary education:And whowhowill take the road less traveled by?”Minneapolis Star Tribune,May 31,2019;“The Stigma of Choosing Trade School Over College,”The Atlantic,March 2019;“The State of American Trade Schools,”Popular Mechanics,March 2019;“High-Paying Trade Jobs Sit Empty,While
261、 High School Grads Line Up for University,”NPR,April 25,2018;“Spotlight on Vocational Training,”Inside Higher Education,April 25,2017.The National Academies of Sciences,Engineering,and Medicines report,“Building the Skilled Technical Workforce”(2017)also notes this issue on pages 102-103.29 Anthony
262、P.Carnevale,Jeff Strohl,Neil Ridley,and Artem Gulish,“Three Educational Pathways toGood Jobs:High School,Middle Skills,and Bachelors Degree,”(Washington,D.C.:Georgetown University Center on Education and the Workforce,2018).30 Anthony P.Carnevale,Stephen J.Rose,and Andrew R.Hanson,“Certificates:Gate
263、way to GainfulEmployment and College Degrees,”(Washington,D.C.:Georgetown University Center on Education and the Workforce,2012).With funding from the Lumina Foundation,JP Morgan Chase and other major businesses,Credential Engine is tracking the growing landscape of post-secondary credentials.31 Sci
264、entific and Advanced-Technology Act of 1992.ENDNOTESNOTESNOTESTHE SKILLED TECHNICAL WORKFORCE57Photo credits:National Science BoardNSF photos from Advanced Technological Education Impacts 2018-2019 https:/ photo:Matt Heintze/Caltech/MIT/LIGO To download this report,go to:https:/www.nsf.gov/nsb/NSBActivities/skilled-technical-workforce-report.pdf THE SKILLED TECHNICAL WORKFORCE582415 Eisenhower Avenue,Alexandria,VA 22314Phone:(703)292-7000NATIONAL SCIENCE BOARD