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2006-910: TECHNICAL PROBLEM SOLVING WITH MATLAB FOR 21ST
CENTURY ELECTRICAL AND COMPUTER ENGINEERING TECHNOLOGY
PROGRAMS
Paul Lin, Indiana University-Purdue University Fort Wayne
PAUL I-HAI LIN is Professor and Chair of Electrical & Computer Engineering Technology
Department, Purdue University Fort Wayne Campus. He is a registered Professional Engineer
(EE) in the States of California and Indiana. He is a Senior member of IEEE. Lin's current
research interests include sensor networks, Web engineering, and control applications.
Melissa Lin, Exactech
MELISSA C. LIN is an IT project manager of Exactech Inc., Gainesville, FL, and an associate
faculty of Electrical and Computer Engineering Technology department at Indiana
University-Purdue University Fort Wayne. Lin's current interests include distance learning
teaching technology, enterprise data and applications integration, and programming language
applications including Microsoft VB.NET, C#.NET, C++.NET, and Java.
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age 11.1237.1
© American Society for Engineering Education, 2006
!
st
Inorderforengineeringtechnologystudentstocopeandtothriveinthehighlycompetitive21
centuryglobalworld–aworldtransformedbytechnologyandhumaningenuity,itisimportant
forthemtodevelopsuchessentialskillsasinterpersonalandself
directional(emotional
intelligence),creativethinkingandproblemsolving,informationprocessing,effectiveteam
communicationandcollaboration,andeffectivereal
worldcomputingskills.Thispaperexplores
thedesign,implementation,andassessmentofanewcoursecalledProblemSolvingwith
MATLABwhichwasdesignedtousetheMATLABandothercomputerinformationprocessing
st
toolstodevelopstudentscreativeproblemsolvingskillsina21 centurycontextwiththeuseof
relevantandrealworldexamplesandapplicationsintheareasofmathematics,physics,
environment,electrical,electronics,software,andmore.
"# "
Beforeweenteredthe21stcentury,wewitnessedmanytestimoniesandreportscallingforreform
ofoureducationalsystemtoeducateworkforcewithpropersoftandcreativetechnicalskills
neededtocompeteintheglobaleconomy.Theseincludebutnotlimitedto“Testimonyon
st
EducatingOurForcewithTechnologySkillsNeededtoCompeteinthe21 Century,”presented
onMarch24,1998,byJohnR.Reinert,pastPresidentofIEEE
USA,toUnitedStatesHouseof
1
Representatives ,whichstressedthecriticalimportanceofeducation,trainingandlifelong
learningandcalledforthegovernmenttohelpdevelopingthecriticalanalytical,communications
andproblemsolvingskillsthatpeopleneedtosucceedinafastchanging,technologydriven
st 2
workforce;21 CenturyLearningOutcomesProject whichinvolving16communitycolleges
andidentifythefollowing8competencyareas:communication,computation,community,
criticalthinkingandproblemsolving,informationandmanagement,interpersonal,personal,and
st 3
technologyskills;Microsoft’sEducatingthe21 CenturyCitizen–WhitePaper urgestheuseof
21stcenturytoolsincludingcomputers,software,networkingmediatoolsandothertechnologies
todeveloplearningskills(process
orientedandcognitiveskills)including
information/communicationskills,thinking/problemsolvingskills,andinterpersonal/self
directionskills;andin1999,TechnologyAccreditationCommission/AccreditationBoardof
4
EngineeringandTechnology(TAC/ABET)approveditsnewaccreditationcriteriacalledTC2K ,
inwhichthecriterion2–programoutcomesspecifyelevenattributesgraduatesofengineering
technologyprogramsareexpectedtohave:
a. an appropriate mastery of the knowledge, techniques, skills andmoderntoolsoftheir
disciplines,
b.anabilitytoapplycurrentknowledgeandadapttoemergingapplicationsofmathematics,
science,engineeringandtechnology,
c.anabilitytoconduct,analyzeandinterpretexperimentsandapplyexperimentalresultsto P
improveprocesses, age 11.1237.2
d.anabilitytoapplycreativityinthedesignofsystems,componentsorprocessesappropriate
toprogramobjectives,
e.anabilitytofunctioneffectivelyonteams,
f.anabilitytoidentify,analyzeandsolvetechnicalproblems,
g.anabilitytocommunicateeffectively,
h.arecognitionoftheneedfor,andanabilitytoengageinlifelonglearning,
i.anabilitytounderstandprofessional,ethicalandsocialresponsibilities,
j.arespectfordiversityandaknowledgeofcontemporaryprofessional,societalandglobal
issues,and
k.acommitmenttoquality
st
Asweenteredthe21 centuryandexperiencedthechallengesofmorejobsweremoved
overseas.ThecheaplaborcostsofSoutheastAsia(India,Malaysia,andPakistan)arekept
callingmoreandmoreUSemployerswhoareseekingtolowersupportcostsandimproveprofits.
5
In2003,Manufacturing&TechnologyNews reportedthatanunprecedentedhigh
unemploymentrateof6.7percentamongelectricalandelectronicsengineersandanevenhigher
unemploymentrateof8percentamongengineeringmanagersiscreatingagrowinglevelof
anxietywithintheengineeringcommunity.Engineersfearthatthesituationwillnotimprovein
theneartermgiventhelossofsomanymanufacturingplantsandthegrowingtrendto"offshore"
6
engineeringjobs.NationalSocietyofProfessionalEngineers(NSPE) andIEEEalsoraisedthe
issuesthatU.S.firmshaveincreasinglyutilizedoffshoreengineeringworkersfromcountries
withloweroverheadtoprovidedrafting,design,andotherservices.FortheAmerica’stechnical
workforce,thatmeansthebarforentry
levelpositionsisrisingorthesamepositionsare
disappearingcompletely.Whatcanwedotoavoidlosingouttooffshoreoutsourcing?
Asresponsibleengineeringtechnologyeducators,weneedtostaycompetitiveand
st
preparestudentstocopeandtothriveinthehighlycompetitive21 centuryglobalworld
–aworldtransformedbytechnologyandhumaningenuity.Itiscriticallyimportantfor
themtoapplycurrentbasicskillsets,aswellasdevelopsuchnewessentialskillsas
interpersonalandself
directional(emotionalintelligence),creativethinkingandproblem
solving,informationprocessing,effectiveteamcommunicationandcollaboration,and
effectivereal
worldcomputingskills.Inaddition,theyneedtounderstandthe
management,financial,business,environmental,economicandsocialconstraintsin
whichtechnicalprofessionalsandengineersoperate.
Problemsolvingskillappearsinmanypositionpapersandreportsasanimportantskill
neededbynewworkforce.Toaddressthischallenge,educatorsarerevisingcurriculatoinclude
integratedlearningenvironmentswhichencouragelearnerstousehigherorderthinkingskills,
7
andinparticular,problemsolvingskills .TheCPET190ProblemSolvingwithMATLAB,atwo
credithourscourse,wascreatedinfall2004asaresultofthecontinuingprogramimprovement
process8.ItisintendedtomeetABETEngineeringTechnologyTC2Kcriterion2fwhich
requiresthatanengineeringtechnologyprogrammustdemonstratethatgraduateshaveanability
toidentify,analyze,andsolvetechnicalproblems.Figure1,acause
effectdiagram,showsthat
theASElectricalEngineeringTechnologyprogramoutcomes1through7leadtothe
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achievementoftheASEETprogrameducationalobjective,wheretheCPET190Problem age 11.1237.3
SolvingwithMATLABandECET296ElectronicsSystemFabricationarethetwocourses
identifiedtofulfillASEETProgramOutcomes5.AllECETstudentsarerequiredtotakeCPET
190,inthesecondsemester,whichexposesstudentstocreativetechnicalproblemsolving
practicethatwillbepartoftheirdailylivesandfuturecareers.
ASEETProg.Outcomes1: ASEETProg.Outcomes3:
Thegraduateswillhavetheknowledge, Thegraduateswillhavetheabilityto
techniques,andskillsincomputer applycreativityinelectronicsfabrication,
programs,electronicsdevices,andcircuit circuitlayoutanddesignwithconstraints
analysistosucceedasanelectronic ofprofessional,ethical,andsocial
orcomputertechnician.(Itemsa,b) responsibilities.(Itemsd,h,I,j)
ASEETProg.Outcomes2: ASEETProg.Outcomes4: EETProgEdObj1:
Thegraduateswillhavetheabilityto Thegraduateswillbepreparedto
conductandanalyzeexperimentsand workeffectivelyonanengineering Knowledge,Skills,and
applytheresults.(Itemc) team.(Iteme) TechniquesintheBuilding,
Testing,Operation,and
MaintenanceofElectronic/
ComputerSystems
EETProgEdObj2:
HavetheKnowledgeand
abilitytocontinuelearning:
ASEETProg.Outcomes5: ASEETProg.Outcomes6: ASEETProg.Outcomes7: On
Job,orinaB.S.degree
Thegraduateswillhavethe Thegraduateswillbeableto Thegraduateswillbeprepared program
abilitytoidentify,analyze, prepareandpresent tofurtherstudytowardabaccalaureate
andsolvetechnicalproblems. writtenandoraltechnical orforentryintotheelectronics
(Itemf) reportsatthelevelsof professionasanelectronicor
technician.(Itemg) computertechnician.(Itemsh,k)
Figure1.TheCause
EffectDiagram
ASElectricalEngineeringTechnologyProgram
Thispaperisorganizedasfollows.SectionIIservesasanintroductiontotechnicalproblem
solvingprocess.SectionIIIdiscussescoursedesign,computertools,anddeliverymethod.
SectionIVpresentssometechnicalproblemsolvingexamplesusedinthecourse.SectionV
assessesofthecourseoutcomes.SectionVIdrawstheconclusion.
""#
Itisobservedthattheproblemsolvingmodelsdevelopedinthe1960sand70sthatarestillused
withmanygeneralproblemsolvingcoursesfoundinacademicaretoteachmathproblemsolving
asathinkingskill,notintegratedwiththerestofthecurriculumorworkenvironment.
Throughthiscourse,studentswilllearnaboutthecomputer
basedproblemsolvingonindividual
andteam
basedtechnicalproblems,byexperiencingseveralindependentandoverlappingstages,
including:
1) Problemstatement
2) AnalyzetheproblemstatementandPlaninputsandoutputs
3) Designsolutionoralgorithm
4) Implementthesolution(programming)
5) Verifyingthesolution
6) Document/reportwriting
7) Presentthesolution
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Theiterativetechnicalproblem
solvingprocessasshowninFigure2isusedinthiscourse. age 11.1237.4
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