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Managing technology and product development programmes : a framework for success PDF

280 Pages·2019·4.479 MB·English
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(cid:2) ManagingTechnologyandProductDevelopmentProgrammes (cid:2) (cid:2) (cid:2) (cid:2) Managing Technology and Product Development Programmes AFrameworkforSuccess PeterFlinn Ashbourne,UK (cid:2) (cid:2) (cid:2) (cid:2) Thiseditionfirstpublished2019 ©2019JohnWiley&SonsLtd Allrightsreserved.Nopartofthispublicationmaybereproduced,storedinaretrievalsystem,or transmitted,inanyformorbyanymeans,electronic,mechanical,photocopying,recordingor otherwise,exceptaspermittedbylaw.Adviceonhowtoobtainpermissiontoreusematerialfrom thistitleisavailableathttp://www.wiley.com/go/permissions. TherightofPeterFlinntobeidentifiedastheauthorofthisworkhasbeenassertedinaccordance withlaw. RegisteredOffices JohnWiley&Sons,Inc.,111RiverStreet,Hoboken,NJ07030,USA JohnWiley&SonsLtd,TheAtrium,SouthernGate,Chichester,WestSussex,PO198SQ,UK EditorialOffice TheAtrium,SouthernGate,Chichester,WestSussex,PO198SQ,UK Fordetailsofourglobaleditorialoffices,customerservices,andmoreinformationaboutWiley productsvisitusatwww.wiley.com. Wileyalsopublishesitsbooksinavarietyofelectronicformatsandbyprint-on-demand.Some contentthatappearsinstandardprintversionsofthisbookmaynotbeavailableinotherformats. LimitofLiability/DisclaimerofWarranty Whilethepublisherandauthorshaveusedtheirbesteffortsinpreparingthiswork,theymakeno representationsorwarrantieswithrespecttotheaccuracyorcompletenessofthecontentsofthis workandspecificallydisclaimallwarranties,includingwithoutlimitationanyimpliedwarranties ofmerchantabilityorfitnessforaparticularpurpose.Nowarrantymaybecreatedorextendedby salesrepresentatives,writtensalesmaterialsorpromotionalstatementsforthiswork.Thefact thatanorganization,website,orproductisreferredtointhisworkasacitationand/orpotential (cid:2) sourceoffurtherinformationdoesnotmeanthatthepublisherandauthorsendorsethe (cid:2) informationorservicestheorganization,website,orproductmayprovideorrecommendationsit maymake.Thisworkissoldwiththeunderstandingthatthepublisherisnotengagedin renderingprofessionalservices.Theadviceandstrategiescontainedhereinmaynotbesuitable foryoursituation.Youshouldconsultwithaspecialistwhereappropriate.Further,readersshould beawarethatwebsiteslistedinthisworkmayhavechangedordisappearedbetweenwhenthis workwaswrittenandwhenitisread.Neitherthepublishernorauthorsshallbeliableforanyloss ofprofitoranyothercommercialdamages,includingbutnotlimitedtospecial,incidental, consequential,orotherdamages. LibraryofCongressCataloging-in-PublicationData Names:Flinn,Peter,1948-author. Title:Managingtechnologyandproductdevelopmentprogrammes:aframework forsuccess/Mr.PeterFlinn,Ashbourne,UK. Description:Hoboken,NJ:JohnWiley&Sons,Inc.,2019.|Includes bibliographicalreferencesandindex.| Identifiers:LCCN2018044854(print)|LCCN2018046236(ebook)|ISBN 9781119517269(AdobePDF)|ISBN9781119517252(ePub)|ISBN9781119517245 (hardcover) Subjects:LCSH:Newproducts. Classification:LCCTS170(ebook)|LCCTS170.F552019(print)|DDC 658.5/75–dc23 LCrecordavailableathttps://lccn.loc.gov/2018044854 CoverDesign:Wiley CoverImage:©AlexanderSupertramp/Shutterstock Setin10/12ptWarnockProbySPiGlobal,Chennai,India PrintedandboundbyCPIGroup(UK)Ltd,Croydon,CR04YY 10 9 8 7 6 5 4 3 2 1 (cid:2) (cid:2) v AbouttheAuthor PeterFlinnisaBritishengineerwhooriginallystudiedmechanicalsciencesat the University of Cambridge. He also has an MBA and studied international managementatHarvardUniversity.HeisaFellowoftheInstitutionofMechan- icalEngineers. Duringhiscareer,heworkedintheaerospace,commercialvehicle,rail,and processindustriesholdingchiefengineer,headofengineering,andmanaging director positions within international organisations. In recent years, he has ledthecreationoftheManufacturingTechnologyCentreinCoventry,andthe (cid:2) AerospaceTechnologyInstituteinCranfield,bothintheUnitedKingdom. (cid:2) Throughouthisnearly50-yearcareer,hehastakenakeen,practicalinterest inthesubjectofthisbook–howtodeveloptechnologyandproducts.Hehas directexperienceoftechnologyresearchworkthroughallphasesofdevelop- menttomanufacturingmanagement.Thecontentisbasedonthisexperience and, in particular, on what does or does not produce successful results. He hopesthatthecontentofthebookwillproveusefultoengineers,technologists, andinvestorsinthesefields. (cid:2) (cid:2) vii Contents 1 Introduction 1 1.1 WhyWriteThisBook? 1 1.2 ImportanceoftheProductDevelopmentProcess 3 1.3 PerspectiveofThisBook 3 1.4 IntendedReadership 4 1.5 Science,Technology,Innovation,Engineering,andProduct Development 4 (cid:2) 1.6 TheChangingNatureofEngineering 5 (cid:2) 1.7 TheFourthIndustrialRevolution 7 1.8 ScopeofThisBook 7 1.9 StructureofThisBook 8 1.10 ReadingSequence 10 References 10 2 EngineeringasaProcess 13 2.1 Background 13 2.2 TheBasicComponentsoftheProcess 13 2.3 ExpenditureonResearchandDevelopment 15 2.4 EconomicReturnsfromR&DWork 17 2.5 ScienceasthePrecursorofTechnology 18 2.6 IterationastheHeartoftheProcess 19 2.7 ImpactofLow-CostComputing 20 2.8 ANonlinearProcess? 20 2.9 Multiple,ParallelActivities 21 2.10 RightFirstTimeversusIteration 22 2.11 LeanThinkingApproach 22 2.12 CostofProblemResolution 23 2.13 RiskversusTime 24 2.14 CreativityversusRiskManagement 26 2.15 EarlyDetectionofProblems 28 (cid:2) (cid:2) viii Contents 2.16 ManagementofChange 28 2.17 ManagementofLearning 29 2.18 GovernanceoftheProcess 30 2.19 FormalQualityManagementSystems 30 2.20 ConcludingPoints 31 References 32 3 EvaluatingtheMaturityofDevelopingTechnology 35 3.1 Background 35 3.2 OriginsofTechnologyReadinessMeasurement 36 3.3 PurposeofTechnologyMaturityAssessment 37 3.4 UsersofTechnologyMaturityAssessment 37 3.5 WhatIsTechnologyMaturity? 38 3.6 TechnologyReadinessLevel(TRL)Structure 38 3.7 PhasesofTechnologyReadiness 40 3.8 The‘ValleyofDeath’ 42 3.9 ManufacturingReadinessLevel(MRL)Structure 43 3.10 ProgressingthroughtheScales–SomePracticalPoints 43 3.11 InternationalStandards 48 3.12 AssessmentofTRLandMRLLevels 49 (cid:2) (cid:2) 3.13 SynchronisingTechnologyandManufacturingMaturity 52 3.14 LimitationsofTechnologyMaturityAssessment 53 3.15 ConcludingPoints 54 References 54 4 AligningTechnologyDevelopmentwithBusinessand ManufacturingStrategy 57 4.1 Introduction 57 4.2 BusinessContext 57 4.3 BasisofCompetition 59 4.4 TheValueProposition 60 4.5 IndustryStructure 62 4.6 RoutestoCommercialisation 63 4.7 SatisfyingaRangeofCustomers 65 4.8 LinkingtoManufacturingStrategy 66 4.9 CorePrinciplesofManagingtheInterface 66 4.10 DesignforManufactureMethodologies 67 4.11 DesignforNewMethodsandMaterials 69 4.12 DesignforConnectivity–InternetofThings 70 4.13 DesignforEnvironmentalConsiderations 70 4.14 ConcludingPoints 71 References 72 (cid:2) (cid:2) Contents ix 5 PlanningandManagingtheWork 73 5.1 Introduction 73 5.2 TheBasics 74 5.3 DifferentApproaches 75 5.4 DifferentFormsofProject 75 5.5 TheProjectMandateorCharter 76 5.6 ProjectDescription 77 5.7 TimingCharts 78 5.8 MilestoneCharts 80 5.9 RiskManagement 82 5.10 ResourcePlanning 84 5.11 ProjectContingency 86 5.12 OrganisingforProjects 87 5.13 MonitoringSmallProjectsorSubprojects 89 5.14 ApprovalandFormalMonitoringofLargeProjects 90 5.15 ProjectManagementversusTechnologyMaturityAssessment 93 5.16 ConcludingPoints 93 References 93 6 DevelopingtheConcept 95 (cid:2) 6.1 Introduction 95 (cid:2) 6.2 KeyElementsoftheProcess 96 6.3 TechnologyRoadmapping 98 6.4 OpenInnovation 99 6.5 ConceptDevelopment 100 6.6 IndustrialDesign 102 6.7 KeySuccessFactors 102 6.8 IdentifyingandMeetingCustomerNeeds 103 6.9 CustomerDataGathering 104 6.10 WhoIstheCustomer? 106 6.11 LinkingDetailedDesigntoCustomerNeeds 106 6.12 EnsuringaRobustDesign–TaguchiMethods 109 6.13 TechnologyandManufacturingDevelopmentattheConcept Stage 111 6.14 EconomicEvaluation 112 6.15 ProtectingIntellectualProperty 112 6.16 FundingofEarly-StageWork 114 6.17 ConcludingPoints 114 References 114 7 IdentifyingandManagingEngineeringRisks 117 7.1 Introduction 117 7.2 IdentificationofRisks 118 (cid:2) (cid:2) x Contents 7.3 Risk-BasedApproach 119 7.4 SourcesofEngineeringRisk 121 7.5 QualitativeRiskAssessmentMethodologies 122 7.6 FaultTreeAnalysis 124 7.7 HazardandOperabilityReviews–HAZOP 126 7.8 QuantitativeRiskAssessment 128 7.9 FunctionalSafety 128 7.10 AsLowasReasonablyPracticable 130 7.11 SafetyCases 132 7.12 StretchingtheBoundaries 132 7.13 ConcludingPoints 134 References 135 8 ValidationbyModellingandPhysicalTesting 137 8.1 Introduction 137 8.2 PurposeofDevelopmentandValidationWork 138 8.3 Methods 139 8.4 ValidationandTestProgrammes 139 8.5 EngineeringCalculation 140 8.6 ModellingandSimulation 141 (cid:2) 8.7 PhysicalTesting 143 (cid:2) 8.8 PrototypesNotPossible? 146 8.9 PhysicalTestandLaboratorySupportFacilities 147 8.10 CorrelationofModellingandTesting 148 8.11 AssessmentofServiceability 148 8.12 SoftwareDevelopmentandValidation 149 8.13 ReliabilityTesting 150 8.14 CorrectiveActionManagement 152 8.15 FinancialValidation 153 8.16 ConcludingPoints 154 References 156 9 EngineeringDelivery 157 9.1 Introduction 157 9.2 FormsofInformationOutput 158 9.3 ConnectedProducts–InternetofThings 159 9.4 DetailedDesign 159 9.5 HandlingtheInterfaces 161 9.6 CostofDelayedProgrammes 162 9.7 PlanningandDecision-Making 162 9.8 SpecialisedResources 164 9.9 FlowofInformation 165 9.10 TheImportanceofGoodSystems 166 (cid:2) (cid:2) Contents xi 9.11 TheRoleofStandardsandDesignCodes 166 9.12 TrackingProductCostandInvestment 167 9.13 KnowingWhentoStop 168 9.14 SigningOfftheProduct 169 9.15 ExamplesofGoodandBadPractice 169 9.16 ConcludingPoints 171 References 172 10 FundingtheProgramme 173 10.1 Introduction 173 10.2 InternalFunding 174 10.3 FriendsandFamilyFunding 175 10.4 AngelInvestors 176 10.5 VentureCapitalFunding 177 10.6 PrivateEquityFunding 177 10.7 EquityCrowd-Funding 178 10.8 BankLending 178 10.9 Peer-to-Peer(P2P)Lending 179 10.10 PublicFundingofEarly-StageWork 179 10.11 PublicDevelopmentFacilities 181 (cid:2) 10.12 BusinessPlans 182 (cid:2) 10.13 ConcludingPoints 182 References 183 11 RunningTeamsandWorkingwithPartners 185 11.1 Introduction 185 11.2 WorkingCollaboratively 186 11.3 TeamComposition 187 11.4 TeamDevelopment 188 11.5 WorkingwithPartners 189 11.6 WorkingInternationally 191 11.7 WorkingVirtually 192 11.8 LeadershipofTechnologyandProductDevelopmentProjects 193 11.9 PersonalityTraits 194 11.10 SelectingPeople 196 11.11 DevelopingPeople 198 11.12 ConcludingPoints 199 References 200 12 Decision-MakingandProblemSolving 201 12.1 Introduction 201 12.2 DecisionstobeTaken 202 12.3 CriticalThinking 202 (cid:2) (cid:2) xii Contents 12.4 System1andSystem2Thinking 203 12.5 HumanBarrierstoDecision-Making 204 12.6 EastversusWest 205 12.7 StatisticalThinking 207 12.8 ApplicationtoManagementProcesses 209 12.9 ProblemSolving–A3Method 210 12.10 CreativeProblemSolving–TRIZMethod 214 12.11 ConcludingPoints 216 References 216 13 ImprovingProductDevelopmentPerformance 219 13.1 Introduction 219 13.2 WhatTypeofOrganisationAreWeDealingWith? 219 13.3 StructuringImprovementandChangeInitiatives 220 13.4 DiagnosingtheCurrentSituation–GeneratingUrgency 221 13.5 OrganisingaWayForward–TheLeadershipRole 223 13.6 DevelopingtheStrategyandVision 223 13.7 CommunicatingtheVision 224 13.8 EmpoweringtheOrganisation 225 13.9 GeneratingShort-TermWins 226 (cid:2) (cid:2) 13.10 Longer-Term,PermanentChange 227 13.11 AchievingPermanence 228 13.12 ModelofGoodPractice–ToyotaProductDevelopment System 229 13.13 ModelsofGoodPractice–AgileSoftwareDevelopment 230 13.14 ConcludingPoints 232 References 232 14 Summary,ConcludingPoints,andRecommendations 235 14.1 TheRationaleforThisBook 235 14.2 TheEngineeringProcess 236 14.3 TechnologyMaturity 237 14.4 AligningTechnologywithBusinessNeeds 238 14.5 PlanningtheWork 239 14.6 CreatingtheConcept 240 14.7 IdentifyingandManagingRisks 241 14.8 Validation 242 14.9 EngineeringDelivery 243 14.10 FundingtheProgramme 244 14.11 RunningTeamsandWorkingwithPartners 245 14.12 CriticalThinking 246 14.13 ImprovingProductDevelopmentPerformance 248 (cid:2)

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