Decision Making in Systems Engineering and Management

Decision Making in Systems Engineering and Management

Parnell, Gregory S.; Driscoll, Patrick J.; Henderson, Dale L.

John Wiley & Sons Inc

10/2022

576

Dura

Inglês

9781119901402

15 a 20 dias

666

Descrição não disponível.
List of Figures xiii

List of Tables xxiii

1 Working with Systems 1

1.1 Introduction 1

1.2 The Systems Engineering Perspective 7

1.2.1 Systems Trends That Challenge System Engineers 8

1.2.2 Fundamental Tasks of Systems Engineers 12

1.2.3 Relationship of Systems Engineers to Other Engineering Disciplines 14

1.2.4 Education, Training, and Knowledge of Systems Engineers 15

1.3 Systems thinking 17

1.4 System life cycles 20

1.4.1 System life cycle model 23

1.5 Other major system life cycle models 29

1.6 Systems Decision Process (SDP) 34

1.7 Stakeholders and Vested Interests 39

References 47

2 Applied Systems Thinking 51

2.1 Holism Framing

Systems 51

2.1.1 Systems versus Analytic Thinking 54

2.1.2 Check on Learning 56

2.2 Element Dependencies 57

2.2.1 Check on Learning 58

2.3 Expansive and Contractive Thinking 59

2.3.1 Check on Learning 60

2.4 Structure 61

2.5 Classifying Systems 68

2.6 Boundaries 69

2.7 Visibility and Spatial Arrangement 72

2.7.1 Visibility 72

2.7.2 Spatial Arrangement 74

2.7.3 Check on Learning 76

2.8 Evolution and Dynamics 77

References 81

3 System Representations 83

3.1 Introduction 83

3.2 System Model Concepts 84

3.2.1 What Models Are 85

3.2.2 Role of Models in Solution Design 86

3.2.3 Qualities of useful models 87

3.2.4 Building System Models 89

3.2.5 Characteristics of models 95

3.2.6 Exercise the Model 96

3.2.7 Revise the model 97

3.3 Systemigrams 98

3.3.1 Systemigram Rules 99

3.4 Directional Dependency (D2) Diagrams 102

3.4.1 D2 diagrams into math representations 103

3.5 DSM and DMM Models 107

3.5.1 Dependency Structure Matrix (DSM) 108

3.5.2 System Adjacency Matrices 114

3.5.3 Check on Learning 120

3.5.4 Domain Mapping Matrix (DMM) 120

3.6 System Dynamics 122

3.7 IDEF0 Models 129

3.8 Simulation Modeling 138

3.8.1 Analytical Methods versus Simulation 138

3.8.2 Check on Learning 143

3.9 Determining Simulation Sample Size 143

References 147

4 The Systems Decision Process 151

4.1 Introduction 151

4.2 Value versus Alternative Focused Thinking 151

4.3 The SDP in Detail 154

4.3.1 The System Environment 156

4.3.2 When to Use the Systems Decision Process 159

4.3.3 Check on Learning 161

4.4 The Role of Stakeholders 164

References 169

5 Problem Definition 171

5.1 Purpose of the Problem Definition Phase 171

5.1.1 Comparison with Other Systems Engineering Processes 173

5.2 Research and "What is?" 174

5.2.1 Check on Learning 178

5.3 Stakeholder Analysis 179

5.3.1 Techniques for Stakeholder Analysis 181

5.3.2 At Completion FCR

Matrix 195

5.4 Requirements Analysis 197

5.4.1 Margins 201

5.5 Functional Analysis 204

5.6 Assessing System Readiness 213

5.7 Initial Risk Assessment 218

5.7.1 Risk identification 219

5.7.2 Risk Mitigation 229

References 231

6 Value Modeling 235

6.1 Introduction 235

6.2 Qualitative Value Modeling 239

6.2.1 Measures 242

6.3 Quantitative Value Model 249

6.3.1 Value Functions 251

6.3.2 Value Increment Method 256

6.3.3 Weighting Options 259

References 275

7 Solution Design 277

7.1 Introduction 277

7.2 Ideation Techniques 279

7.2.1 Brainstorming 279

7.2.2 Brainwriting 282

7.2.3 Design Thinking 282

7.2.4 Affinity Diagramming 284

7.2.5 Delphi 285

7.2.6 Groupware 287

7.2.7 Lateral and Parallel Thinking and Six Thinking Hats 287

7.2.8 Morphology 287

7.2.9 EndsMeans

Chains 289

7.2.10 Other Ideation Techniques 289

7.3 Screening and Feasibility 291

7.4 Improving Candidate Alternatives 296

7.4.1 Design of Experiments 299

7.4.2 Fractional factorial design 304

7.4.3 Pareto analysis 312

References 315

8 Costing Systems 317

8.1 Introduction 317

8.2 Types of Costs 323

8.3 Cost Estimating Techniques 324

8.3.1 Estimating by Analogy 325

8.3.2 Parametric Estimation Using Cost Estimating Relationships 326

8.3.3 Learning Curves 339

8.4 Time Effects on Cost 345

8.4.1 Time Value of Money 345

8.4.2 Inflation 346

8.4.3 Net Present Value 348

8.4.4 Breakeven Analysis and Replacement Analysis 350

References 353

9 Decision Making via Tradespace Analysis 355

9.1 Introduction 355

9.2 Tradespace Properties 358

9.3 Scoring Solution Alternatives 360

9.4 Scoring Options 363

9.4.1 Candidate Systems Scoring 364

9.4.2 Candidate Components Scoring 367

9.5 Tradespace Analysis on Scoring Results 372

9.5.1 Analyzing Sensitivity on Weights 377

9.5.2 Sensitivity Analysis on Weights Using Excel 379

9.6 Applying Valuefocused

Thinking 380

9.6.1 Improving nonDominated

Alternatives 384

9.6.2 Improving Dominated Alternatives 385

9.7 Supporting the Tradespace Decision 386

9.8 Use valuefocused

thinking to improve solutions 388

9.8.1 Decision Analysis of Dependent Risks 389

9.9 Reporting and Decision Handoff 392

9.9.1 Developing the Report 392

9.9.2 Developing the Presentation 393

9.9.3 Presenting Analysis Results 394

9.9.4 Concluding the Presentation 395

9.9.5 Using a Storyline Approach 396

References 399

10 Stochastic Tradespace Analysis 401

10.1 Introduction 401

10.2 Uncertainty Concepts 403

10.3 Flaw of Averages Considerations 406

10.4 Uncertainty Distributions 409

10.5 Monte Carlo Uncertainty Simulation 410

10.6 Cost Uncertainty Modeling 413

10.7 Realization Analysis 417

10.7.1 Level 1 Analysis Choice

Set Reduction 419

References 429

11 System Reliability 433

11.1 Modeling System Reliability 433

11.2 Math Models in Reliability 434

11.2.1 Common Continuous Reliability Distributions 438

11.2.2 Common Discrete Distributions 444

11.2.3 Check on Learning 446

11.3 Reliability Block Diagrams 446

11.3.1 Series System 449

11.3.2 Parallel System 454

11.3.3 Combined Series and Parallel RBD 455

11.3.4 Koutof

N Systems 456

11.3.5 Complex Systems 456

11.4 Component Reliability Importance Measures 458

11.4.1 Importance Measure for Series System 459

11.4.2 Importance Measure for Parallel System 461

11.4.3 Check on Learning 463

11.5 Allocating and Improving Reliability 463

11.5.1 Check on Learning 465

11.6 Markov models of repairable systems 465

11.6.1 Kolmogorov Differential Equations 466

11.6.2 Transient Analysis 466

11.6.3 Steady State Analysis 468

11.6.4 CTMC Models of Repairable Systems 469

11.6.5 Modeling Multiple Machine Problems 471

References 477

12 Solution Implementation 479

12.1 Introduction 479

12.2 Solution Implementation Phase 481

12.3 The Initiating Process 483

12.4 Planning 485

12.5 Executing 488

12.6 Monitoring and Controlling 489

12.7 Closing 492

12.8 Implementation During Life Cycle Stages 492

12.8.1 Implementation in "Produce the System" 492

12.8.2 Implementation in "Deploy the System" 494

12.8.3 Implementation in "Operate the System" 496

12.8.4 Check on Learning 499

References 503

13 EpilogueProfessional

Practice 505

13.1 Systems Engineering Activities 507

13.2 Working with the systems development team 510

13.3 Building an Interdisciplinary Team 513

13.4 Systems engineering responsibilities 517

13.5 Roles of the Systems Engineer 524

13.6 Characteristics of the Ideal Systems Engineer 525

13.7 Summary 526

References 527

Appendix A: Realization Analysis Levels 0 and 2 529

A.1 Level 0 Analysis Refined

Choice Set Identification 530

A.2 Level 2 Analysis Postselection

Insights 533

References 537

Appendix B: Software Fundamentals 539

B.1 SystemiTool 539

B.2 Cambridge Advanced Modeller (CAM) 540

B.3 Mathematica 542

B.4 Gephi 543

B.5 Vensim PLE 544

B.6 SIPmath 545

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Systems engineering decision making; systems thinking; systems engineering textbook; systems engineering guide; systems thinking textbook; systems thinking applications; applied systems thinking; system representations; holism; multi-criteria value modeling