Thursday, August 8, 2024

SIE 250: Introduction to Systems and Industrial Engineering - University of Arizona

Fall 2024 - Classes begin August 26, 2024.

https://nraoiekc.blogspot.com/2019/08/university-of-arizona-industrial.html


SIE 250: Introduction to Systems and Industrial Engineering

SIE 250 Fall Syllabus (PDF), SIE 250 Spring Syllabus (PDF)

Units: 3

System modeling the elementary constructs and principles of system models including discrete-time, discrete-state system theory; finite state machines; modeling components, coupling, modes, and homomorphisms system design; requirements, life-cycle, performance measures and cost measures, tradeoffs, alternative design concepts, testing plan, and documentation. Applications and case studies from engineering.


Prerequisite(s): ENGR 102, MATH 129

Usually offered: Fall, Spring

https://sie.engineering.arizona.edu/undergrad-programs/courses


SIE 250- Introduction to Systems and Industrial Engineering

Fall 2023, University of Arizona


Instructors: Dr. Mike Kwinn

Office: ENGR 103

Email: kwinnm at the rate @arizona.edu



Dr. Tomas Cerny

Office: ENGR 122

Email: tcerny at the rate @arizona.edu

Teaching Assistant: Ryan Ford ryanford at the rate @arizona.edu


Catalog description: System modeling; the elementary constructs and principles of systemmodels including discrete time, discrete-state system theory; finite state machines; modeling components, system coupling, and system experiments (simulation). System design including requirements, lifecycle, performance measures and cost measures, tradeoffs, alternative design concepts, testing plan, and documentation. Applications and case studies from engineering.

https://sie.engineering.arizona.edu/sites/sie.engineering.arizona.edu/files/syllabus/SIE250-Syllabus-F23.pdf



Prerequisite(s): MATH 129

Textbook (required):

 Kossiakoff, Alexander; Sweet, William; Seymour, Samuel; Biemer,

Steven, Systems Engineering Principles and Practice.



LIST OF ILLUSTRATIONS xiii

LIST OF TABLES xvii

PREFACE TO THE SECOND EDITION xix

PREFACE TO THE FIRST EDITION xxiii

PART I FOUNDATIONS OF SYSTEMS ENGINEERING 1

1 SYSTEMS ENGINEERING AND THE WORLD OF MODERN 

 SYSTEMS 3

1.1 What Is Systems Engineering? 3

1.2 Origins of Systems Engineering 5

1.3 Examples of Systems Requiring Systems Engineering 10

1.4 Systems Engineering as a Profession 12

1.5 Systems Engineer Career Development Model 18

1.6 The Power of Systems Engineering 21

1.7 Summary 23

Problems 25

Further Reading 26

2 SYSTEMS ENGINEERING LANDSCAPE 27

2.1 Systems Engineering Viewpoint 27

2.2 Perspectives of Systems Engineering 32

2.3 Systems Domains 34

2.4 Systems Engineering Fields 35

2.5 Systems Engineering Approaches 36

2.6 Systems Engineering Activities and Products 37

2.7 Summary 38

Problems 39

Further Reading 40

3 STRUCTURE OF COMPLEX SYSTEMS 41

3.1 System Building Blocks and Interfaces 41

3.2 Hierarchy of Complex Systems 42

3.3 System Building Blocks 45

3.4 The System Environment 51

3.5 Interfaces and Interactions 58

3.6 Complexity in Modern Systems 60

3.7 Summary 64

Problems 66

Further Reading 67

4 THE SYSTEM DEVELOPMENT PROCESS 69

4.1 Systems Engineering through the System Life Cycle 69

4.2 System Life Cycle 70

4.3 Evolutionary Characteristics of the Development Process 82

4.4 The Systems Engineering Method 87

4.5 Testing throughout System Development 103

4.6 Summary 106

Problems 108

Further Reading 109

5 SYSTEMS ENGINEERING MANAGEMENT 111

5.1 Managing System Development and Risks 111

5.2 WBS 113

5.3 SEMP 117

5.4 Risk Management 120

5.5 Organization of Systems Engineering 128

5.6 Summary 132

Problems 133

Further Reading 134

PART II CONCEPT DEVELOPMENT STAGE 137

6 NEEDS ANALYSIS 139

6.1 Originating a New System 139

6.2 Operations Analysis 146

6.3 Functional Analysis 151

6.4 Feasibility Definition 153

6.5 Needs Validation 155

6.6 System Operational Requirements 158

6.7 Summary 162

Problems 163

Further Reading 164

7 CONCEPT EXPLORATION 165

7.1 Developing the System Requirements 165

7.2 Operational Requirements Analysis 170

7.3 Performance Requirements Formulation 178

7.4 Implementation of Concept Exploration 185

7.5 Performance Requirements Validation 189

7.6 Summary 191

Problems 193

Further Reading 194

8 CONCEPT DEFINITION 197

8.1 Selecting the System Concept 197

8.2 Performance Requirements Analysis 201

8.3 Functional Analysis and Formulation 206

8.4 Functional Allocation 212

8.5 Concept Selection 214

8.6 Concept Validation 217

8.7 System Development Planning 219

8.8 Systems Architecting 222

8.9 System Modeling Languages: Unified Modeling Language 

 (UML) and Systems Modeling Language (SysML) 228

8.10 Model-Based Systems Engineering (MBSE) 243

8.11 System Functional Specifications 246

8.12 Summary 247

Problems 250

Further Reading 252

9 DECISION ANALYSIS AND SUPPORT 255

9.1 Decision Making 256

9.2 Modeling throughout System Development 262

9.3 Modeling for Decisions 263

9.4 Simulation 272

9.5 Trade-Off Analysis 282

9.6 Review of Probability 295

9.7 Evaluation Methods 299

9.8 Summary 308

Problems 311

Further Reading 312

PART III ENGINEERING DEVELOPMENT STAGE 315

10 ADVANCED DEVELOPMENT 317

10.1 Reducing Program Risks 317

10.2 Requirements Analysis 322

10.3 Functional Analysis and Design 327

10.4 Prototype Development as a Risk Mitigation Technique 333

10.5 Development Testing 340

10.6 Risk Reduction 349

10.7 Summary 350

Problems 352

Further Reading 354

11 SOFTWARE SYSTEMS ENGINEERING 355

11.1 Coping with Complexity and Abstraction 356

11.2 Nature of Software Development 360

11.3 Software Development Life Cycle Models 365

11.4 Software Concept Development: Analysis and Design 373

11.5 Software Engineering Development: Coding and Unit Test 385

11.6 Software Integration and Test 393

11.7 Software Engineering Management 396

11.8 Summary 402

Problems 405

Further Reading 406

12 ENGINEERING DESIGN 409

12.1 Implementing the System Building Blocks 409

12.2 Requirements Analysis 414

12.3 Functional Analysis and Design 416

12.4 Component Design 419

12.5 Design Validation 432

12.6 CM 436

12.7 Summary 439

 Problems 441

 Further Reading 442

13 INTEGRATION AND EVALUATION 443

13.1 Integrating, Testing, and Evaluating the Total System 443

13.2 Test Planning and Preparation 450

13.3 System Integration 455

13.4 Developmental System Testing 462

13.5 Operational Test and Evaluation 467

13.6 Summary 475

Problems 478

Further Reading 478

PART IV POSTDEVELOPMENT STAGE 481

14 PRODUCTION 483

14.1 Systems Engineering in the Factory 483

14.2 Engineering for Production 485

14.3 Transition from Development to Production 489

14.4 Production Operations 492

14.5 Acquiring a Production Knowledge Base 497

14.6 Summary 500

Problems 502

Further Reading 503

15 OPERATIONS AND SUPPORT 505

15.1 Installing, Maintaining, and Upgrading the System 505

15.2 Installation and Test 507

15.3 In-Service Support 512

15.4 Major System Upgrades: Modernization 516

15.5 Operational Factors in System Development 520

15.6 Summary 522

Problems 523

Further Reading 524

INDEX 525


INTRODUCTION TO MODERN INDUSTRIAL ENGINEERING. 

An #IndustrialEngineering  Book for  #BSIE  #MSIE for the new academic year #2024-2025.  

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