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Systems Engineering in the Digital Age: Practitioner Perspectives covers methods and tools that are made possible by the latest developments in computational modeling, descriptive modeling languages, and semantic web technologies and describes how they can be integrated into existing systems engineering practice, how best to manage their use, and how to help train and educate systems engineers of today and the future. This book explains how digital models can be leveraged for enhancing engineering trades, systems risk and maturity, and the design of safe, secure, and resilient systems, providing an update on the methods, processes, and tools to synthesize, analyze, and make decisions in management, mission engineering, and system of systems.
Composed of nine chapter clusters, the authors cover digital and model-based methods, digital engineering, agile systems engineering, improving system risk, and more, representing the latest insights from research in topics related to systems engineering for complicated and complex systems and system-of-systems. Based on validated research conducted via the Systems Engineering Research Center (SERC), this book provides the reader a set of pragmatic concepts, methods, models, methodologies, and tools to aid the development of digital engineering capability within their organization.
Systems Engineering in the Digital Age: Practioner Perspectives includes information on:
* Fundamentals of digital engineering, graphical concept of operations, and mission and systems engineering methods
* Transforming systems engineering through integrating M&S and digital thread, and interactive model centric systems engineering
* The OODA loop of value creation, digital engineering measures, and model and data verification and validation
* Digital engineering testbed, transformation, and implications on decision making processes, and architecting tradespace analysis in a digital engineering environment
* Expedited systems engineering for rapid capability and learning, and agile systems engineering framework
Based on results and insights from a research center and providing highly comprehensive coverage of the subject, Systems Engineering for the Digital Age: Practioner Perspectives is written specifically for practicing engineers, program managers, and enterprise leadership, along with graduate students in related programs of study.
Systems Engineering in the Digital Age: Practitioner Perspectives covers methods and tools that are made possible by the latest developments in computational modeling, descriptive modeling languages, and semantic web technologies and describes how they can be integrated into existing systems engineering practice, how best to manage their use, and how to help train and educate systems engineers of today and the future. This book explains how digital models can be leveraged for enhancing engineering trades, systems risk and maturity, and the design of safe, secure, and resilient systems, providing an update on the methods, processes, and tools to synthesize, analyze, and make decisions in management, mission engineering, and system of systems.
Composed of nine chapter clusters, the authors cover digital and model-based methods, digital engineering, agile systems engineering, improving system risk, and more, representing the latest insights from research in topics related to systems engineering for complicated and complex systems and system-of-systems. Based on validated research conducted via the Systems Engineering Research Center (SERC), this book provides the reader a set of pragmatic concepts, methods, models, methodologies, and tools to aid the development of digital engineering capability within their organization.
Systems Engineering in the Digital Age: Practioner Perspectives includes information on:
* Fundamentals of digital engineering, graphical concept of operations, and mission and systems engineering methods
* Transforming systems engineering through integrating M&S and digital thread, and interactive model centric systems engineering
* The OODA loop of value creation, digital engineering measures, and model and data verification and validation
* Digital engineering testbed, transformation, and implications on decision making processes, and architecting tradespace analysis in a digital engineering environment
* Expedited systems engineering for rapid capability and learning, and agile systems engineering framework
Based on results and insights from a research center and providing highly comprehensive coverage of the subject, Systems Engineering for the Digital Age: Practioner Perspectives is written specifically for practicing engineers, program managers, and enterprise leadership, along with graduate students in related programs of study.
Dinesh Verma is the Executive Director of the Systems Engineering Research Center (SERC), the first University Affiliated Research Center established by the DoD for Systems Engineering Research. He is also a Professor in Systems Engineering at Stevens Institute of Technology as well as the Scientific Advisor to the Director of the Embedded Systems Institute in Eindhoven, Holland. He is a Fellow of INCOSE and Senior Member of SOLE.
List of Contributors xxv
Preface xxix
Acknowledgment xxxi
Acronyms xxxiii
About the Companion Website xlv
Part I Transforming Engineering Through Digital and Model-Based Methods 1
Mark Blackburn
1 Fundamentals of Digital Engineering 3
Mark R. Blackburn and Timothy D. West
2 Mission and Systems Engineering Methods 25
Benjamin Kruse, Brian Chell, Timothy D. West, and Mark R. Blackburn
3 Transforming Systems Engineering Through Integrating Modeling and Simulation and the Digital Thread 47
Daniel Dunbar, Tom Hagedorn, Timothy D. West, Brian Chell, John Dzielski, and Mark R. Blackburn
4 Digital Engineering Visualization Technologies and Techniques 69
Brian Chell, Tom Hagedorn, Roger Jones, and Mark R. Blackburn
5 Interactive Model-Centric Systems Engineering 91
Donna H. Rhodes and Adam M. Ross
Part II Executing Digital Engineering 111
Jon Wade
6 Systems Engineering Transformation Through Digital Engineering 113
Jon Wade
7 Measuring Systems Engineering Progress Using Digital Engineering 137
Tom McDermott, Kaitlin Henderson, Eileen Van Aken, Alejandro Salado, and Joseph Bradley
8 Digital Engineering Implications on Decision-Making Processes 149
Samuel Kovacic, Mustafa Canan, Jiang Li, and Andres Sousa-Poza
9 Expedited Systems Engineering for Rapid Capability 175
John M. Colombi
10 Scaling Agile Principles to an Enterprise 201
Michael Orosz, Brian Duffy, Craig Charlton, Hector Saunders, and Michael Shih
11 System Behavior Specification Verification and Validation (V&V) 219
Kristin Giammarco
12 Digital Engineering Transformation: A Case Study 241
Cesare Guariniello, Waterloo Tsutsui, Dalia Bekdache, and Dan DeLaurenits
Part III Tradespace Analysis in a Digital Engineering Ecosystem -- Context and Implications 267
Val Sitterle
13 A Landscape of Trades: The Importance of Process, Ilities, and Practice 269
Valerie B. Sitterle and Gary Witus
14 Architecting a Tradespace Analysis Framework in a Digital Engineering Environment 293
Daniel Browne, Santiago Balestrini-Robinson, and David Fullmer
15 Set-Based Design: Foundations for Practice 317
Shawn Dullen and Dinesh Verma
16 Exploiting Formal Modeling in Resilient System Design: Key Concepts, Current Practice, and Innovative Approach 339
Azad M. Madni and Michael Sievers
17 Augmented Intelligence: A Human Productivity and Performance Amplifier in Systems Engineering and Engineered Human--Machine Systems 375
Azad M. Madni
Part IV Evaluating and Improving System Risk 393
Nicole Hutchison
18 Complexity and Risk in Systems Engineering 395
Roshanak R. Nilchiani
19 Technical Debt in the Engineering of Complex Systems 419
Ye Yang and Dinesh Verma
20 Risk and System Maturity: TRLs and SRLs in Risk Management 435
Brian Sauser
21 Managing Risk 463
Michael Orosz
Part V Model-Based Design of Safety, Security, and Resilience Systems 471
Tom McDermott
22 Concepts of Trust and Resilience in Cyber-Physical Systems 473
Thomas McDermott, Megan M. Clifford, and Valerie B. Sitterle
23 Introduction to STPA-Sec 489
Cody Fleming
24 The "Mission Aware" Concept for Design of Cyber-Resilience 507
Peter A. Beling, Megan M. Clifford, Tim Sherburne, Tom McDermott, and Barry M. Horowitz
25 The "FOREST" Concept and Meta-Model for Lifecycle Evaluation of Resilience 523
Tim Sherburne, Megan M. Clifford, Barry M. Horowitiz, Tom McDermott, and Peter A. Beling
26 The Cyber Security Requirements Methodology and Meta-Model for Design of Cyber-Resilience 539
Tim Sherburne, Megan M. Clifford, Barry M. Horowitz, and Peter A. Beling
27 Implementation Example: Silverfish 555
Tim Sherburne, Megan M. Clifford, and Peter A. Beling
Part VI Analytic Methods for Design and Analysis of Missions and Systems-of-Systems 581
Dan DeLaurenits
28 Unique Challenges in System of Systems Analysis, Architecting, and Engineering 583
Judith Dahmann and Dan DeLaurenits
29 System of Systems Analytic Workbench 601
Cesare Guariniello, Payuna Uday, Waterloo Tsutsui, and Karen Marais
30 Computational Intelligence Approach to SoS Architecting and Analysis 637
Cihan Dagli, Richard Threlkeld, and Lirim Ashiku
31 Unique Challenges in Mission Engineering and Technology Integration 665
Michael Orosz, Brian Duffy, Craig Charlton, Hector Saunders, and Ellins Thomas
32 Reference Architecture: An Integration and Interoperability-Driven Framework 683
Joel S. Patton and James D. Moreland
33 Mission Engineering Competency Framework 697
Gregg Vesonder and Nicole Hutchison
Part VII Applying Systems Engineering to Enterprise Systems and Portfolio Management 713
Dan DeLaurenits
34 Central Challenges in Modeling and Analyzing Enterprises as Systems 715
William B. Rouse
35 Methods for Integrating Dynamic Requirements and Emerging Technologies 729
William B. Rouse and Dinesh Verma
36 Portfolio Management and Optimization for System of Systems 747
Frank Patterson, David Fullmer, Daniel Browne, and Santiago Balestrini-Robinson
37 Assessing Benefits of Modularity in Missions and System of Systems 775
Navindran Davendralingam, Cesare Guariniello, and Lu Xiao
Part VIII Systems Education and Competencies in the Age of Digital Engineering, Convergence, and AI 789
Nicole Hutchison
38 Using the Systems Engineering Body of Knowledge (SEBoK) 791
Nicole Hutchison, Art Pyster, and Rob Cloutier
39 Understanding Critical Skills for Systems Engineers 805
Nicole Hutchison
40 Evolving University Programs on Systems Engineering 817
Paul T. Grogan
41 Evolving University Programs for the Other 95% of Engineers: A Capstone Marketplace 827
William Shepherd
Index 843
Erscheinungsjahr: | 2023 |
---|---|
Fachbereich: | Nachrichtentechnik |
Genre: | Technik |
Rubrik: | Naturwissenschaften & Technik |
Medium: | Buch |
Inhalt: | 896 S. |
ISBN-13: | 9781394203284 |
ISBN-10: | 1394203284 |
Sprache: | Englisch |
Einband: | Gebunden |
Autor: | Dinesh C. Verma |
Redaktion: | Verma, Dinesh |
Herausgeber: | Dinesh Verma |
Hersteller: | John Wiley & Sons Inc |
Maße: | 262 x 187 x 55 mm |
Von/Mit: | Dinesh Verma |
Erscheinungsdatum: | 21.09.2023 |
Gewicht: | 1,814 kg |
Dinesh Verma is the Executive Director of the Systems Engineering Research Center (SERC), the first University Affiliated Research Center established by the DoD for Systems Engineering Research. He is also a Professor in Systems Engineering at Stevens Institute of Technology as well as the Scientific Advisor to the Director of the Embedded Systems Institute in Eindhoven, Holland. He is a Fellow of INCOSE and Senior Member of SOLE.
List of Contributors xxv
Preface xxix
Acknowledgment xxxi
Acronyms xxxiii
About the Companion Website xlv
Part I Transforming Engineering Through Digital and Model-Based Methods 1
Mark Blackburn
1 Fundamentals of Digital Engineering 3
Mark R. Blackburn and Timothy D. West
2 Mission and Systems Engineering Methods 25
Benjamin Kruse, Brian Chell, Timothy D. West, and Mark R. Blackburn
3 Transforming Systems Engineering Through Integrating Modeling and Simulation and the Digital Thread 47
Daniel Dunbar, Tom Hagedorn, Timothy D. West, Brian Chell, John Dzielski, and Mark R. Blackburn
4 Digital Engineering Visualization Technologies and Techniques 69
Brian Chell, Tom Hagedorn, Roger Jones, and Mark R. Blackburn
5 Interactive Model-Centric Systems Engineering 91
Donna H. Rhodes and Adam M. Ross
Part II Executing Digital Engineering 111
Jon Wade
6 Systems Engineering Transformation Through Digital Engineering 113
Jon Wade
7 Measuring Systems Engineering Progress Using Digital Engineering 137
Tom McDermott, Kaitlin Henderson, Eileen Van Aken, Alejandro Salado, and Joseph Bradley
8 Digital Engineering Implications on Decision-Making Processes 149
Samuel Kovacic, Mustafa Canan, Jiang Li, and Andres Sousa-Poza
9 Expedited Systems Engineering for Rapid Capability 175
John M. Colombi
10 Scaling Agile Principles to an Enterprise 201
Michael Orosz, Brian Duffy, Craig Charlton, Hector Saunders, and Michael Shih
11 System Behavior Specification Verification and Validation (V&V) 219
Kristin Giammarco
12 Digital Engineering Transformation: A Case Study 241
Cesare Guariniello, Waterloo Tsutsui, Dalia Bekdache, and Dan DeLaurenits
Part III Tradespace Analysis in a Digital Engineering Ecosystem -- Context and Implications 267
Val Sitterle
13 A Landscape of Trades: The Importance of Process, Ilities, and Practice 269
Valerie B. Sitterle and Gary Witus
14 Architecting a Tradespace Analysis Framework in a Digital Engineering Environment 293
Daniel Browne, Santiago Balestrini-Robinson, and David Fullmer
15 Set-Based Design: Foundations for Practice 317
Shawn Dullen and Dinesh Verma
16 Exploiting Formal Modeling in Resilient System Design: Key Concepts, Current Practice, and Innovative Approach 339
Azad M. Madni and Michael Sievers
17 Augmented Intelligence: A Human Productivity and Performance Amplifier in Systems Engineering and Engineered Human--Machine Systems 375
Azad M. Madni
Part IV Evaluating and Improving System Risk 393
Nicole Hutchison
18 Complexity and Risk in Systems Engineering 395
Roshanak R. Nilchiani
19 Technical Debt in the Engineering of Complex Systems 419
Ye Yang and Dinesh Verma
20 Risk and System Maturity: TRLs and SRLs in Risk Management 435
Brian Sauser
21 Managing Risk 463
Michael Orosz
Part V Model-Based Design of Safety, Security, and Resilience Systems 471
Tom McDermott
22 Concepts of Trust and Resilience in Cyber-Physical Systems 473
Thomas McDermott, Megan M. Clifford, and Valerie B. Sitterle
23 Introduction to STPA-Sec 489
Cody Fleming
24 The "Mission Aware" Concept for Design of Cyber-Resilience 507
Peter A. Beling, Megan M. Clifford, Tim Sherburne, Tom McDermott, and Barry M. Horowitz
25 The "FOREST" Concept and Meta-Model for Lifecycle Evaluation of Resilience 523
Tim Sherburne, Megan M. Clifford, Barry M. Horowitiz, Tom McDermott, and Peter A. Beling
26 The Cyber Security Requirements Methodology and Meta-Model for Design of Cyber-Resilience 539
Tim Sherburne, Megan M. Clifford, Barry M. Horowitz, and Peter A. Beling
27 Implementation Example: Silverfish 555
Tim Sherburne, Megan M. Clifford, and Peter A. Beling
Part VI Analytic Methods for Design and Analysis of Missions and Systems-of-Systems 581
Dan DeLaurenits
28 Unique Challenges in System of Systems Analysis, Architecting, and Engineering 583
Judith Dahmann and Dan DeLaurenits
29 System of Systems Analytic Workbench 601
Cesare Guariniello, Payuna Uday, Waterloo Tsutsui, and Karen Marais
30 Computational Intelligence Approach to SoS Architecting and Analysis 637
Cihan Dagli, Richard Threlkeld, and Lirim Ashiku
31 Unique Challenges in Mission Engineering and Technology Integration 665
Michael Orosz, Brian Duffy, Craig Charlton, Hector Saunders, and Ellins Thomas
32 Reference Architecture: An Integration and Interoperability-Driven Framework 683
Joel S. Patton and James D. Moreland
33 Mission Engineering Competency Framework 697
Gregg Vesonder and Nicole Hutchison
Part VII Applying Systems Engineering to Enterprise Systems and Portfolio Management 713
Dan DeLaurenits
34 Central Challenges in Modeling and Analyzing Enterprises as Systems 715
William B. Rouse
35 Methods for Integrating Dynamic Requirements and Emerging Technologies 729
William B. Rouse and Dinesh Verma
36 Portfolio Management and Optimization for System of Systems 747
Frank Patterson, David Fullmer, Daniel Browne, and Santiago Balestrini-Robinson
37 Assessing Benefits of Modularity in Missions and System of Systems 775
Navindran Davendralingam, Cesare Guariniello, and Lu Xiao
Part VIII Systems Education and Competencies in the Age of Digital Engineering, Convergence, and AI 789
Nicole Hutchison
38 Using the Systems Engineering Body of Knowledge (SEBoK) 791
Nicole Hutchison, Art Pyster, and Rob Cloutier
39 Understanding Critical Skills for Systems Engineers 805
Nicole Hutchison
40 Evolving University Programs on Systems Engineering 817
Paul T. Grogan
41 Evolving University Programs for the Other 95% of Engineers: A Capstone Marketplace 827
William Shepherd
Index 843
Erscheinungsjahr: | 2023 |
---|---|
Fachbereich: | Nachrichtentechnik |
Genre: | Technik |
Rubrik: | Naturwissenschaften & Technik |
Medium: | Buch |
Inhalt: | 896 S. |
ISBN-13: | 9781394203284 |
ISBN-10: | 1394203284 |
Sprache: | Englisch |
Einband: | Gebunden |
Autor: | Dinesh C. Verma |
Redaktion: | Verma, Dinesh |
Herausgeber: | Dinesh Verma |
Hersteller: | John Wiley & Sons Inc |
Maße: | 262 x 187 x 55 mm |
Von/Mit: | Dinesh Verma |
Erscheinungsdatum: | 21.09.2023 |
Gewicht: | 1,814 kg |