Verfügbarkeit: Practical model-based systems engineering /

Practical model-based systems engineering /:

For systems engineers and practitioners, this book provides the analytic, design and modeling tools of the Model Based Systems Engineering (MBSE) methodology of Integrated Systems Engineering (ISE) and Pipelines of Processes in Object Oriented Architectures (PPOOA) methodology. --

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Bibliographische Detailangaben
Hauptverfasser:	Fernández Pérez, José Luis (VerfasserIn), Hernandez, Carlos (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Boston ; London : Artech House, [2019]
Schriftenreihe:	Artech House technology management and professional development library.
Schlagworte:	Engineering mathematics. System design. Systems engineering > Mathematical models. Mathématiques de l'ingénieur. Conception de systèmes. Ingénierie des systèmes > Modèles mathématiques. Engineering mathematics System design Systems engineering > Mathematical models
Online-Zugang:	Volltext
Zusammenfassung:	For systems engineers and practitioners, this book provides the analytic, design and modeling tools of the Model Based Systems Engineering (MBSE) methodology of Integrated Systems Engineering (ISE) and Pipelines of Processes in Object Oriented Architectures (PPOOA) methodology. --
Beschreibung:	1 online resource : illustrations
Bibliographie:	Includes bibliographical references and index
ISBN:	9781630815813 1630815810

Internformat

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245	1	0	\|a Practical model-based systems engineering / \|c Jose L. Fernandez, Carlos Hernandez
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504			\|a Includes bibliographical references and index
520			\|a For systems engineers and practitioners, this book provides the analytic, design and modeling tools of the Model Based Systems Engineering (MBSE) methodology of Integrated Systems Engineering (ISE) and Pipelines of Processes in Object Oriented Architectures (PPOOA) methodology. -- \|c Edited summary from book.
505	0		\|a Intro -- Practical Model-BasedSystems Engineering -- Contents -- Preface -- Acknowledgments -- CHAPTER 1 Introduction -- 1.1 Book Goals and Readers -- 1.2 Book Content -- 1.3 Diverse Paths for Reading the Book -- References -- CHAPTER 2 Systems Engineering -- 2.1 Definition and Properties of a System -- 2.2 The System Life Cycle -- 2.3 Systems Engineering: A Discipline to Deal with Complexity -- 2.3.1 The Need for Systems Engineering -- 2.3.2 Key Tasks of Systems Engineering -- 2.4 System Development Alternatives -- 2.4.1 Sequential Approach -- 2.4.2 Incremental Approach -- 2.4.3 Evolutionary Approach -- 2.5 Summary -- 2.6 Questions and Exercises -- References -- CHAPTER 3 Model-Based Systems Engineering -- 3.1 Why Is Model-Based Engineering Necessary? -- 3.2 What Is Modeling in MBSE? -- 3.2.1 Why Are Models Used? -- 3.2.1 Models and Views -- 3.3 Modeling Languages, Methods, and Tools for MBSE -- 3.3.1 Modeling Languages -- 3.3.2 MBSE Methodologies -- 3.3.3 MBSE Tools -- 3.4 Summary -- 3.5 Questions and Exercises -- References -- CHAPTER 4 The ISE&amp -- PPOOA Process -- 4.1 Integrating Systems Engineering and Software Architecting -- 4.2 Challenges of the ISE&amp -- PPOOA Process -- 4.2.1 Implementing Nonfunctional Requirements -- 4.2.2 Dealing with Functional and Physical Interfaces -- 4.3 Conceptual Model for Systems Engineering with ISE&amp -- PPOOA -- 4.4 Dimensions and Main Steps of the ISE&amp -- PPOOA Process -- 4.4.1 The Systems Engineering Subprocess -- 4.4.2 The Software Architecting Subprocess -- 4.5 An Extension of the Process for Energy Efficiency Concerns -- 4.6 Summary -- 4.7 Questions and Exercises -- References -- CHAPTER 5 Functional Architecture -- 5.1 The Importance of Functional Architecture -- 5.1.1 Functional Architecture in Systems Engineering -- 5.1.2 What About Functional Architecture for Software Intensive Systems?.
505	8		\|a 5.2 A Function is a Transformation -- 5.2.1 Main Concepts Related to the Functional Architectural Model -- 5.2.2 Functional Architecture Models -- 5.3 Modeling the Functional Hierarchy -- 5.3.1 Top-Down Approach for a Functional Hierarchy -- 5.3.2 Bottom-Up Approach for a Functional Hierarchy -- 5.4 Modeling the Functional Flows -- 5.5 Describing Functions and Functional Interfaces -- 5.6 Functional Requirements -- 5.7 Summary -- 5.8 Questions and Exercises -- References -- CHAPTER 6 Heuristics to Apply in the Engineering of Systems -- 6.1 Heuristics Framework -- 6.2 Systems Architecting Heuristics -- 6.2.1 Heuristics for Step 3: Functional Architecture of the ISE Process -- 6.2.2 Heuristics for Step 4: Physical Architecture of the ISE Process -- 6.3 Reliability and Maintainability Heuristics -- 6.3.1 Reliability and Maintainability Heuristics for Step 4: Physical Architecture of the ISE Process -- 6.3.2 Maintainability Heuristics for Software Architecting: PPOOA Process -- 6.3.3 Heuristics for Restricting the Visibility of Responsibilities -- 6.3.4 Heuristics for Preventing Unintended Effects -- 6.4 Efficiency Heuristics -- 6.4.1 Heuristics for Managing Demand -- 6.4.2 Heuristics for Arbitrating Demand -- 6.4.3 Heuristics for Managing Multiple Resources -- 6.5 Safety Heuristics -- 6.5.1 Heuristics for Hazard Avoidance -- 6.5.2 Heuristics for Hazard Reduction -- 6.5.3 Heuristics for Hazard Control -- 6.5.4 Heuristics for Mitigation of the Effects -- 6.6 Resilience Heuristics -- 6.6.1 Heuristics for Surviving a Threat -- 6.6.2 Heuristics for Adapting to a Threat -- 6.6.3 Heuristics to Degrade Gracefully -- 6.6.4 Heuristics to Act as a Whole in the Face of a Threat -- 6.7 Software Architecting Heuristics Using the PPOOA Framework -- 6.8 Summary -- 6.9 Questions and Exercises -- References -- CHAPTER 7 Physical Architecture.
505	8		\|a 7.1 Physical Architecture in Systems Engineering -- 7.1.1 Main Concepts Related to the Physical Architectural Model -- 7.1.2 Functional, Physical, and Quality Trees in ISE&amp -- PPOOA -- 7.1.3 Other Architecture Models -- 7.2 Allocation and Modularity -- 7.2.1 Representation of the Modular Architecture -- 7.2.2 Allocation -- 7.3 Design Heuristics for Refining the Architecture -- 7.3.1 Control Monitor Pattern -- 7.3.2 Triple Modular Redundancy Pattern -- 7.4 Software Architecting with the PPOOA Framework -- 7.4.1 Domain Model -- 7.4.2 Software Components and the PPOOA Vocabulary -- 7.4.3 Coordination Mechanisms -- 7.4.4 Software Behavior and Causal Flow of Activities -- 7.5 Summary -- 7.6 Questions and Exercises -- References -- CHAPTER 8 Example of Application: Unmanned Aerial Vehicle-Electrical Subsystem -- 8.1 Example Overview, Needs, and Capabilities -- 8.1.1 Operational Scenarios and Use Cases -- 8.1.2 System Capabilities -- 8.2 Functional Architecture and System Requirements -- 8.2.1 Functional Architecture -- 8.2.2 System Requirements -- 8.3 Physical Architecture and Heuristics Applied -- 8.3.1 Heuristics Applied -- 8.3.2 Physical Architecture -- 8.4 Summary -- References -- CHAPTER 9 Example of Application: Collaborative Robot -- 9.1 Example Overview, Needs, and Capabilities -- 9.1.1 Step 1: Identify Operational Scenarios -- 9.1.2 Step 2.a: Capabilities and High-Level Functional Requirements -- 9.1.3 Step 2.b: Quality Attributes and System NFRs -- 9.2 Functional Architecture and System Requirements -- 9.2.1 Functional Architecture -- 9.2.2 System Requirements -- 9.3 Physical Architecture and Heuristics Applied -- 9.3.1 Modular Architecture -- 9.3.2 Application of Heuristics to Refine the Physical Architecture -- 9.3.3 Representation of the Refined Physical Architecture -- 9.4 Software Architecture -- 9.4.1 Software Components.
505	8		\|a 9.4.2 Casual Flows of Activities -- 9.4.3 Safety Heuristics -- 9.5 Summary -- References -- CHAPTER 10 Examples of Application: Energy Efficiency for the Steam Generation Process of a Coal Power Plant -- 10.1 Example Overview -- 10.2 Functional Architecture of the Steam Generation Process -- 10.3 Physical Architecture of the Steam Generation Subsystem -- 10.4 Equations and Correlations of the Matter and Energy Balances -- 10.5 Results -- 10.6 Summary -- 10.7 Questions and Exercises -- References -- CHAPTER 11 Trade-Off Analysis -- 11.1 Trade-Off and the Architecture Decision Process -- 11.2 Trade-Off Assessment Criteria and Utility Functions -- 11.3 A Trade-Off Subprocess to be Used with the ISE&amp -- PPOOA Process -- 11.4 Summary -- References -- CHAPTER 12 Other Topics of Interest and Next Steps -- 12.1 Agile Development -- 12.1.1 Principles and Misconceptions about Agility -- 12.1.2 Scalability in Agile Approaches -- 12.1.3 ISE&amp -- PPOOA Process and Agility -- 12.2 Architecture Evaluation and Model Checking -- 12.2.1 Architecture Evaluation -- 12.2.2 Diverse Practices for Architecture Evaluation -- 12.2.3 Model Assessment -- 12.3 Next Steps Recommended to the Reader -- 12.4 Summary -- References -- Appendix A SysML Notation -- A.1 Use of SysML in the ISE&amp -- PPOOA Methodology -- A.1.1 SysML Diagrams in ISE&amp -- PPOOA -- A.2 SysML for the ISE&amp -- PPOOA Structural Perspective -- A.2.1 Blocks and Block Definition Diagram -- A.2.2 SysML Internal Block Diagram: Parts, Ports, Connectors, and Flows -- A.3 SysML for the ISE&amp -- PPOOA Behavioral Perspective -- A.3.1 Activity Nodes -- A.3.2 Control Nodes -- A.4 Other SysML Elements and Views in ISE&amp -- PPOOA -- A.4.1 Allocation -- A.4.2 Use Case Diagram -- A.4.3 Constraint Blocks and Parametric Diagrams -- A.4.4 Requirements -- A.5 Complementing SysML: PPOOA Architecture Diagram.
650		0	\|a Engineering mathematics. \|0 http://id.loc.gov/authorities/subjects/sh85043235
650		0	\|a System design. \|0 http://id.loc.gov/authorities/subjects/sh85131736
650		0	\|a Systems engineering \|x Mathematical models.
650		6	\|a Mathématiques de l'ingénieur.
650		6	\|a Conception de systèmes.
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650		7	\|a Engineering mathematics \|2 fast
650		7	\|a System design \|2 fast
650		7	\|a Systems engineering \|x Mathematical models \|2 fast
700	1		\|a Hernandez, Carlos, \|e author.
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contents	Intro -- Practical Model-BasedSystems Engineering -- Contents -- Preface -- Acknowledgments -- CHAPTER 1 Introduction -- 1.1 Book Goals and Readers -- 1.2 Book Content -- 1.3 Diverse Paths for Reading the Book -- References -- CHAPTER 2 Systems Engineering -- 2.1 Definition and Properties of a System -- 2.2 The System Life Cycle -- 2.3 Systems Engineering: A Discipline to Deal with Complexity -- 2.3.1 The Need for Systems Engineering -- 2.3.2 Key Tasks of Systems Engineering -- 2.4 System Development Alternatives -- 2.4.1 Sequential Approach -- 2.4.2 Incremental Approach -- 2.4.3 Evolutionary Approach -- 2.5 Summary -- 2.6 Questions and Exercises -- References -- CHAPTER 3 Model-Based Systems Engineering -- 3.1 Why Is Model-Based Engineering Necessary? -- 3.2 What Is Modeling in MBSE? -- 3.2.1 Why Are Models Used? -- 3.2.1 Models and Views -- 3.3 Modeling Languages, Methods, and Tools for MBSE -- 3.3.1 Modeling Languages -- 3.3.2 MBSE Methodologies -- 3.3.3 MBSE Tools -- 3.4 Summary -- 3.5 Questions and Exercises -- References -- CHAPTER 4 The ISE&amp -- PPOOA Process -- 4.1 Integrating Systems Engineering and Software Architecting -- 4.2 Challenges of the ISE&amp -- PPOOA Process -- 4.2.1 Implementing Nonfunctional Requirements -- 4.2.2 Dealing with Functional and Physical Interfaces -- 4.3 Conceptual Model for Systems Engineering with ISE&amp -- PPOOA -- 4.4 Dimensions and Main Steps of the ISE&amp -- PPOOA Process -- 4.4.1 The Systems Engineering Subprocess -- 4.4.2 The Software Architecting Subprocess -- 4.5 An Extension of the Process for Energy Efficiency Concerns -- 4.6 Summary -- 4.7 Questions and Exercises -- References -- CHAPTER 5 Functional Architecture -- 5.1 The Importance of Functional Architecture -- 5.1.1 Functional Architecture in Systems Engineering -- 5.1.2 What About Functional Architecture for Software Intensive Systems?. 5.2 A Function is a Transformation -- 5.2.1 Main Concepts Related to the Functional Architectural Model -- 5.2.2 Functional Architecture Models -- 5.3 Modeling the Functional Hierarchy -- 5.3.1 Top-Down Approach for a Functional Hierarchy -- 5.3.2 Bottom-Up Approach for a Functional Hierarchy -- 5.4 Modeling the Functional Flows -- 5.5 Describing Functions and Functional Interfaces -- 5.6 Functional Requirements -- 5.7 Summary -- 5.8 Questions and Exercises -- References -- CHAPTER 6 Heuristics to Apply in the Engineering of Systems -- 6.1 Heuristics Framework -- 6.2 Systems Architecting Heuristics -- 6.2.1 Heuristics for Step 3: Functional Architecture of the ISE Process -- 6.2.2 Heuristics for Step 4: Physical Architecture of the ISE Process -- 6.3 Reliability and Maintainability Heuristics -- 6.3.1 Reliability and Maintainability Heuristics for Step 4: Physical Architecture of the ISE Process -- 6.3.2 Maintainability Heuristics for Software Architecting: PPOOA Process -- 6.3.3 Heuristics for Restricting the Visibility of Responsibilities -- 6.3.4 Heuristics for Preventing Unintended Effects -- 6.4 Efficiency Heuristics -- 6.4.1 Heuristics for Managing Demand -- 6.4.2 Heuristics for Arbitrating Demand -- 6.4.3 Heuristics for Managing Multiple Resources -- 6.5 Safety Heuristics -- 6.5.1 Heuristics for Hazard Avoidance -- 6.5.2 Heuristics for Hazard Reduction -- 6.5.3 Heuristics for Hazard Control -- 6.5.4 Heuristics for Mitigation of the Effects -- 6.6 Resilience Heuristics -- 6.6.1 Heuristics for Surviving a Threat -- 6.6.2 Heuristics for Adapting to a Threat -- 6.6.3 Heuristics to Degrade Gracefully -- 6.6.4 Heuristics to Act as a Whole in the Face of a Threat -- 6.7 Software Architecting Heuristics Using the PPOOA Framework -- 6.8 Summary -- 6.9 Questions and Exercises -- References -- CHAPTER 7 Physical Architecture. 7.1 Physical Architecture in Systems Engineering -- 7.1.1 Main Concepts Related to the Physical Architectural Model -- 7.1.2 Functional, Physical, and Quality Trees in ISE&amp -- PPOOA -- 7.1.3 Other Architecture Models -- 7.2 Allocation and Modularity -- 7.2.1 Representation of the Modular Architecture -- 7.2.2 Allocation -- 7.3 Design Heuristics for Refining the Architecture -- 7.3.1 Control Monitor Pattern -- 7.3.2 Triple Modular Redundancy Pattern -- 7.4 Software Architecting with the PPOOA Framework -- 7.4.1 Domain Model -- 7.4.2 Software Components and the PPOOA Vocabulary -- 7.4.3 Coordination Mechanisms -- 7.4.4 Software Behavior and Causal Flow of Activities -- 7.5 Summary -- 7.6 Questions and Exercises -- References -- CHAPTER 8 Example of Application: Unmanned Aerial Vehicle-Electrical Subsystem -- 8.1 Example Overview, Needs, and Capabilities -- 8.1.1 Operational Scenarios and Use Cases -- 8.1.2 System Capabilities -- 8.2 Functional Architecture and System Requirements -- 8.2.1 Functional Architecture -- 8.2.2 System Requirements -- 8.3 Physical Architecture and Heuristics Applied -- 8.3.1 Heuristics Applied -- 8.3.2 Physical Architecture -- 8.4 Summary -- References -- CHAPTER 9 Example of Application: Collaborative Robot -- 9.1 Example Overview, Needs, and Capabilities -- 9.1.1 Step 1: Identify Operational Scenarios -- 9.1.2 Step 2.a: Capabilities and High-Level Functional Requirements -- 9.1.3 Step 2.b: Quality Attributes and System NFRs -- 9.2 Functional Architecture and System Requirements -- 9.2.1 Functional Architecture -- 9.2.2 System Requirements -- 9.3 Physical Architecture and Heuristics Applied -- 9.3.1 Modular Architecture -- 9.3.2 Application of Heuristics to Refine the Physical Architecture -- 9.3.3 Representation of the Refined Physical Architecture -- 9.4 Software Architecture -- 9.4.1 Software Components. 9.4.2 Casual Flows of Activities -- 9.4.3 Safety Heuristics -- 9.5 Summary -- References -- CHAPTER 10 Examples of Application: Energy Efficiency for the Steam Generation Process of a Coal Power Plant -- 10.1 Example Overview -- 10.2 Functional Architecture of the Steam Generation Process -- 10.3 Physical Architecture of the Steam Generation Subsystem -- 10.4 Equations and Correlations of the Matter and Energy Balances -- 10.5 Results -- 10.6 Summary -- 10.7 Questions and Exercises -- References -- CHAPTER 11 Trade-Off Analysis -- 11.1 Trade-Off and the Architecture Decision Process -- 11.2 Trade-Off Assessment Criteria and Utility Functions -- 11.3 A Trade-Off Subprocess to be Used with the ISE&amp -- PPOOA Process -- 11.4 Summary -- References -- CHAPTER 12 Other Topics of Interest and Next Steps -- 12.1 Agile Development -- 12.1.1 Principles and Misconceptions about Agility -- 12.1.2 Scalability in Agile Approaches -- 12.1.3 ISE&amp -- PPOOA Process and Agility -- 12.2 Architecture Evaluation and Model Checking -- 12.2.1 Architecture Evaluation -- 12.2.2 Diverse Practices for Architecture Evaluation -- 12.2.3 Model Assessment -- 12.3 Next Steps Recommended to the Reader -- 12.4 Summary -- References -- Appendix A SysML Notation -- A.1 Use of SysML in the ISE&amp -- PPOOA Methodology -- A.1.1 SysML Diagrams in ISE&amp -- PPOOA -- A.2 SysML for the ISE&amp -- PPOOA Structural Perspective -- A.2.1 Blocks and Block Definition Diagram -- A.2.2 SysML Internal Block Diagram: Parts, Ports, Connectors, and Flows -- A.3 SysML for the ISE&amp -- PPOOA Behavioral Perspective -- A.3.1 Activity Nodes -- A.3.2 Control Nodes -- A.4 Other SysML Elements and Views in ISE&amp -- PPOOA -- A.4.1 Allocation -- A.4.2 Use Case Diagram -- A.4.3 Constraint Blocks and Parametric Diagrams -- A.4.4 Requirements -- A.5 Complementing SysML: PPOOA Architecture Diagram.
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Definition and Properties of a System -- 2.2 The System Life Cycle -- 2.3 Systems Engineering: A Discipline to Deal with Complexity -- 2.3.1 The Need for Systems Engineering -- 2.3.2 Key Tasks of Systems Engineering -- 2.4 System Development Alternatives -- 2.4.1 Sequential Approach -- 2.4.2 Incremental Approach -- 2.4.3 Evolutionary Approach -- 2.5 Summary -- 2.6 Questions and Exercises -- References -- CHAPTER 3 Model-Based Systems Engineering -- 3.1 Why Is Model-Based Engineering Necessary? -- 3.2 What Is Modeling in MBSE? -- 3.2.1 Why Are Models Used? -- 3.2.1 Models and Views -- 3.3 Modeling Languages, Methods, and Tools for MBSE -- 3.3.1 Modeling Languages -- 3.3.2 MBSE Methodologies -- 3.3.3 MBSE Tools -- 3.4 Summary -- 3.5 Questions and Exercises -- References -- CHAPTER 4 The ISE&amp -- PPOOA Process -- 4.1 Integrating Systems Engineering and Software Architecting -- 4.2 Challenges of the ISE&amp -- PPOOA Process -- 4.2.1 Implementing Nonfunctional Requirements -- 4.2.2 Dealing with Functional and Physical Interfaces -- 4.3 Conceptual Model for Systems Engineering with ISE&amp -- PPOOA -- 4.4 Dimensions and Main Steps of the ISE&amp -- PPOOA Process -- 4.4.1 The Systems Engineering Subprocess -- 4.4.2 The Software Architecting Subprocess -- 4.5 An Extension of the Process for Energy Efficiency Concerns -- 4.6 Summary -- 4.7 Questions and Exercises -- References -- CHAPTER 5 Functional Architecture -- 5.1 The Importance of Functional Architecture -- 5.1.1 Functional Architecture in Systems Engineering -- 5.1.2 What About Functional Architecture for Software Intensive Systems?.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">5.2 A Function is a Transformation -- 5.2.1 Main Concepts Related to the Functional Architectural Model -- 5.2.2 Functional Architecture Models -- 5.3 Modeling the Functional Hierarchy -- 5.3.1 Top-Down Approach for a Functional Hierarchy -- 5.3.2 Bottom-Up Approach for a Functional Hierarchy -- 5.4 Modeling the Functional Flows -- 5.5 Describing Functions and Functional Interfaces -- 5.6 Functional Requirements -- 5.7 Summary -- 5.8 Questions and Exercises -- References -- CHAPTER 6 Heuristics to Apply in the Engineering of Systems -- 6.1 Heuristics Framework -- 6.2 Systems Architecting Heuristics -- 6.2.1 Heuristics for Step 3: Functional Architecture of the ISE Process -- 6.2.2 Heuristics for Step 4: Physical Architecture of the ISE Process -- 6.3 Reliability and Maintainability Heuristics -- 6.3.1 Reliability and Maintainability Heuristics for Step 4: Physical Architecture of the ISE Process -- 6.3.2 Maintainability Heuristics for Software Architecting: PPOOA Process -- 6.3.3 Heuristics for Restricting the Visibility of Responsibilities -- 6.3.4 Heuristics for Preventing Unintended Effects -- 6.4 Efficiency Heuristics -- 6.4.1 Heuristics for Managing Demand -- 6.4.2 Heuristics for Arbitrating Demand -- 6.4.3 Heuristics for Managing Multiple Resources -- 6.5 Safety Heuristics -- 6.5.1 Heuristics for Hazard Avoidance -- 6.5.2 Heuristics for Hazard Reduction -- 6.5.3 Heuristics for Hazard Control -- 6.5.4 Heuristics for Mitigation of the Effects -- 6.6 Resilience Heuristics -- 6.6.1 Heuristics for Surviving a Threat -- 6.6.2 Heuristics for Adapting to a Threat -- 6.6.3 Heuristics to Degrade Gracefully -- 6.6.4 Heuristics to Act as a Whole in the Face of a Threat -- 6.7 Software Architecting Heuristics Using the PPOOA Framework -- 6.8 Summary -- 6.9 Questions and Exercises -- References -- CHAPTER 7 Physical Architecture.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">7.1 Physical Architecture in Systems Engineering -- 7.1.1 Main Concepts Related to the Physical Architectural Model -- 7.1.2 Functional, Physical, and Quality Trees in ISE&amp -- PPOOA -- 7.1.3 Other Architecture Models -- 7.2 Allocation and Modularity -- 7.2.1 Representation of the Modular Architecture -- 7.2.2 Allocation -- 7.3 Design Heuristics for Refining the Architecture -- 7.3.1 Control Monitor Pattern -- 7.3.2 Triple Modular Redundancy Pattern -- 7.4 Software Architecting with the PPOOA Framework -- 7.4.1 Domain Model -- 7.4.2 Software Components and the PPOOA Vocabulary -- 7.4.3 Coordination Mechanisms -- 7.4.4 Software Behavior and Causal Flow of Activities -- 7.5 Summary -- 7.6 Questions and Exercises -- References -- CHAPTER 8 Example of Application: Unmanned Aerial Vehicle-Electrical Subsystem -- 8.1 Example Overview, Needs, and Capabilities -- 8.1.1 Operational Scenarios and Use Cases -- 8.1.2 System Capabilities -- 8.2 Functional Architecture and System Requirements -- 8.2.1 Functional Architecture -- 8.2.2 System Requirements -- 8.3 Physical Architecture and Heuristics Applied -- 8.3.1 Heuristics Applied -- 8.3.2 Physical Architecture -- 8.4 Summary -- References -- CHAPTER 9 Example of Application: Collaborative Robot -- 9.1 Example Overview, Needs, and Capabilities -- 9.1.1 Step 1: Identify Operational Scenarios -- 9.1.2 Step 2.a: Capabilities and High-Level Functional Requirements -- 9.1.3 Step 2.b: Quality Attributes and System NFRs -- 9.2 Functional Architecture and System Requirements -- 9.2.1 Functional Architecture -- 9.2.2 System Requirements -- 9.3 Physical Architecture and Heuristics Applied -- 9.3.1 Modular Architecture -- 9.3.2 Application of Heuristics to Refine the Physical Architecture -- 9.3.3 Representation of the Refined Physical Architecture -- 9.4 Software Architecture -- 9.4.1 Software Components.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">9.4.2 Casual Flows of Activities -- 9.4.3 Safety Heuristics -- 9.5 Summary -- References -- CHAPTER 10 Examples of Application: Energy Efficiency for the Steam Generation Process of a Coal Power Plant -- 10.1 Example Overview -- 10.2 Functional Architecture of the Steam Generation Process -- 10.3 Physical Architecture of the Steam Generation Subsystem -- 10.4 Equations and Correlations of the Matter and Energy Balances -- 10.5 Results -- 10.6 Summary -- 10.7 Questions and Exercises -- References -- CHAPTER 11 Trade-Off Analysis -- 11.1 Trade-Off and the Architecture Decision Process -- 11.2 Trade-Off Assessment Criteria and Utility Functions -- 11.3 A Trade-Off Subprocess to be Used with the ISE&amp -- PPOOA Process -- 11.4 Summary -- References -- CHAPTER 12 Other Topics of Interest and Next Steps -- 12.1 Agile Development -- 12.1.1 Principles and Misconceptions about Agility -- 12.1.2 Scalability in Agile Approaches -- 12.1.3 ISE&amp -- PPOOA Process and Agility -- 12.2 Architecture Evaluation and Model Checking -- 12.2.1 Architecture Evaluation -- 12.2.2 Diverse Practices for Architecture Evaluation -- 12.2.3 Model Assessment -- 12.3 Next Steps Recommended to the Reader -- 12.4 Summary -- References -- Appendix A SysML Notation -- A.1 Use of SysML in the ISE&amp -- PPOOA Methodology -- A.1.1 SysML Diagrams in ISE&amp -- PPOOA -- A.2 SysML for the ISE&amp -- PPOOA Structural Perspective -- A.2.1 Blocks and Block Definition Diagram -- A.2.2 SysML Internal Block Diagram: Parts, Ports, Connectors, and Flows -- A.3 SysML for the ISE&amp -- PPOOA Behavioral Perspective -- A.3.1 Activity Nodes -- A.3.2 Control Nodes -- A.4 Other SysML Elements and Views in ISE&amp -- PPOOA -- A.4.1 Allocation -- A.4.2 Use Case Diagram -- A.4.3 Constraint Blocks and Parametric Diagrams -- A.4.4 Requirements -- A.5 Complementing SysML: PPOOA Architecture Diagram.</subfield></datafield><datafield tag="650" ind1=" " ind2="0"><subfield code="a">Engineering mathematics.</subfield><subfield code="0">http://id.loc.gov/authorities/subjects/sh85043235</subfield></datafield><datafield tag="650" ind1=" " ind2="0"><subfield code="a">System design.</subfield><subfield code="0">http://id.loc.gov/authorities/subjects/sh85131736</subfield></datafield><datafield tag="650" ind1=" " ind2="0"><subfield code="a">Systems engineering</subfield><subfield code="x">Mathematical models.</subfield></datafield><datafield 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illustrated	Illustrated
indexdate	2024-10-25T15:50:22Z
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isbn	9781630815813 1630815810
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spelling	Fernández Pérez, José Luis, author. Practical model-based systems engineering / Jose L. Fernandez, Carlos Hernandez Boston ; London : Artech House, [2019] 1 online resource : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Technology management and professional development library Print version record Includes bibliographical references and index For systems engineers and practitioners, this book provides the analytic, design and modeling tools of the Model Based Systems Engineering (MBSE) methodology of Integrated Systems Engineering (ISE) and Pipelines of Processes in Object Oriented Architectures (PPOOA) methodology. -- Edited summary from book. Intro -- Practical Model-BasedSystems Engineering -- Contents -- Preface -- Acknowledgments -- CHAPTER 1 Introduction -- 1.1 Book Goals and Readers -- 1.2 Book Content -- 1.3 Diverse Paths for Reading the Book -- References -- CHAPTER 2 Systems Engineering -- 2.1 Definition and Properties of a System -- 2.2 The System Life Cycle -- 2.3 Systems Engineering: A Discipline to Deal with Complexity -- 2.3.1 The Need for Systems Engineering -- 2.3.2 Key Tasks of Systems Engineering -- 2.4 System Development Alternatives -- 2.4.1 Sequential Approach -- 2.4.2 Incremental Approach -- 2.4.3 Evolutionary Approach -- 2.5 Summary -- 2.6 Questions and Exercises -- References -- CHAPTER 3 Model-Based Systems Engineering -- 3.1 Why Is Model-Based Engineering Necessary? -- 3.2 What Is Modeling in MBSE? -- 3.2.1 Why Are Models Used? -- 3.2.1 Models and Views -- 3.3 Modeling Languages, Methods, and Tools for MBSE -- 3.3.1 Modeling Languages -- 3.3.2 MBSE Methodologies -- 3.3.3 MBSE Tools -- 3.4 Summary -- 3.5 Questions and Exercises -- References -- CHAPTER 4 The ISE&amp -- PPOOA Process -- 4.1 Integrating Systems Engineering and Software Architecting -- 4.2 Challenges of the ISE&amp -- PPOOA Process -- 4.2.1 Implementing Nonfunctional Requirements -- 4.2.2 Dealing with Functional and Physical Interfaces -- 4.3 Conceptual Model for Systems Engineering with ISE&amp -- PPOOA -- 4.4 Dimensions and Main Steps of the ISE&amp -- PPOOA Process -- 4.4.1 The Systems Engineering Subprocess -- 4.4.2 The Software Architecting Subprocess -- 4.5 An Extension of the Process for Energy Efficiency Concerns -- 4.6 Summary -- 4.7 Questions and Exercises -- References -- CHAPTER 5 Functional Architecture -- 5.1 The Importance of Functional Architecture -- 5.1.1 Functional Architecture in Systems Engineering -- 5.1.2 What About Functional Architecture for Software Intensive Systems?. 5.2 A Function is a Transformation -- 5.2.1 Main Concepts Related to the Functional Architectural Model -- 5.2.2 Functional Architecture Models -- 5.3 Modeling the Functional Hierarchy -- 5.3.1 Top-Down Approach for a Functional Hierarchy -- 5.3.2 Bottom-Up Approach for a Functional Hierarchy -- 5.4 Modeling the Functional Flows -- 5.5 Describing Functions and Functional Interfaces -- 5.6 Functional Requirements -- 5.7 Summary -- 5.8 Questions and Exercises -- References -- CHAPTER 6 Heuristics to Apply in the Engineering of Systems -- 6.1 Heuristics Framework -- 6.2 Systems Architecting Heuristics -- 6.2.1 Heuristics for Step 3: Functional Architecture of the ISE Process -- 6.2.2 Heuristics for Step 4: Physical Architecture of the ISE Process -- 6.3 Reliability and Maintainability Heuristics -- 6.3.1 Reliability and Maintainability Heuristics for Step 4: Physical Architecture of the ISE Process -- 6.3.2 Maintainability Heuristics for Software Architecting: PPOOA Process -- 6.3.3 Heuristics for Restricting the Visibility of Responsibilities -- 6.3.4 Heuristics for Preventing Unintended Effects -- 6.4 Efficiency Heuristics -- 6.4.1 Heuristics for Managing Demand -- 6.4.2 Heuristics for Arbitrating Demand -- 6.4.3 Heuristics for Managing Multiple Resources -- 6.5 Safety Heuristics -- 6.5.1 Heuristics for Hazard Avoidance -- 6.5.2 Heuristics for Hazard Reduction -- 6.5.3 Heuristics for Hazard Control -- 6.5.4 Heuristics for Mitigation of the Effects -- 6.6 Resilience Heuristics -- 6.6.1 Heuristics for Surviving a Threat -- 6.6.2 Heuristics for Adapting to a Threat -- 6.6.3 Heuristics to Degrade Gracefully -- 6.6.4 Heuristics to Act as a Whole in the Face of a Threat -- 6.7 Software Architecting Heuristics Using the PPOOA Framework -- 6.8 Summary -- 6.9 Questions and Exercises -- References -- CHAPTER 7 Physical Architecture. 7.1 Physical Architecture in Systems Engineering -- 7.1.1 Main Concepts Related to the Physical Architectural Model -- 7.1.2 Functional, Physical, and Quality Trees in ISE&amp -- PPOOA -- 7.1.3 Other Architecture Models -- 7.2 Allocation and Modularity -- 7.2.1 Representation of the Modular Architecture -- 7.2.2 Allocation -- 7.3 Design Heuristics for Refining the Architecture -- 7.3.1 Control Monitor Pattern -- 7.3.2 Triple Modular Redundancy Pattern -- 7.4 Software Architecting with the PPOOA Framework -- 7.4.1 Domain Model -- 7.4.2 Software Components and the PPOOA Vocabulary -- 7.4.3 Coordination Mechanisms -- 7.4.4 Software Behavior and Causal Flow of Activities -- 7.5 Summary -- 7.6 Questions and Exercises -- References -- CHAPTER 8 Example of Application: Unmanned Aerial Vehicle-Electrical Subsystem -- 8.1 Example Overview, Needs, and Capabilities -- 8.1.1 Operational Scenarios and Use Cases -- 8.1.2 System Capabilities -- 8.2 Functional Architecture and System Requirements -- 8.2.1 Functional Architecture -- 8.2.2 System Requirements -- 8.3 Physical Architecture and Heuristics Applied -- 8.3.1 Heuristics Applied -- 8.3.2 Physical Architecture -- 8.4 Summary -- References -- CHAPTER 9 Example of Application: Collaborative Robot -- 9.1 Example Overview, Needs, and Capabilities -- 9.1.1 Step 1: Identify Operational Scenarios -- 9.1.2 Step 2.a: Capabilities and High-Level Functional Requirements -- 9.1.3 Step 2.b: Quality Attributes and System NFRs -- 9.2 Functional Architecture and System Requirements -- 9.2.1 Functional Architecture -- 9.2.2 System Requirements -- 9.3 Physical Architecture and Heuristics Applied -- 9.3.1 Modular Architecture -- 9.3.2 Application of Heuristics to Refine the Physical Architecture -- 9.3.3 Representation of the Refined Physical Architecture -- 9.4 Software Architecture -- 9.4.1 Software Components. 9.4.2 Casual Flows of Activities -- 9.4.3 Safety Heuristics -- 9.5 Summary -- References -- CHAPTER 10 Examples of Application: Energy Efficiency for the Steam Generation Process of a Coal Power Plant -- 10.1 Example Overview -- 10.2 Functional Architecture of the Steam Generation Process -- 10.3 Physical Architecture of the Steam Generation Subsystem -- 10.4 Equations and Correlations of the Matter and Energy Balances -- 10.5 Results -- 10.6 Summary -- 10.7 Questions and Exercises -- References -- CHAPTER 11 Trade-Off Analysis -- 11.1 Trade-Off and the Architecture Decision Process -- 11.2 Trade-Off Assessment Criteria and Utility Functions -- 11.3 A Trade-Off Subprocess to be Used with the ISE&amp -- PPOOA Process -- 11.4 Summary -- References -- CHAPTER 12 Other Topics of Interest and Next Steps -- 12.1 Agile Development -- 12.1.1 Principles and Misconceptions about Agility -- 12.1.2 Scalability in Agile Approaches -- 12.1.3 ISE&amp -- PPOOA Process and Agility -- 12.2 Architecture Evaluation and Model Checking -- 12.2.1 Architecture Evaluation -- 12.2.2 Diverse Practices for Architecture Evaluation -- 12.2.3 Model Assessment -- 12.3 Next Steps Recommended to the Reader -- 12.4 Summary -- References -- Appendix A SysML Notation -- A.1 Use of SysML in the ISE&amp -- PPOOA Methodology -- A.1.1 SysML Diagrams in ISE&amp -- PPOOA -- A.2 SysML for the ISE&amp -- PPOOA Structural Perspective -- A.2.1 Blocks and Block Definition Diagram -- A.2.2 SysML Internal Block Diagram: Parts, Ports, Connectors, and Flows -- A.3 SysML for the ISE&amp -- PPOOA Behavioral Perspective -- A.3.1 Activity Nodes -- A.3.2 Control Nodes -- A.4 Other SysML Elements and Views in ISE&amp -- PPOOA -- A.4.1 Allocation -- A.4.2 Use Case Diagram -- A.4.3 Constraint Blocks and Parametric Diagrams -- A.4.4 Requirements -- A.5 Complementing SysML: PPOOA Architecture Diagram. Engineering mathematics. http://id.loc.gov/authorities/subjects/sh85043235 System design. http://id.loc.gov/authorities/subjects/sh85131736 Systems engineering Mathematical models. Mathématiques de l'ingénieur. Conception de systèmes. Ingénierie des systèmes Modèles mathématiques. Engineering mathematics fast System design fast Systems engineering Mathematical models fast Hernandez, Carlos, author. has work: Practical model-based systems engineering (Text) https://id.oclc.org/worldcat/entity/E39PCGcxHDmgWYhxQ973kKpTMd https://id.oclc.org/worldcat/ontology/hasWork Print version: Fernández Pérez, José Luis. Practical model-based systems engineering. Boston : London : Artech House, [2019] 1630815799 (DLC) 2019303571 (OCoLC)1091588118 Artech House technology management and professional development library. http://id.loc.gov/authorities/names/no99016823 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2227830 Volltext CBO01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2227830 Volltext
spellingShingle	Fernández Pérez, José Luis Hernandez, Carlos Practical model-based systems engineering / Artech House technology management and professional development library. Intro -- Practical Model-BasedSystems Engineering -- Contents -- Preface -- Acknowledgments -- CHAPTER 1 Introduction -- 1.1 Book Goals and Readers -- 1.2 Book Content -- 1.3 Diverse Paths for Reading the Book -- References -- CHAPTER 2 Systems Engineering -- 2.1 Definition and Properties of a System -- 2.2 The System Life Cycle -- 2.3 Systems Engineering: A Discipline to Deal with Complexity -- 2.3.1 The Need for Systems Engineering -- 2.3.2 Key Tasks of Systems Engineering -- 2.4 System Development Alternatives -- 2.4.1 Sequential Approach -- 2.4.2 Incremental Approach -- 2.4.3 Evolutionary Approach -- 2.5 Summary -- 2.6 Questions and Exercises -- References -- CHAPTER 3 Model-Based Systems Engineering -- 3.1 Why Is Model-Based Engineering Necessary? -- 3.2 What Is Modeling in MBSE? -- 3.2.1 Why Are Models Used? -- 3.2.1 Models and Views -- 3.3 Modeling Languages, Methods, and Tools for MBSE -- 3.3.1 Modeling Languages -- 3.3.2 MBSE Methodologies -- 3.3.3 MBSE Tools -- 3.4 Summary -- 3.5 Questions and Exercises -- References -- CHAPTER 4 The ISE&amp -- PPOOA Process -- 4.1 Integrating Systems Engineering and Software Architecting -- 4.2 Challenges of the ISE&amp -- PPOOA Process -- 4.2.1 Implementing Nonfunctional Requirements -- 4.2.2 Dealing with Functional and Physical Interfaces -- 4.3 Conceptual Model for Systems Engineering with ISE&amp -- PPOOA -- 4.4 Dimensions and Main Steps of the ISE&amp -- PPOOA Process -- 4.4.1 The Systems Engineering Subprocess -- 4.4.2 The Software Architecting Subprocess -- 4.5 An Extension of the Process for Energy Efficiency Concerns -- 4.6 Summary -- 4.7 Questions and Exercises -- References -- CHAPTER 5 Functional Architecture -- 5.1 The Importance of Functional Architecture -- 5.1.1 Functional Architecture in Systems Engineering -- 5.1.2 What About Functional Architecture for Software Intensive Systems?. 5.2 A Function is a Transformation -- 5.2.1 Main Concepts Related to the Functional Architectural Model -- 5.2.2 Functional Architecture Models -- 5.3 Modeling the Functional Hierarchy -- 5.3.1 Top-Down Approach for a Functional Hierarchy -- 5.3.2 Bottom-Up Approach for a Functional Hierarchy -- 5.4 Modeling the Functional Flows -- 5.5 Describing Functions and Functional Interfaces -- 5.6 Functional Requirements -- 5.7 Summary -- 5.8 Questions and Exercises -- References -- CHAPTER 6 Heuristics to Apply in the Engineering of Systems -- 6.1 Heuristics Framework -- 6.2 Systems Architecting Heuristics -- 6.2.1 Heuristics for Step 3: Functional Architecture of the ISE Process -- 6.2.2 Heuristics for Step 4: Physical Architecture of the ISE Process -- 6.3 Reliability and Maintainability Heuristics -- 6.3.1 Reliability and Maintainability Heuristics for Step 4: Physical Architecture of the ISE Process -- 6.3.2 Maintainability Heuristics for Software Architecting: PPOOA Process -- 6.3.3 Heuristics for Restricting the Visibility of Responsibilities -- 6.3.4 Heuristics for Preventing Unintended Effects -- 6.4 Efficiency Heuristics -- 6.4.1 Heuristics for Managing Demand -- 6.4.2 Heuristics for Arbitrating Demand -- 6.4.3 Heuristics for Managing Multiple Resources -- 6.5 Safety Heuristics -- 6.5.1 Heuristics for Hazard Avoidance -- 6.5.2 Heuristics for Hazard Reduction -- 6.5.3 Heuristics for Hazard Control -- 6.5.4 Heuristics for Mitigation of the Effects -- 6.6 Resilience Heuristics -- 6.6.1 Heuristics for Surviving a Threat -- 6.6.2 Heuristics for Adapting to a Threat -- 6.6.3 Heuristics to Degrade Gracefully -- 6.6.4 Heuristics to Act as a Whole in the Face of a Threat -- 6.7 Software Architecting Heuristics Using the PPOOA Framework -- 6.8 Summary -- 6.9 Questions and Exercises -- References -- CHAPTER 7 Physical Architecture. 7.1 Physical Architecture in Systems Engineering -- 7.1.1 Main Concepts Related to the Physical Architectural Model -- 7.1.2 Functional, Physical, and Quality Trees in ISE&amp -- PPOOA -- 7.1.3 Other Architecture Models -- 7.2 Allocation and Modularity -- 7.2.1 Representation of the Modular Architecture -- 7.2.2 Allocation -- 7.3 Design Heuristics for Refining the Architecture -- 7.3.1 Control Monitor Pattern -- 7.3.2 Triple Modular Redundancy Pattern -- 7.4 Software Architecting with the PPOOA Framework -- 7.4.1 Domain Model -- 7.4.2 Software Components and the PPOOA Vocabulary -- 7.4.3 Coordination Mechanisms -- 7.4.4 Software Behavior and Causal Flow of Activities -- 7.5 Summary -- 7.6 Questions and Exercises -- References -- CHAPTER 8 Example of Application: Unmanned Aerial Vehicle-Electrical Subsystem -- 8.1 Example Overview, Needs, and Capabilities -- 8.1.1 Operational Scenarios and Use Cases -- 8.1.2 System Capabilities -- 8.2 Functional Architecture and System Requirements -- 8.2.1 Functional Architecture -- 8.2.2 System Requirements -- 8.3 Physical Architecture and Heuristics Applied -- 8.3.1 Heuristics Applied -- 8.3.2 Physical Architecture -- 8.4 Summary -- References -- CHAPTER 9 Example of Application: Collaborative Robot -- 9.1 Example Overview, Needs, and Capabilities -- 9.1.1 Step 1: Identify Operational Scenarios -- 9.1.2 Step 2.a: Capabilities and High-Level Functional Requirements -- 9.1.3 Step 2.b: Quality Attributes and System NFRs -- 9.2 Functional Architecture and System Requirements -- 9.2.1 Functional Architecture -- 9.2.2 System Requirements -- 9.3 Physical Architecture and Heuristics Applied -- 9.3.1 Modular Architecture -- 9.3.2 Application of Heuristics to Refine the Physical Architecture -- 9.3.3 Representation of the Refined Physical Architecture -- 9.4 Software Architecture -- 9.4.1 Software Components. 9.4.2 Casual Flows of Activities -- 9.4.3 Safety Heuristics -- 9.5 Summary -- References -- CHAPTER 10 Examples of Application: Energy Efficiency for the Steam Generation Process of a Coal Power Plant -- 10.1 Example Overview -- 10.2 Functional Architecture of the Steam Generation Process -- 10.3 Physical Architecture of the Steam Generation Subsystem -- 10.4 Equations and Correlations of the Matter and Energy Balances -- 10.5 Results -- 10.6 Summary -- 10.7 Questions and Exercises -- References -- CHAPTER 11 Trade-Off Analysis -- 11.1 Trade-Off and the Architecture Decision Process -- 11.2 Trade-Off Assessment Criteria and Utility Functions -- 11.3 A Trade-Off Subprocess to be Used with the ISE&amp -- PPOOA Process -- 11.4 Summary -- References -- CHAPTER 12 Other Topics of Interest and Next Steps -- 12.1 Agile Development -- 12.1.1 Principles and Misconceptions about Agility -- 12.1.2 Scalability in Agile Approaches -- 12.1.3 ISE&amp -- PPOOA Process and Agility -- 12.2 Architecture Evaluation and Model Checking -- 12.2.1 Architecture Evaluation -- 12.2.2 Diverse Practices for Architecture Evaluation -- 12.2.3 Model Assessment -- 12.3 Next Steps Recommended to the Reader -- 12.4 Summary -- References -- Appendix A SysML Notation -- A.1 Use of SysML in the ISE&amp -- PPOOA Methodology -- A.1.1 SysML Diagrams in ISE&amp -- PPOOA -- A.2 SysML for the ISE&amp -- PPOOA Structural Perspective -- A.2.1 Blocks and Block Definition Diagram -- A.2.2 SysML Internal Block Diagram: Parts, Ports, Connectors, and Flows -- A.3 SysML for the ISE&amp -- PPOOA Behavioral Perspective -- A.3.1 Activity Nodes -- A.3.2 Control Nodes -- A.4 Other SysML Elements and Views in ISE&amp -- PPOOA -- A.4.1 Allocation -- A.4.2 Use Case Diagram -- A.4.3 Constraint Blocks and Parametric Diagrams -- A.4.4 Requirements -- A.5 Complementing SysML: PPOOA Architecture Diagram. Engineering mathematics. http://id.loc.gov/authorities/subjects/sh85043235 System design. http://id.loc.gov/authorities/subjects/sh85131736 Systems engineering Mathematical models. Mathématiques de l'ingénieur. Conception de systèmes. Ingénierie des systèmes Modèles mathématiques. Engineering mathematics fast System design fast Systems engineering Mathematical models fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85043235 http://id.loc.gov/authorities/subjects/sh85131736
title	Practical model-based systems engineering /
title_auth	Practical model-based systems engineering /
title_exact_search	Practical model-based systems engineering /
title_full	Practical model-based systems engineering / Jose L. Fernandez, Carlos Hernandez
title_fullStr	Practical model-based systems engineering / Jose L. Fernandez, Carlos Hernandez
title_full_unstemmed	Practical model-based systems engineering / Jose L. Fernandez, Carlos Hernandez
title_short	Practical model-based systems engineering /
title_sort	practical model based systems engineering
topic	Engineering mathematics. http://id.loc.gov/authorities/subjects/sh85043235 System design. http://id.loc.gov/authorities/subjects/sh85131736 Systems engineering Mathematical models. Mathématiques de l'ingénieur. Conception de systèmes. Ingénierie des systèmes Modèles mathématiques. Engineering mathematics fast System design fast Systems engineering Mathematical models fast
topic_facet	Engineering mathematics. System design. Systems engineering Mathematical models. Mathématiques de l'ingénieur. Conception de systèmes. Ingénierie des systèmes Modèles mathématiques. Engineering mathematics System design Systems engineering Mathematical models
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2227830
work_keys_str_mv	AT fernandezperezjoseluis practicalmodelbasedsystemsengineering AT hernandezcarlos practicalmodelbasedsystemsengineering

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