LEADER 10882oam 22005293 450 001 9910810313603321 005 20220831094609.0 010 $a9781119028062$b(electronic bk.) 010 $z9781119027904 035 $a(MiAaPQ)EBC4391537 035 $a(Au-PeEL)EBL4391537 035 $a(CaPaEBR)ebr11235852 035 $a(CaONFJC)MIL895587 035 $a(OCoLC)926050644 035 $a(EXLCZ)9917690424400041 100 $a20220831d2016 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 14$aThe Engineering Design of Systems $eModels and Methods 205 $a3rd ed. 210 1$aNew York :$cJohn Wiley & Sons, Incorporated,$d2016. 210 4$dİ2016. 215 $a1 online resource (583 pages) 225 1 $aWiley Series in Systems Engineering and Management Ser. 311 08$aPrint version: Buede, Dennis M. The Engineering Design of Systems New York : John Wiley & Sons, Incorporated,c2016 9781119027904 327 $aThe Engineering Design of Systems: Models and Methods -- Contents -- Preface -- About the Companion Website -- Part 1: Introduction, Overview, and Basic Knowledge -- Chapter 1: Introduction to Systems Engineering -- 1.1 Introduction -- 1.2 Overview of the Engineering of Systems -- 1.3 Approaches for Implementing Systems Engineering -- 1.3.1 TTDSE -- 1.3.2 The Waterfall Model of Software Engineering -- 1.3.3 The Spiral Model of Software Engineering -- 1.3.4 Object-Oriented Design -- 1.4 Modeling Approaches for Systems Engineering -- 1.4.1 Modeling Approaches for TTDSE -- 1.4.2 UML -- 1.4.3 DoDAF -- 1.4.4 SysML -- 1.5 Introducing the Concept of Architectures -- 1.6 Requirements -- 1.7 System's Life Cycle -- 1.8 Design and Integration Process -- 1.9 Types of Systems -- 1.10 Summary -- Chapter 2: Overview of the Systems Engineering Design Process -- 2.1 Introduction -- 2.2 Design Process -- 2.2.1 Key Terms -- 2.2.2 Design -- 2.2.3 Integration and Qualification -- 2.3 Key Systems Engineering Concepts -- 2.3.1 Operational Concept -- 2.3.2 External Systems Diagram -- 2.3.3 Objectives Hierarchy -- 2.3.4 Requirements -- 2.3.5 Functions -- 2.3.6 Items -- 2.3.7 Components -- 2.3.8 Interfaces -- 2.3.9 Verification -- 2.3.10 Validation -- 2.3.11 Acceptance -- 2.4 Introduction to Sysml -- 2.5 Use of Core (Systems Engineering Tool) -- 2.5.1 Classes -- 2.5.2 Relations -- 2.5.3 Documents -- 2.6 Summary -- Chapter 3: Modeling and Sysml Modeling -- 3.1 Introduction -- 3.2 Models and Modeling -- 3.3 Sysml Modeling -- 3.4 Meta-System Modeling -- 3.5 Static Behavioral Process Modeling With IDEF0 -- 3.5.1 IDEF0 Semantics or Elements -- 3.5.2 IDEF0 Diagram Syntax -- 3.5.3 IDEF0 Model Syntax -- 3.5.4 IDEF0 Advanced Concepts -- 3.5.5 Systems Engineering Use of IDEF0 Models -- 3.6 Dynamic Behavioral Process Modeling With EFFBDs. 327 $a3.7 Structural Modeling of the System'S Components -- 3.8 Requirements Modeling -- 3.9 Performance Modeling -- 3.10 Summary -- Chapter 4: Discrete Mathematics: Sets, Relations, and Functions -- 4.1 Introduction -- 4.2 Sets -- 4.2.1 Writing Set Membership -- 4.2.2 Describing Members of a Set -- 4.2.3 Special Sets -- 4.2.4 Operations on Sets -- 4.2.5 Partitions -- 4.2.6 Power Set -- 4.3 Relations -- 4.3.1 Ordered Pairs and Cartesian Products -- 4.3.2 Unary and Binary Relations -- 4.3.3 Properties of Unary Relations on A -- 4.3.4 Partial Ordering -- 4.3.5 Equivalence Relations -- 4.4 Functions -- 4.4.1 Definitions -- 4.4.2 Composition -- 4.5 Summary -- Chapter 5: Graphs and Directed Graphs (Digraphs) -- 5.1 Introduction -- 5.2 Terminology -- 5.3 Paths and Cycles -- 5.4 Connectedness -- 5.5 Adjacency and Reachability -- 5.6 Unary Relations and Digraphs -- 5.7 Ordering Relations -- 5.8 Isomorphisms -- 5.9 Trees -- 5.9.1 Spanning Trees -- 5.9.2 Directed Trees -- 5.9.3 Forest -- 5.10 Finding Cycles and Semicycles in a Graph -- 5.11 Revisiting IDEF0 Diagrams -- 5.12 Summary -- Part 2: Design and Integration -- Chapter 6: Requirements and Defining the Design Problem -- 6.1 Introduction -- 6.2 Requirements -- 6.3 Definitions -- 6.4 Stakeholders' Requirements Development: Defining the Design Problem -- 6.5 Requirements Categories -- 6.6 Requirements Partition -- 6.7 Stakeholders' Requirements Document (Stkhldrsrd) -- 6.8 Characteristics of Sound Requirements -- 6.9 Writing Requirements -- 6.10 Operational Concept -- 6.11 External Systems Diagram -- 6.12 Objectives Hierarchy for Performance Requirements -- 6.13 Prototyping, Analyses, and Usability Testing -- 6.14 Defining the Stakeholders' Requirements -- 6.14.1 Input/Output Requirements -- 6.14.2 System-Wide and Technology Requirements -- 6.14.3 Trade-Off Requirements -- 6.14.4 Qualification Requirements. 327 $a6.15 Requirements Management -- 6.16 Summary -- Chapter 7: Functional Architecture Development -- 7.1 Introduction -- 7.2 Defining Terminology for a Functional Architecture -- 7.3 Functional Architecture Development -- 7.3.1 Functional Architecture Process Model -- 7.3.2 Decomposition versus Composition -- 7.4 Defining a System'S Functions -- 7.4.1 Approaches for Defining Functions -- 7.4.2 Typical Functional Decompositions by Life Cycle Phase -- 7.4.3 Feedback and Control in Functional Design -- 7.4.4 Evaluation of a Functional Hierarchy -- 7.5 Development of the Functional Decomposition -- 7.6 Finishing the Functional Architecture -- 7.7 Tracing Requirements to Elements of the Functional Architecture -- 7.8 Summary -- Chapter 8: Physical Architecture Development -- 8.1 Introduction -- 8.2 Generic Versus Instantiated Physical Architectures -- 8.3 Overview of Physical Architecture Development -- 8.4 Creativity Techniques -- 8.4.1 Morphological Box -- 8.4.2 Option Creation Techniques -- 8.5 Graphic Representations of the Physical Architecture -- 8.6 Issues in Physical Architecture Development -- 8.6.1 Major Concepts for Physical Architectures -- 8.6.2 Design Flexibility -- 8.6.3 Design Advantages of Product Platforms -- 8.6.4 Use of Redundancy to Achieve Fault Tolerance -- 8.7 Summary -- Chapter 9: Allocated Architecture Development -- 9.1 Introduction -- 9.2 Overview -- 9.3 Allocate Functions to Components -- 9.3.1 Define the Allocation Problem -- 9.3.2 Approaches for Solving the Allocation Problem -- 9.3.3 Finishing the Allocation Problem -- 9.4 Trace Non-Input/Output Requirements and Derive Requirements -- 9.4.1 Derive Internal Input/Output Requirements -- 9.4.2 Trace System-Wide Requirements and Derive Subsystem-Wide Requirements -- 9.4.3 Trace Trade-Off Requirements and Derive Subsystem Trade-Off Requirements. 327 $a9.4.4 Trace Qualification Requirements and Derive Subsystem Qualification Requirements -- 9.5 Define and Analyze Functional Activation and Control Structure -- 9.6 Conduct Performance and Risk Analyses -- 9.7 Document Architectures and Obtain Approval -- 9.8 Document Subsystem Specifications -- 9.9 Summary -- Chapter 10: Interface Design -- 10.1 Introduction -- 10.2 Overview of Interface Development -- 10.3 Interface Architectures -- 10.3.1 Message Passing Architectures -- 10.3.2 Shared Memory Architectures -- 10.3.3 Network Architectures -- 10.4 Standards -- 10.5 Open Systems Interconnection Architecture -- 10.6 Common Object Request Broker Architecture -- 10.7 Interface Design Process -- 10.8 Summary -- Chapter 11: Integration and Qualification -- 11.1 Introduction -- 11.2 Distinctions Among Acceptance, Validation, and Verification Testing -- 11.3 Overview of Integration -- 11.4 Alternate Integration Processes -- 11.5 Some Qualification Terminology -- 11.6 Defining the Qualification System -- 11.7 Qualification Methods -- 11.8 Acceptance Testing -- 11.8.1 Deciding What to Test -- 11.8.2 Usability -- 11.9 Summary -- Chapter 12: A Complete Exercise of the Systems Engineering Process -- 12.1 Introduction -- 12.2 Operational Concept -- 12.3 External Systems Diagram -- 12.4 Fundamental Objectives -- 12.5 Stakeholders' Requirements -- 12.6 Functional Architecture -- 12.7 Physical and Allocated Architectures -- 12.8 Interface Design -- 12.9 Integration and Qualification -- 12.10 Beginning the Subsystem Layer -- Part 3: Supplemental Topics -- Chapter 13: Graphical Modeling Techniques -- 13.1 Introduction -- 13.2 Data Modeling -- 13.2.1 Entity-Relationship Diagrams -- 13.2.2 Higraphs -- 13.3 Process Modeling -- 13.3.1 Data Flow Diagrams -- 13.3.2 N-Squared (N) Charts -- 13.4 Behavior Modeling -- 13.4.1 Behavior Diagrams. 327 $a13.4.2 Finite-State Machines and State Transition Diagrams -- 13.4.3 Statecharts -- 13.4.4 Control Flow Diagrams -- 13.4.5 Petri Nets -- 13.5 Summary -- Chapter 14: Decision Analysis for Design Trades -- 14.1 Introduction -- 14.2 Elements of Decision Problems -- 14.3 Axioms of Decision Analysis -- 14.4 Multiattribute Value Analysis -- 14.4.1 Eliciting Value Functions -- 14.4.2 Eliciting Value Weights -- 14.4.2.1 Direct Weight Elicitation Techniques -- 14.4.2.2 Indirect Weight Elicitation Techniques -- 14.5 Uncertainty in Decisions -- 14.5.1 Probability Theory -- 14.5.2 Relevance Diagrams -- 14.5.3 Influence Diagrams and Decision Trees -- 14.5.4 Risk Preference and Expected Utility -- 14.5.4.1 Assessing a Risk Preference Function -- 14.5.4.2 Exponential Risk Preference -- 14.6 Sample Application -- 14.6.1 MPWS Overview -- 14.6.2 Operational Concept for MPWS -- 14.6.3 External Systems Diagram -- 14.6.4 Requirements -- 14.6.4.1 Utility Curves -- 14.6.4.2 Weights -- 14.6.5 Use of Utility Curves and Weights -- 14.6.6 Conclusions -- 14.7 Summary -- Chapter 15: The Science and Analysis of Systems -- 15.1 Introduction -- 15.2 General System Theory -- 15.3 Systems Science -- 15.4 Natural Systems -- 15.5 Cybernetics -- 15.6 Systems Thinking -- 15.7 Quantitative Characterization of Systems -- 15.7.1 Elevator -- 15.7.2 Soda Machine -- 15.7.3 Aircraft -- 15.8 System Dynamics -- 15.9 Constraint Theory -- 15.10 Fermi Problems and Guesstimation -- 15.11 Summary -- Chapter 16: The Value of Systems Engineering -- 16.1 Introduction -- 16.2 Value Propositions for Systems Engineering -- 16.2.1 Systems Engineering as a Goal-Seeking System -- 16.2.2 Systems Engineering as a Communications Interface -- 16.2.3 Systems Engineering to Avert Showstoppers -- 16.2.4 Systems Engineering to Find and Fix Errors -- 16.2.5 Systems Engineering as Risk Mitigation. 327 $a16.2.6 Continuous Improvement. 410 0$aWiley Series in Systems Engineering and Management Ser. 606 $aSystems engineering 608 $aElectronic books. 615 0$aSystems engineering. 676 $a620.001/171 700 $aBuede$b Dennis M$0981668 701 $aMiller$b William D$0174210 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 912 $a9910810313603321 996 $aThe Engineering Design of Systems$94021291 997 $aUNINA