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" Object-process methodology a holistic systems paradigm "
Dov Dori
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BL
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727067
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b546799
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| Main Entry
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Dov Dori
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Object-process methodology a holistic systems paradigm\ Dov Dori
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| Edition Statement
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Softcover repr. of the hardcover 1. ed. 2002
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| Publication Statement
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Berlin Springer, 2013
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XXV, 453 Seiten Diagramme 235 x 155 mm
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| ISBN
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364262989X
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: 9783642629891
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| Notes
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Additional material to this book can be downloaded from =http://extras.springer.com;Literaturverz. S. [435] - 441
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| Contents
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I Foundations of Object-Process Methodology.- 1 A Taste of OPM.- 1.1 The Wedding Example: A Sneak Preview of OPM.- 1.2 OPM Building Blocks: Objects, Processes, and States.- 1.3 Specialization and Inheritance.- 1.4 Aggregation and the Result Link.- Summary.- Problems.- 2 Object-Process Diagrams.- 2.1 Objects and Aggregation.- 2.2 Structural Relations and Structural Links.- 2.3 Processes and Procedural Links.- 2.4 System Diagram: The Top-Level OPD.- 2.5 Zooming into the Transaction Executing Process.- 2.6 The OPD Set.- 2.7 How to Read an OPD.- 2.7.1 Flow of Control.- 2.7.2 The Timeline in OPDs.- 2.7.3 Object States and Conditions.- 2.8 Completing the In-Zoomed Transaction Executing OPD.- 2.8.1 Logical XOR, AND, and OR Operators.- 2.8.2 The System Map.- 2.8.3 The Ultimate OPD.- 2.8.4 Zooming Out of Transaction Executing.- Summary.- Problems.- 3 Object-Process Language.- 3.1 Motivation for a Language.- 3.1.1 Real-Time Textual Feedback.- 3.1.2 Closing the Requirements-Implementation Gap.- 3.2 Structural Links and Structure Sentences.- 3.2.1 The First OPL Sentence.- 3.2.2 The First OPL Aggregation Sentence.- 3.3 The OPL Paragraph and the Graphics-Text Principle.- 3.3.1 Extending the OPL Paragraph.- 3.3.2 Enabling Sentences.- 3.3.3 Transformation Sentences.- 3.3.4 The SD Paragraph.- 3.4 More OPL Sentence Types.- 3.4.1 State Enumeration and Condition Sentences.- 3.4.2 AND, XOR, and OR Logical Operators.- 3.4.3 The SD1 Paragraph.- 3.4.4 In-Zooming and Out-Zooming Sentences.- 3.5 Boolean Objects and Determination Sentence.- 3.5.1 Boolean Condition Sentences.- 3.5.2 Compound Condition Sentences.- 3.5.3 State-Specified Generation Sentence.- 3.5.4 Converting a Dual-State Object into a Boolean Object.- 3.6 OPD-OPL Item Pairs and Synergy.- Summary.- Problems.- 4 Objects and Processes.- 4.1 Existence, Things, and Transformations.- 4.1.1 Objects.- 4.1.2 Transformation and Processes.- 4.2 Processes and Time.- 4.2.1 Cause and Effect.- 4.2.2 Syntactic vs. Semantic Sentence Analysis.- 4.2.3 The Process Test.- 4.3 Things.- 4.3.1 Things and Entities.- 4.3.2 The Perseverance of Things.- 4.3.3 The Essence of Things.- 4.3.4 Symbolizing Physical Things.- 4.3.5 The Origin of Things.- 4.3.6 The Complexity of Things.- 4.3.7 Thing Types.- 4.3.8 The Relativity of Object and Process Importance.- 4.3.9 Object and Process Naming.- 4.4 Informatical Objects.- 4.4.1 Telling Informatical and Physical Objects Apart.- 4.4.2 Systems and Information Systems.- 4.4.3 Translation of Informatical Objects.- 4.4.4 Toward "Pure" Informatical Objects.- 4.5 Object Identity.- 4.5.1 Change of State or Change of Identity?.- 4.5.2 Classes and Instances of Objects and Processes.- Summary.- Problems.- II Concepts of OPM Systems Modeling.- 5Dynamics.- 5.1 States.- 5.1.1 Object States and Status.- 5.1.2 Change and Effect.- 5.1.3 Explicit and Implicit Status Representations.- 5.1.4 The Input, Output, and Effect Links.- 5.1.5 State Suppression and the Effect Link.- 5.1.6 State Expression.- 5.2 Existence and Transformation.- 5.2.1 Result and Consumption Links.- 5.2.2 Procedural Links, Enablers, and Transformees.- 5.2.3 Enablers.- 5.2.4 Agents.- 5.2.5 Instruments.- 5.2.6 Enabling Links.- 5.2.7 Transformees.- 5.2.8 Odd Man Out: The Invocation Linkt.- 5.3 Object Roles with Respect to a Process.- 5.3.1 Enablers and Affectees.- 5.3.2 The Involved, Preprocess, and Postprocess Object Sets.- 5.3.3 Condition and Agent Condition Links.- 5.3.4 Operator, Operand, and Transform?.- Summary.- Problems.- 6Structure.- 6.1 Structural Relations.- 6.1.1 Structural Links.- 6.1.2 Structural Relation Directions.- 6.1.3 Unidirectional Structural Link.- 6.1.4 OPD Sentences.- 6.1.5 The Reciprocity of a Structural Relation.- 6.1.6 Null Tags and Their Default OPL Reserved Phrases.- 6.1.7 Structural Relations as Static Verbs.- 6.2 Participation Constraints and Cardinality.- 6.2.1 Participation Constraints.- 6.2.2 Parameterized Participation Constraints.- 6.2.3 Range Participation Constraints.- 6.2.4 Shorthand Notations and Reserved Phrases.- 6.2.5 Cardinality.- 6.2.6 Participation Constraints in Procedural Relations.- 6.3 The Distributive Law and Forks.- 6.3.1 Forks.- 6.3.2 Fork Degree.- 6.3.3 Fork Comprehensiveness.- 6.4 The Transitivity of Structural Relations.- 6.5 The Four Fundamental Structural Relations.- Summary.- Problems.- 7Aggregation and Exhibition.- 7.1 Aggregation-Participation: Underlying Concepts.- 7.1.1 Aggregation-Participation as a Tagged Structural Relation.- 7.1.2 The Aggregation-Participation Symbol.- 7.1.3 Sets and Order.- 7.1.4 Aggregate Naming.- 7.1.5 Aggregating Processes.- 7.2 Aggregation Hierarchy and Comprehensiveness.- 7.2.1 Aggregation Hierarchy.- 7.2.2 Aggregation Comprehensiveness.- 7.2.3 Parameterized Participation Constraints.- 7.2.4 Participation Level and Aggregational Complexity.- 7.3 Exhibition-Characterization: Underlying Concepts.- 7.3.1 The Name Exhibition-Characterization.- 7.3.2 The Exhibition-Characterization Symbol.- 7.3.3 Attribute and Operation Are Features.- 7.3.4 Exhibition Complexity.- 7.4 Features in 00 vs.
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OPM.- 7.5 The Four Thing-Feature Combinations.- 7.5.1 The Object-Attribute Combination.- 7.5.2 The Object-Operation Combination.- 7.5.3 The Process-Attribute Combination.- 7.5.4 Process-Operation Combination.- 7.6 The Feature Hierarchy.- 7.7 Feature-Related Natural Language Issues.- 7.7.1 Attribute Naming Dilemmas.- 7.7.2 Reserved Objects and the Measurement Unit Reserved Object.- 7.7.3 Continuous Values and Multi-Valued Attributes.- 7.7.4 Mathematical Inequalities in OPM.- 7.8 Reflective Metamodeling of an Attribute.- 7.8.1 The Size of an Attribute.- 7.8.2 The Mode of an Attribute.- 7.8.3 The Touch of an Attribute.- 7.8.4 The Source of a Feature.- 7.8.5 The Operation a Feature Carries.- Summary.- Problems.- 8 Generalization and Instantiation.- 8.1 Generalization-Specialization: Introduction.- 8.1.1 Specialization Symbol and Sentence.- 8.1.2 Process Specialization.- 8.2 Inheritance.- 8.2.1 Feature Inheritance.- 8.2.2 Structural Relations Inheritance.- 8.2.3 Procedural Link Inheritance.- 8.2.4 State Inheritance.- 8.2.5 State Specialization.- 8.2.6 Process Specialization.- 8.2.7 Generalization Complexity.- 8.3 Qualification.- 8.3.1 Qualification Inheritance.- 8.3.2 Multiple Qualification Inheritance.- 8.4 Classification-Instantiation.- 8.4.1 Classes and Instances.- 8.4.2 The Relation Between Instantiation and Specialization.- 8.4.3 The Relativity of Instance.- 8.4.4 Instance Qualification.- 8.4.5 Process Instances.- 8.4.6 Classification Complexity.- 8.5 Modifiers and Instances.- 8.5.1 Natural Language Modifiers and Shortcuts.- 8.5.2 Adjectives and Attributes.- 8.5.3 Adverbs and Operations.- 8.6 Specializations of the Involved Object Set Members.- 8.7 Non-Comprehensiveness.- 8.7.1 Non-Comprehensiveness of Fundamental Structural Relations.- 8.7.2 Non-Comprehensiveness of States and Values.- Summary.- Problems.- 9 Managing Systems' Complexity.- 9.1 The Need for Complexity Management.- 9.1.1 Middle-Out as the De-Facto Architecting Practice.- 9.1.2 Determining the Extent of Refinement.- 9.1.3 Towards Quantifying Complexity.- 9.2 Divide and Conquer: By Aspects or by Details?.- 9.2.1 Why is Detail Decomposition Good?.- 9.2.2 When Should a New OPD Be Created?.- 9.3 The Attributes of Scaling.- 9.3.1 The Purpose of Scaling.- 9.3.2 The Mode of Scaling.- 9.3.3 Controlling Visibility by In- and Out-Zooming.- 9.3.4 The Distributivity of Procedural Links.- 9.3.5 Unfolding and Folding.- 9.3.6 State Expressing and Suppressing.- 9.3.7 Primary and Secondary Operands.- 9.4 Abstracting.- 9.4.1 Consolidating.- 9.4.2 Zoom consolidating.- 9.4.3 Paths and Path Labels.- 9.4.4 Zoom Consolidating Pitfalls.- 9.4.5 Zoom Consolidating Conditions.- 9.4.6 Fold Consolidating.- 9.5 What Happens to Procedural Links During Abstracting?.- 9.5.1 Procedural Link Precedence.- 9.5.2 Semi-Folding and Semi-Unfolding.- 9.5.3 Selective Semi-Folding and Semi-Unfolding.- 9.6 Looking at the Big Picture: The System Map and the OPM Construct Pairs.- Summary.- Problems.- III Building Systems with OPM.- 10 Systems and Modeling.- 10.1 Defining Systems.- 10.1.1 Some Existing Definitions.- 10.1.2 Function.- 10.1.3 The Various Functions of Stone.- 10.2 System Defined.- 10.2.1 System as a Relative Term.- 10.2.2 System as a Subjective Term.- 10.2.3 The Function of Naturaland Artificial Systems.- 10.3 Goal, Concept, and Function.- 10.3.1 The Intent and Goal of Artificial Systems.- 10.3.2 Telling System Function and Dynamics Apart.- 10.3.3 Function, Structure, and Behavior.- 10.4 System Architecture.- 10.4.1 Function vs. Dynamics.- 10.4.2 The Concept Behind a System.- 10.4.3 The Origin and Essence of Systems.- 10.5 Objects, Systems, and Products.- 10.5.1 Product Defined.- 10.5.2 The Object-System-Product Hierarchy.- 10.5.3 Goods, Services, and Projects.- 10.6 Documenting Functions of the System Architecture.- 10.6.1 The Function Hierarchy.- 10.6.2 Function Boxes and Function Sentences.- 10.6.3 Functionality.- 10.7 From Systems to Models.- 10.7.1 Some Model Definitions.- 10.7.2 Model Defined.- 10.8 Modeling Paradigms.- 10.8.1 Natural Language as a Modeling Tool.- 10.8.2 Mathematical and Symbolic Modeling.- 10.8.3 Graphic Modeling and Knowledge Representation.- 10.9 Reflective Metamodeling.- Summary.- Problems.- 11 System Lifecycle and Evolution.- 11.1 System Lifecycle.- 11.1.1 Lifecycle of Artificial Systems.- 11.1.2 Software and Product Development Processes.- 11.2 Systems Analysis and the Scientific Method.- 11.3 Categorization vs. Interdisciplinarity.- 11.4 System Engineering and the Role of the System Architect.- 11.5 An OPM Model of System Lifecycle Phases.- 11.5.1 Top-Level Description of System Evolution.- 11.5.2 Initiating the System.- 11.5.3 Developing the System.- 11.5.4 Analyzing.- 11.5.5 The Refining-Abstracting Cycles.- 11.5.6 Designing.- 11.5.7 The Waterfall Model vs. Iterative and Incremental Development.- 11.5.8 Deploying the System.- 11.6 Zooming into Analyzing.- 11.7 Zooming into Designing and Implementing.- 11.8 From Design to Implementation.- Summary.- Problems.- 12 States and Values.- 12.1 State-specified Objects and Links.- 12.1.1 Initial, Ultimate and Default States.- 12.1.2 The Transformation Attribute of a Process.- 12.1.3 Object as a Role Player for State.- 12.1.4 State Maintaining Processes.- 12.1.5 Sentences and Phrases of States and Values.- 12.1.6 Single Value Sentence.- 12.2 Telling States Apart from Values.- 12.3 Metamodeling the Attributes of Value and Their States.- 12.3.1 Numeric and Symbolic Values.- 12.3.2 Mapping Object States onto Attribute Values.- 12.4 Compound States and State Space.- 12.4.1 The Attribute Feasibility Matrix.- 12.4.2 Logical Compound States.- Summary.- Problems.- 13 Advanced OPM Concepts.- 13.1 Real-Time Issues.- 13.1.1 Sequential vs. Parallel Process Execution.- 13.1.2 Process Synchronization.- 13.1.3 Events.- 13.1.4 Chronon and Event.- 13.1.5 Basic Triggering Event Types.- 13.2 Process and State Duration.- 13.3 Processing states.- 13.4 Probability in Procedural Relations.- 13.5 Scope and Name Disambiguation.- 13.5.1 The Fundamental DAG.- 13.5.2 Scope of an Object.- 13.6 The Reserved Words "of" and "which".- 13.6.1 The Reserved Word "of" and the Dot Operator.- 13.6.2 Using "of" with Tagged Structural Relations.- 13.6.3 The Reserved Word "which".- 13.6.4 Operation: A Process Without Side Effect.- 13.7 Structure-Related Issues.- 13.7.1 Transitivity Strength.- 13.7.2 Hamiltonian Distance.- 13.7.3 The Fractal Relation.- 13.7.4 Covariance and Contravariance.- 13.8 OPM Metamodeling Issues.- 13.8.1 AMetamodelofThing.- 13.8.2 The Specialization-Specification Hierarchy.- 13.8.3 A Refined Generic Processing Model.- 13.8.4 Time Exception Handling.- 13.9 The OPM Construct Hierarchy.- Summary.- Problems.- 14 Systems Theory.- 14.1 The Informatics Hierarchy.- 14.1.1 Computers Are Climbing the Informatics Hierarchy.- 14.1.2 Knowledge and Understanding.- 14.2 Ontology.- 14.3 General Systems Theory.- 14.3.1 A Brief History of General Systems Theory.- 14.3.2 The Hierarchy of System Levels.- 14.4 Autopoietic vs. Allopoietic Systems.- 14.5 Systems and Humans.- 14.6 Systems Theory Characteristics.- 14.6.1 Previously Defined Characteristics.- 14.6.2 System, Environment and Beneficiaries.- 14.6.3 Control and Feedback.- 14.7 Classical Physics vs.
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Quantum Theory.- 14.7.1 Visualization.- 14.7.2 Causality.- 14.7.3 Locality.- 14.7.4 Self-Identity.- 14.7.5 Objectivity.- 14.8 Objectifying: Converting a Process into an Object.- Summary.- Problems.- 15 Object-Oriented Modeling.- 15.1 The Evolution of System Analysis Methods.- 15.1.1 Data Flow Diagrams.- 15.1.2 Entity-Relationship Diagrams and Their Combination with DFD.- 15.1.3 The Object-Oriented Paradigm.- 15.2 Pre-UML Object-Oriented Methods.- 15.2.1 Object Modeling Technique.- 15.2.2 Object-Oriented Software Engineering.- 15.2.3 Object-Oriented Analysis and Object-Oriented Design.- 15.2.4 Object-Oriented Systems Analysis.- 15.2.5 Object-Oriented Analysis & Design.- 15.2.6 Object Life-Cycles.- 15.2.7 The Booch Method.- 15.2.8 MOSES.- 15.2.9 The Fusion Method.- 15.2.10 OPEN Modeling Language.- 15.3 Unified Modeling Language-UML.- 15.4 Metamodeling in OO Methods.- 15.5 OO Methods - A Summary.- 15.6 Software Development Approaches and Trends.- 15.6.1 Aspect-Oriented Programming.- 15.6.2 The Rational Unified Process.- 15.6.3 Extreme Programming.- 15.6.4 Agile Modeling.- 15.7 Challenges for OO Methods.- 15.7.1 A Historic Perspective.- 15.7.2 The Encapsulation Challenge.- 15.7.3 The Model Multiplicity Challenge.- 15.7.4 Empirical Evidence of the Model Multiplicity Problem.- 15.7.5 The Complexity Management Challenge.- 15.8 OPM and OO.- 15.8.1 The UML 2.0 Initiative.- 15.8.2 Systemantica: an OPM Supporting Tool.- 15.8.3 OPM Applications and Research: Present and Future.- Summary.- Problems.- Appendix A: The ATM System.- References.
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| Subject
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Object-oriented methods (Computer science)
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Systems engineering
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Systems engineering.
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| LC Classification
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QA76.9.O35D683 2013
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| Added Entry
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Dov Dori
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E F Crawley
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