System Architecture and Complexity: Contribution of Systems of Systems to Systems Thinking
Gespeichert in:
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Newark
John Wiley & Sons, Incorporated
2020
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| Online-Zugang: | FCO01 |
| Beschreibung: | Description based on publisher supplied metadata and other sources |
| Beschreibung: | 1 Online-Ressource (311 Seiten) |
| ISBN: | 9781119751502 9781119751519 |
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| 505 | 8 | |a Cover -- Half-Title Page -- Title Page -- Copyright Page -- Contents -- Foreword -- Preface -- PART 1: The Foundations of Systemics -- Introduction to Part 1 -- 1. The Legacy of Norbert Wiener and the Birth of Cybernetics -- 1.1. The birth of systemics: the facts -- 1.1.1. The idea of integration -- 1.1.2. Implementation and the first applications -- 1.2. Modeling for understanding: the computer science singularity -- 1.3. Engineering in the 21st Century -- 1.4. Education: systemics at MIT -- 2. At the Origins of System Sciences: Communication and Control -- 2.1. A little systemic epistemology -- 2.2. Systems sciences: elements of systemic phenomenology -- 2.2.1. Control/regulation -- 2.2.2. Communication/information -- 2.3. The means of existence of technical objects -- 3. The Definitions of Systemics: Integration and Interoperability of Systems -- 3.1. A few common definitions -- 3.2. Elements of the system -- 3.3. Interactions between the elements of the system -- 3.4. Organization of the system: layered architectures -- 3.4.1. Classification trees -- 3.4.2. Meaning and notation: properties of classification trees -- 4. The System and its Invariants -- 4.1. Models -- 4.2. Laws of conservation -- 4.2.1. Invariance -- 4.2.2. System safety: risks -- 5. Generations of Systems and the System in the System -- 5.1. System as a language -- 5.2. The company as an integrated system -- 5.2.1. The computer, driving force behind the information system -- 5.2.2. Digital companies -- PART 2: A World of Systems of Systems -- Introduction to Part 2 -- 6. The Problem of Control -- 6.1. An open world: the transition from analog to all-digital -- 6.2. The world of real time systems -- 6.3. Enterprise architectures: the digital firm -- 6.4. Systems of systems -- 7. Dynamics of Processes -- 7.1. Processes -- 7.2. Description of processes | |
| 505 | 8 | |a 7.2.1. Generalizing to simplify -- 7.2.2. Constructing and construction pathways -- 7.2.3. Evolution of processes -- 7.2.4. Antagonistic processes: forms of invariants -- 7.3. Degenerative processes: faults, errors and "noise" -- 7.4. Composition of processes -- 7.4.1. Antagonistic interactions -- 7.5. Energetics of processes and systems -- 8. Interoperability -- 8.1. Means of systemic growth -- 8.2. Dynamics of the growth of systems -- 8.2.1. The nature of interactions between systems -- 8.2.2. Pre-eminence of the interaction -- 8.3. Limits of the growth of systems -- 8.3.1. Limits and limitations regarding energy -- 8.3.2. Information energy -- 8.3.3. Limitations of external origin: PESTEL factors -- 8.4. Growth by cooperation -- 8.4.1. The individuation stage -- 8.4.2. The cooperation/integration stage -- 8.4.3. The opening stage -- 9. Fundamental Properties of Systems of Systems -- 9.1. Semantic invariance: notion of a semantic map -- 9.2. Recursive organization of the semantic -- 9.3. Laws of interoperability: control of errors -- 9.3.1. Models and metamodels of exchanges -- 9.3.2. Organization "in layers" of the models and systems -- 9.3.3. Energy performance of the interaction between systems -- 9.3.4. Systemic approach to system safety -- 9.4. Genealogy of systems -- Conclusion: The Three Principles of Systemics -- C.1. A universe of processes -- C.2. The three principles of systemics -- C.2.1. First fundamental principle of systemics: conservation of logic form - structural invariant of the information which defines the system -- C.2.2. Second fundamental principle of systemics: cooperation between systems - capability logic, subsidiarity, autonomy -- C.2.3. Third fundamental principle of systemics: autonomy - surviving hazards and errors - capability logic -- C.3. Epistemological consequences -- List of Acronyms -- References -- Index | |
| 505 | 8 | |a Other titles from iSTE in Systems and Industrial Engineering - Robotics -- EULA. | |
| 650 | 4 | |a System theory | |
| 700 | 1 | |a Krob, Daniel |e Sonstige |4 oth | |
| 776 | 0 | 8 | |i Erscheint auch als |n Druck-Ausgabe |a Printz, Jacques |t System Architecture and Complexity |d Newark : John Wiley & Sons, Incorporated,c2020 |z 9781786305619 |
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| contents | Cover -- Half-Title Page -- Title Page -- Copyright Page -- Contents -- Foreword -- Preface -- PART 1: The Foundations of Systemics -- Introduction to Part 1 -- 1. The Legacy of Norbert Wiener and the Birth of Cybernetics -- 1.1. The birth of systemics: the facts -- 1.1.1. The idea of integration -- 1.1.2. Implementation and the first applications -- 1.2. Modeling for understanding: the computer science singularity -- 1.3. Engineering in the 21st Century -- 1.4. Education: systemics at MIT -- 2. At the Origins of System Sciences: Communication and Control -- 2.1. A little systemic epistemology -- 2.2. Systems sciences: elements of systemic phenomenology -- 2.2.1. Control/regulation -- 2.2.2. Communication/information -- 2.3. The means of existence of technical objects -- 3. The Definitions of Systemics: Integration and Interoperability of Systems -- 3.1. A few common definitions -- 3.2. Elements of the system -- 3.3. Interactions between the elements of the system -- 3.4. Organization of the system: layered architectures -- 3.4.1. Classification trees -- 3.4.2. Meaning and notation: properties of classification trees -- 4. The System and its Invariants -- 4.1. Models -- 4.2. Laws of conservation -- 4.2.1. Invariance -- 4.2.2. System safety: risks -- 5. Generations of Systems and the System in the System -- 5.1. System as a language -- 5.2. The company as an integrated system -- 5.2.1. The computer, driving force behind the information system -- 5.2.2. Digital companies -- PART 2: A World of Systems of Systems -- Introduction to Part 2 -- 6. The Problem of Control -- 6.1. An open world: the transition from analog to all-digital -- 6.2. The world of real time systems -- 6.3. Enterprise architectures: the digital firm -- 6.4. Systems of systems -- 7. Dynamics of Processes -- 7.1. Processes -- 7.2. Description of processes 7.2.1. Generalizing to simplify -- 7.2.2. Constructing and construction pathways -- 7.2.3. Evolution of processes -- 7.2.4. Antagonistic processes: forms of invariants -- 7.3. Degenerative processes: faults, errors and "noise" -- 7.4. Composition of processes -- 7.4.1. Antagonistic interactions -- 7.5. Energetics of processes and systems -- 8. Interoperability -- 8.1. Means of systemic growth -- 8.2. Dynamics of the growth of systems -- 8.2.1. The nature of interactions between systems -- 8.2.2. Pre-eminence of the interaction -- 8.3. Limits of the growth of systems -- 8.3.1. Limits and limitations regarding energy -- 8.3.2. Information energy -- 8.3.3. Limitations of external origin: PESTEL factors -- 8.4. Growth by cooperation -- 8.4.1. The individuation stage -- 8.4.2. The cooperation/integration stage -- 8.4.3. The opening stage -- 9. Fundamental Properties of Systems of Systems -- 9.1. Semantic invariance: notion of a semantic map -- 9.2. Recursive organization of the semantic -- 9.3. Laws of interoperability: control of errors -- 9.3.1. Models and metamodels of exchanges -- 9.3.2. Organization "in layers" of the models and systems -- 9.3.3. Energy performance of the interaction between systems -- 9.3.4. Systemic approach to system safety -- 9.4. Genealogy of systems -- Conclusion: The Three Principles of Systemics -- C.1. A universe of processes -- C.2. The three principles of systemics -- C.2.1. First fundamental principle of systemics: conservation of logic form - structural invariant of the information which defines the system -- C.2.2. Second fundamental principle of systemics: cooperation between systems - capability logic, subsidiarity, autonomy -- C.2.3. Third fundamental principle of systemics: autonomy - surviving hazards and errors - capability logic -- C.3. Epistemological consequences -- List of Acronyms -- References -- Index Other titles from iSTE in Systems and Industrial Engineering - Robotics -- EULA. |
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| discipline | Informatik |
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| index_date | 2024-07-03T18:01:23Z |
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| isbn | 9781119751502 9781119751519 |
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| spelling | Printz, Jacques Verfasser aut System Architecture and Complexity Contribution of Systems of Systems to Systems Thinking Newark John Wiley & Sons, Incorporated 2020 ©2020 1 Online-Ressource (311 Seiten) txt rdacontent c rdamedia cr rdacarrier Description based on publisher supplied metadata and other sources Cover -- Half-Title Page -- Title Page -- Copyright Page -- Contents -- Foreword -- Preface -- PART 1: The Foundations of Systemics -- Introduction to Part 1 -- 1. The Legacy of Norbert Wiener and the Birth of Cybernetics -- 1.1. The birth of systemics: the facts -- 1.1.1. The idea of integration -- 1.1.2. Implementation and the first applications -- 1.2. Modeling for understanding: the computer science singularity -- 1.3. Engineering in the 21st Century -- 1.4. Education: systemics at MIT -- 2. At the Origins of System Sciences: Communication and Control -- 2.1. A little systemic epistemology -- 2.2. Systems sciences: elements of systemic phenomenology -- 2.2.1. Control/regulation -- 2.2.2. Communication/information -- 2.3. The means of existence of technical objects -- 3. The Definitions of Systemics: Integration and Interoperability of Systems -- 3.1. A few common definitions -- 3.2. Elements of the system -- 3.3. Interactions between the elements of the system -- 3.4. Organization of the system: layered architectures -- 3.4.1. Classification trees -- 3.4.2. Meaning and notation: properties of classification trees -- 4. The System and its Invariants -- 4.1. Models -- 4.2. Laws of conservation -- 4.2.1. Invariance -- 4.2.2. System safety: risks -- 5. Generations of Systems and the System in the System -- 5.1. System as a language -- 5.2. The company as an integrated system -- 5.2.1. The computer, driving force behind the information system -- 5.2.2. Digital companies -- PART 2: A World of Systems of Systems -- Introduction to Part 2 -- 6. The Problem of Control -- 6.1. An open world: the transition from analog to all-digital -- 6.2. The world of real time systems -- 6.3. Enterprise architectures: the digital firm -- 6.4. Systems of systems -- 7. Dynamics of Processes -- 7.1. Processes -- 7.2. Description of processes 7.2.1. Generalizing to simplify -- 7.2.2. Constructing and construction pathways -- 7.2.3. Evolution of processes -- 7.2.4. Antagonistic processes: forms of invariants -- 7.3. Degenerative processes: faults, errors and "noise" -- 7.4. Composition of processes -- 7.4.1. Antagonistic interactions -- 7.5. Energetics of processes and systems -- 8. Interoperability -- 8.1. Means of systemic growth -- 8.2. Dynamics of the growth of systems -- 8.2.1. The nature of interactions between systems -- 8.2.2. Pre-eminence of the interaction -- 8.3. Limits of the growth of systems -- 8.3.1. Limits and limitations regarding energy -- 8.3.2. Information energy -- 8.3.3. Limitations of external origin: PESTEL factors -- 8.4. Growth by cooperation -- 8.4.1. The individuation stage -- 8.4.2. The cooperation/integration stage -- 8.4.3. The opening stage -- 9. Fundamental Properties of Systems of Systems -- 9.1. Semantic invariance: notion of a semantic map -- 9.2. Recursive organization of the semantic -- 9.3. Laws of interoperability: control of errors -- 9.3.1. Models and metamodels of exchanges -- 9.3.2. Organization "in layers" of the models and systems -- 9.3.3. Energy performance of the interaction between systems -- 9.3.4. Systemic approach to system safety -- 9.4. Genealogy of systems -- Conclusion: The Three Principles of Systemics -- C.1. A universe of processes -- C.2. The three principles of systemics -- C.2.1. First fundamental principle of systemics: conservation of logic form - structural invariant of the information which defines the system -- C.2.2. Second fundamental principle of systemics: cooperation between systems - capability logic, subsidiarity, autonomy -- C.2.3. Third fundamental principle of systemics: autonomy - surviving hazards and errors - capability logic -- C.3. Epistemological consequences -- List of Acronyms -- References -- Index Other titles from iSTE in Systems and Industrial Engineering - Robotics -- EULA. System theory Krob, Daniel Sonstige oth Erscheint auch als Druck-Ausgabe Printz, Jacques System Architecture and Complexity Newark : John Wiley & Sons, Incorporated,c2020 9781786305619 |
| spellingShingle | Printz, Jacques System Architecture and Complexity Contribution of Systems of Systems to Systems Thinking Cover -- Half-Title Page -- Title Page -- Copyright Page -- Contents -- Foreword -- Preface -- PART 1: The Foundations of Systemics -- Introduction to Part 1 -- 1. The Legacy of Norbert Wiener and the Birth of Cybernetics -- 1.1. The birth of systemics: the facts -- 1.1.1. The idea of integration -- 1.1.2. Implementation and the first applications -- 1.2. Modeling for understanding: the computer science singularity -- 1.3. Engineering in the 21st Century -- 1.4. Education: systemics at MIT -- 2. At the Origins of System Sciences: Communication and Control -- 2.1. A little systemic epistemology -- 2.2. Systems sciences: elements of systemic phenomenology -- 2.2.1. Control/regulation -- 2.2.2. Communication/information -- 2.3. The means of existence of technical objects -- 3. The Definitions of Systemics: Integration and Interoperability of Systems -- 3.1. A few common definitions -- 3.2. Elements of the system -- 3.3. Interactions between the elements of the system -- 3.4. Organization of the system: layered architectures -- 3.4.1. Classification trees -- 3.4.2. Meaning and notation: properties of classification trees -- 4. The System and its Invariants -- 4.1. Models -- 4.2. Laws of conservation -- 4.2.1. Invariance -- 4.2.2. System safety: risks -- 5. Generations of Systems and the System in the System -- 5.1. System as a language -- 5.2. The company as an integrated system -- 5.2.1. The computer, driving force behind the information system -- 5.2.2. Digital companies -- PART 2: A World of Systems of Systems -- Introduction to Part 2 -- 6. The Problem of Control -- 6.1. An open world: the transition from analog to all-digital -- 6.2. The world of real time systems -- 6.3. Enterprise architectures: the digital firm -- 6.4. Systems of systems -- 7. Dynamics of Processes -- 7.1. Processes -- 7.2. Description of processes 7.2.1. Generalizing to simplify -- 7.2.2. Constructing and construction pathways -- 7.2.3. Evolution of processes -- 7.2.4. Antagonistic processes: forms of invariants -- 7.3. Degenerative processes: faults, errors and "noise" -- 7.4. Composition of processes -- 7.4.1. Antagonistic interactions -- 7.5. Energetics of processes and systems -- 8. Interoperability -- 8.1. Means of systemic growth -- 8.2. Dynamics of the growth of systems -- 8.2.1. The nature of interactions between systems -- 8.2.2. Pre-eminence of the interaction -- 8.3. Limits of the growth of systems -- 8.3.1. Limits and limitations regarding energy -- 8.3.2. Information energy -- 8.3.3. Limitations of external origin: PESTEL factors -- 8.4. Growth by cooperation -- 8.4.1. The individuation stage -- 8.4.2. The cooperation/integration stage -- 8.4.3. The opening stage -- 9. Fundamental Properties of Systems of Systems -- 9.1. Semantic invariance: notion of a semantic map -- 9.2. Recursive organization of the semantic -- 9.3. Laws of interoperability: control of errors -- 9.3.1. Models and metamodels of exchanges -- 9.3.2. Organization "in layers" of the models and systems -- 9.3.3. Energy performance of the interaction between systems -- 9.3.4. Systemic approach to system safety -- 9.4. Genealogy of systems -- Conclusion: The Three Principles of Systemics -- C.1. A universe of processes -- C.2. The three principles of systemics -- C.2.1. First fundamental principle of systemics: conservation of logic form - structural invariant of the information which defines the system -- C.2.2. Second fundamental principle of systemics: cooperation between systems - capability logic, subsidiarity, autonomy -- C.2.3. Third fundamental principle of systemics: autonomy - surviving hazards and errors - capability logic -- C.3. Epistemological consequences -- List of Acronyms -- References -- Index Other titles from iSTE in Systems and Industrial Engineering - Robotics -- EULA. System theory |
| title | System Architecture and Complexity Contribution of Systems of Systems to Systems Thinking |
| title_auth | System Architecture and Complexity Contribution of Systems of Systems to Systems Thinking |
| title_exact_search | System Architecture and Complexity Contribution of Systems of Systems to Systems Thinking |
| title_exact_search_txtP | System Architecture and Complexity Contribution of Systems of Systems to Systems Thinking |
| title_full | System Architecture and Complexity Contribution of Systems of Systems to Systems Thinking |
| title_fullStr | System Architecture and Complexity Contribution of Systems of Systems to Systems Thinking |
| title_full_unstemmed | System Architecture and Complexity Contribution of Systems of Systems to Systems Thinking |
| title_short | System Architecture and Complexity |
| title_sort | system architecture and complexity contribution of systems of systems to systems thinking |
| title_sub | Contribution of Systems of Systems to Systems Thinking |
| topic | System theory |
| topic_facet | System theory |
| work_keys_str_mv | AT printzjacques systemarchitectureandcomplexitycontributionofsystemsofsystemstosystemsthinking AT krobdaniel systemarchitectureandcomplexitycontributionofsystemsofsystemstosystemsthinking |