Cognitive Dependability Engineering
portes grátis
Cognitive Dependability Engineering
Managing Risks in Cyber-Physical-Social Systems under Deep Uncertainty
Bukowski, Lech
Taylor & Francis Ltd
12/2024
302
Mole
9781032486178
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Preface. Introduction. PART I. DEVELOPMENT OF SYSTEMS ENGINEERING CONCEPTS: FROM SINGLE SYSTEMS ENGINEERING TO COGNITIVE SYSTEMS ENGINEERING. Basics of Systems Science. Systems Engineering. System of Systems Engineering. Cognitive Systems Engineering. PART II. CONCEPTS OF ATTRIBUTE-ORIENTED SYSTEMS ENGINEERING: FROM RELIABILITY ENGINEERING TO COGNITIVE DEPENDABILITY ENGINEERING. Reliability Engineering: The Concept of Failure-free Operation. Safety Engineering: The Concept of Effective Protection. Security Engineering: The Concept of Cyber-security. Resilience Engineering: The Concept of Process Continuity. Dependable Computing: The Concept of Fault-tolerant Functioning. Cognitive Dependability Engineering: The concept of Trustworthy Performance. PART III. MODELLING AND SIMULATION THE OPERATION OF CYBER-PHYSICAL-SOCIAL SYSTEMS IN A RISKY ENVIRONMENT. Methodology of Modelling and Simulation Used for Complex Systems. Modelling of Cyber-Physical-Social Systems. Simulation of Cyber-Physical-Social Systems Behaviour in a Risky Environment. PART IV. MANAGING RISKS IN CYBER-PHYSICAL-SOCIAL SYSTEMS UNDER DEEP UNCERTAINTY. Uncertainty-oriented Concepts of Decision-making. Cognitive Dependability-based Problem-solving in Cyber-Physical-Social Systems Operating under Deep Uncertainty. Application Examples: Lesson Learned from Case Studies. Summary and Concluding Considerations. Glossary. Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Information Technology;Big Data;Imperfect Knowledge;Reliability;Availability;Safety;Security;Resilience;Decision-Making;Modeling;Simulation;Supply Network;Smart City;Reliability Block Diagram;FRAM;Cyber Physical Systems;Knowledge Acquisition;Viable System Model;Lifecycle Concepts;Cognitive Dependability;Cognitive Systems Engineering;Digital Twin;Fault Tolerant Functioning;Deep Uncertainty;Resilience Engineering;Cyber Systems;Dependability Engineering;ABM;Complex Network Organizations;Entity Relationship Diagram;Availability Performance;Global Supply Networks;Quantitative Research;Dependable Computing;Accident Models;Gusset Plates;PRA Model;Social Ecological Systems
Preface. Introduction. PART I. DEVELOPMENT OF SYSTEMS ENGINEERING CONCEPTS: FROM SINGLE SYSTEMS ENGINEERING TO COGNITIVE SYSTEMS ENGINEERING. Basics of Systems Science. Systems Engineering. System of Systems Engineering. Cognitive Systems Engineering. PART II. CONCEPTS OF ATTRIBUTE-ORIENTED SYSTEMS ENGINEERING: FROM RELIABILITY ENGINEERING TO COGNITIVE DEPENDABILITY ENGINEERING. Reliability Engineering: The Concept of Failure-free Operation. Safety Engineering: The Concept of Effective Protection. Security Engineering: The Concept of Cyber-security. Resilience Engineering: The Concept of Process Continuity. Dependable Computing: The Concept of Fault-tolerant Functioning. Cognitive Dependability Engineering: The concept of Trustworthy Performance. PART III. MODELLING AND SIMULATION THE OPERATION OF CYBER-PHYSICAL-SOCIAL SYSTEMS IN A RISKY ENVIRONMENT. Methodology of Modelling and Simulation Used for Complex Systems. Modelling of Cyber-Physical-Social Systems. Simulation of Cyber-Physical-Social Systems Behaviour in a Risky Environment. PART IV. MANAGING RISKS IN CYBER-PHYSICAL-SOCIAL SYSTEMS UNDER DEEP UNCERTAINTY. Uncertainty-oriented Concepts of Decision-making. Cognitive Dependability-based Problem-solving in Cyber-Physical-Social Systems Operating under Deep Uncertainty. Application Examples: Lesson Learned from Case Studies. Summary and Concluding Considerations. Glossary. Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Information Technology;Big Data;Imperfect Knowledge;Reliability;Availability;Safety;Security;Resilience;Decision-Making;Modeling;Simulation;Supply Network;Smart City;Reliability Block Diagram;FRAM;Cyber Physical Systems;Knowledge Acquisition;Viable System Model;Lifecycle Concepts;Cognitive Dependability;Cognitive Systems Engineering;Digital Twin;Fault Tolerant Functioning;Deep Uncertainty;Resilience Engineering;Cyber Systems;Dependability Engineering;ABM;Complex Network Organizations;Entity Relationship Diagram;Availability Performance;Global Supply Networks;Quantitative Research;Dependable Computing;Accident Models;Gusset Plates;PRA Model;Social Ecological Systems
