Trust-Worthy Cyber Physical Systems Engineering provides practitioners and researchers with a comprehensive introduction to the area of trustworthy Cyber Physical Systems (CPS) engineering. Featuring contributions from leading international experts, the book contains sixteen self-contained chapters that analyze the challenges in developing trustworthy CPS, and identify important issues in developing engineering methods for CPS.
The book addresses various issues contributing to trustworthiness complemented by contributions on TCSP roadmapping, taxonomy, and standardization, as well as experience in deploying advanced system engineering methods in industry. Specific approaches to ensuring trustworthiness, namely proof and refinement are covered, as well as engineering methods for dealing with hybrid aspects.
Alexander Romanovsky is a professor in the School of Computing Science at Newcastle University, UK.
Fuyuki Ishikawa is an associate professor in the Digital Content and Media Sciences Research Division at the National Institute of Informatics, Japan.
Concepts Of Dependable Cyber-Physical Systems Engineering: Model-Based Approaches. Pathways To Dependable Cyber-Physical Systems Engineering. A Rigorous Definition Of Cyber-Physical Systems. A Generic Model For System Substitution Incremental Proof-Based Development For Resilient Distributed Systems. Formalizing Goal-Oriented Developmentof Resilient Cps. Formal Reasoning About Resilient Cps. Collaborative Modeling And Simulation For Cyber-Physical Systems. Verifying Trustworthy Cyber-Physical Systems Using Closed-Loop Modeling. Stop And Go Adaptive Cruise Control: A Case Study Of Automotive Cyber-Physical Systems. Model-Based Analysis Of Energy Consumption Behavior. A Formal Dsl For Multicore System Management. New Standards For Trustworthy Cyber-Physical Systems. Measurement-Based Identification Of Infrastructures For Trustworthy Cyber-Physical Systems. Mdd-Based Design, Configuration, And Monitoring Of Resilient Cps. Education Of Scientific Approaches To Trustworthy Systems For Industry: After 10 Years.