Kuklev E.A.
Aviation System Risks and Safety [electronic resource] / by Kuklev E.A., Shapkin V.S., Filippov V.L., Shatrakov Y.G. - 1st ed. 2019. - XXIV, 167 p. 32 illus., 20 illus. in color. online resource. - Springer Aerospace Technology, 1869-1749 . - Springer Aerospace Technology, .
Introduction -- Assessing the System Safety Using Reliability Theory and PSA Methods -- New Doctrine “Reliability, Risk, Safety” for System Safety (Flight Safety) Assessment on The Basis of the Fuzzy Sets Approach -- Solving the Rare Events Problem with the Fuzzy Sets Method -- Structure and Principles of Constructing the SMSs to Provide and Monitor System Safety Based on the RRS Risk Management Doctrine -- Algorithms and Methods for ATS Safety Monitoring and Assurance Using Methods for Calculating Risks in the RRS Doctrine -- Assessing Safety of Dual-Purpose Systems -- Conclusion.
This book provides a solution to “rare event” problems without using the classical theory of reliability and theory of probability. This solution is based on the methodology of risk assessment as “measure of danger” (in keeping with the ICS RAS) and an expert approach to determining systems’ safety indications using Fuzzy Sets methods. Further, the book puts forward a new concept: “Reliability, Risks, and Safety” (RRS). The book’s main goal is to generalize present results and underscore the need to develop an alternative approach to safety level assessment and risk management for technical (aviation) systems in terms of Fuzzy Sets objects, in addition to traditional probabilistic safety analysis (PSA). The concept it proposes incorporates ICAO recommendations regarding proactive system control and the system’s responses to various internal and external disturbances. .
9789811381225
10.1007/978-981-13-8122-5 doi
Aerospace engineering.
Astronautics.
Security systems.
Computers.
System theory.
Control theory.
Financial risk management.
Control engineering.
Aerospace Technology and Astronautics.
Security Science and Technology.
Hardware Performance and Reliability.
Systems Theory, Control .
Risk Management.
Control and Systems Theory.
TL1-4050
629.1
Aviation System Risks and Safety [electronic resource] / by Kuklev E.A., Shapkin V.S., Filippov V.L., Shatrakov Y.G. - 1st ed. 2019. - XXIV, 167 p. 32 illus., 20 illus. in color. online resource. - Springer Aerospace Technology, 1869-1749 . - Springer Aerospace Technology, .
Introduction -- Assessing the System Safety Using Reliability Theory and PSA Methods -- New Doctrine “Reliability, Risk, Safety” for System Safety (Flight Safety) Assessment on The Basis of the Fuzzy Sets Approach -- Solving the Rare Events Problem with the Fuzzy Sets Method -- Structure and Principles of Constructing the SMSs to Provide and Monitor System Safety Based on the RRS Risk Management Doctrine -- Algorithms and Methods for ATS Safety Monitoring and Assurance Using Methods for Calculating Risks in the RRS Doctrine -- Assessing Safety of Dual-Purpose Systems -- Conclusion.
This book provides a solution to “rare event” problems without using the classical theory of reliability and theory of probability. This solution is based on the methodology of risk assessment as “measure of danger” (in keeping with the ICS RAS) and an expert approach to determining systems’ safety indications using Fuzzy Sets methods. Further, the book puts forward a new concept: “Reliability, Risks, and Safety” (RRS). The book’s main goal is to generalize present results and underscore the need to develop an alternative approach to safety level assessment and risk management for technical (aviation) systems in terms of Fuzzy Sets objects, in addition to traditional probabilistic safety analysis (PSA). The concept it proposes incorporates ICAO recommendations regarding proactive system control and the system’s responses to various internal and external disturbances. .
9789811381225
10.1007/978-981-13-8122-5 doi
Aerospace engineering.
Astronautics.
Security systems.
Computers.
System theory.
Control theory.
Financial risk management.
Control engineering.
Aerospace Technology and Astronautics.
Security Science and Technology.
Hardware Performance and Reliability.
Systems Theory, Control .
Risk Management.
Control and Systems Theory.
TL1-4050
629.1