Description
1 Introduction and objectives
1.1 Safe, secure and resilient technical sustainable systems
1.2 Structure of text and chapter contents overview
1.3 Main features of the text
1.4 Sample background research projects
1.4.1 Functional safety of heating and cooling systems in electical vehicles
1.4.2 Resilience Engineering of multi-modal indoor localization system
1.4.3 Reliabilty and resilience for local power supply grids
2 Technical safety and reliability methods for resilience engineering
2.1 Overview
2.2 Why to leverage classical system analysis approaches for resilience engineering
2.3 Approach to assess the suitability of methods
2.4 Suitability assessment with five-step risk management scheme
2.5 Method Usability assessment using Resilience responSe cycle time phases
2.6 Method Usability assessment using Technical resilience capabilities
2.7 Method Usability assessment using system layers
2.8 Method Usability assessment using Resilience criteria
2.9 Summary and conclusions
2.10 Questions
2.11 Answers
3 Basic technical safety terms and definitions
3.1 Overview
3.2 System
3.3 Life cycle
3.4 Risk
3.5 Acceptable risk
3.6 Hazard
3.7 Safety
3.8 Risk minimization
3.9 Safety relevant and critical systems
3.10 Safety relevant norms
3.11 Systems with high requirements for the reliability
3.12 Models for the software and hardware development process
3.13 Safety function and integrity
3.14 Safety Life Cycle
3.15 Techniques and measures for achieving safety
3.16 System description, system modeling
3.16.1 OPM (Object Process Methodology)
3.16.2 AADL (Architecture Analysis & Design Language)
3.16.3 UML (Unified Modeling Language)3.16.4 AltaRica / AltaRica DF
3.16.5 VHDL (Very High Speed Integrated Circuit Hardware Description Language)
3.16.6 BOM (Base Object Model)
3.16.7 SysML (Systems Modeling Language)
3.17 System simulation
3.18 System analysis methods
3.19 Forms of documentation
3.20 Questions
3.21 Answers
4 Introduction to system analysis
4.1 Overview
4.2 Definition of a system
4.3 Boundaries of the system
4.4 Theoretical vs. practical system audit
4.5 Inductive and deductive system analysis methods
4.6 Forms of documentation
4.7 Failure space and success space
4.8 Overview diagram
4.9 Black swans
4.10 Failure and fault
4.11 Types of failures
4.12 Safety and reliability
4.13 Redundancies
4.14 Active and passive components
4.15 Standby
4.16 Optimization of resources
4.17 Combination of failures
4.18 Summary and outlook
4.19 Questions
4.20 Answers
5 Introduction to system analysis methods
5.1 Overview5.2 Parts Count approach
5.3 FMEA
5.4 FMECA
5.5 FTA
5.6 ETA
5.7 HA
5.8 FHA
5.9 DFM
5.10 Summary and Outlook
5.11 Questions
5.12 Answers
6 Fault Tree Analysis
6.1 Overview
6.2 Introduction to Fault Tree Analysis
6.3 Definitions
6.3.1 Basic event and top event
6.3.2 Cut sets, minimal cut sets, and their order
6.3.3 Multiple occurring events and branches
6.3.4 Exposure time
6.4 Process of Fault Tree Analys.