원문정보
초록
영어
Recently, the use of electric and electronic control systems is increasing in the automobile industry. This increase in the electric and electronic control system greatly increases the complexity of designing a vehicle, which leads to an increase in the malfunction of the system, and a safety problem due to the malfunction is becoming an issue. Based on IEC 61508 relating to the functional safety of electrical/electronic/programmable electronics, the ISO 26262 standard specific to the automotive sector was first established in 2011, and a revision was published in 2018. Malfunctions due to system failure are covered by ISO 26262, but ISO/PAS 21448 is proposed to deal with unintended malfunctions caused by changes in the surrounding environment. ISO 26262 sets out safety-related requirements for the entire life cycle. Functional safety analysis includes FTA (Fault Tree Analysis), FMEA (Failure Mode and Effect Analysis), and HAZOP (Hazard and Operability). These analysis have limitations in dealing with failures or errors caused by complex interrelationships because it is assumed that a failure or error affecting the risk occurs by a specific component. In order to overcome this limitation, it is necessary to apply the STPA (System Theoretic Process Analysis) technique.
목차
1. Introduction
1.1 Background and necessity
1.2 Definition of the problem
1.3 Composition of this paper
2. Feasibility analysis of methods for securing reliability based on ISO 26262 and STPA
2.1 Comparison between ISO 26262 and ISO/PAS 21448
2.2 Comparison of risk analysis method FTA, FMEA, and HAZOP
2.3 Procedures for performing STPA
3. Scenario derivation by applying STPA to AEB system
4. Conclusion
Acknowledgement
References