CONTENTS:

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In this training, Automotive Safety Integrity Level (ASIL) engineering, Life Cycle and Validation and Verification calculations will be explained within the framework of IEC EN 26262 standards.

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1) Why Do We Need Functional Safety?

     •   Reliability and Probability Theorems

     •   Key Features of Critical Systems

     •   V-Model Cycle (VDI 2206, 2004)

     •   Functional safety standards (IEC 61508, IEC 61511, IEC61511 ISA SP 84.01)

     •   ISO 26262 requirements

     •   The challenge of functional safety in automotive development

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  2) Introduction to functional security

     •   Principles of functional safety in the automotive industry

     •   The position of ISO 26262 and its relationship to other standards, guidelines, as well as certification or approval requirements

     •   Technical safety concept and system design

     •   Security-oriented hardware and software development

     •   A methodical approach to security analysis

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  3) Introduction to basic safety concepts such as hazard, risk and risk reduction concepts

     •   Key issues in implementing ISO 26262

     •   V-Model Cycle (VDI 2206, 2004)

     •   Functional safety standards (ISO 26262 to IEC 61508, IEC 61511, IEC61511 ISA SP 84.01)

• Risk analysis and functional safety concept

  • ESSENTIAL word meaning

  • Management of functional security

  • ASIL Security Lifecycle

  • Supporting Processes

  • Automotive Safety Integrity Level (ASIL)-driven and safety-focused analysis

  • Overview of ASIL Evaluation

  • PRIMARY Evaluation Process and Calculation

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4) IEC 61882- "Danger and operability studies (HAZOP analysis is referred to as HAZAN in ISO 26262) - Application guide"

     •   Layer of Protection Analysis (LOPA)

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5) MAIN DESIGN

     •   IEC 61508  with   Link between ISO 26262

     •   ISO 26262  with  IEC 61508 and IEC 61511 - Security: How Do We Achieve High Reliability?

     •   ISO 26262- Security Lifecycle

     •   What is ASIL?

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4) What is Voting?

     •   What is Voting?

     •   Demand Mode (Demand Mode)

     •   Risk Reduction Factor (RRF)

     •   TI: Test Interval (proof)

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6) ASIL Validation and Verification Calculations

     •   Probability of Failure on Demand (PFD)

     •   Common Failure Mode (Beta Factor)

     •   Fault Types

     •   What is FMEA analysis and how is it done?

     •   MTTF, MTBF, MTTR, Availability and Reliability

     •   Fault Tree Analysis

     •   False error and security, reliability

     •   Independent IEC analysis algorithm for functional end effects of FMEDA

     •   Hardware-oriented component level DC and SFF

     •   Calculation of lambda-SU, SD, DU and DD for each root mode

     •   Security management processes and recommended supporting processes

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7) Engineering and Design Applications

     •   Requirements of Protective Functions

     •   Device Selection - Comparison of Electronic and Mechanical Parts

     •   Device Selection-Proven-in-use by NAMUR (NE130)

     •   Fault Detection During Maintenance and Test-Operation

     •   Maintenance and Test-Maintenance Intervals

     •   Last Element

     •   Installation - Assembly  

     •   Maintenance and Testing - Evidence Test/Service Life

     •   documentation

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