Automated Lane Centring System In Compliance With Iso 26262

Design, Safety, and Compliance in Automated Lane Centering Systems

What you'll learn

Understand the fundamentals of automated lane centering systems and their key components.

Apply ISO 26262 safety strategies to ensure system reliability.

Analyze potential hazards and implement functional safety measures.

Develop validation and verification plans for compliance with ISO 26262.

Requirements

No background required you will learn about safety strategies within the course

Description

This course provides a comprehensive understanding of automated lane centering systems, focusing on their design, safety strategies, and compliance with ISO 26262 standards. Participants will learn to apply functional safety concepts, perform risk assessments, and develop system architectures. The course covers methodologies like HAZOP, FMEA, and STPA to identify hazards, assess risks, and implement mitigation strategies. Students will also explore how to define safety requirements and ensure that system design addresses critical safety objectives. Additionally, the course emphasizes the importance of performance parameters and test scenarios to validate system functionality under varying conditions. Hands-on experience in creating test scenarios, conducting risk assessments, and assessing system performance will allow participants to ensure the system meets safety goals and regulatory requirements. By the end of the course, students will be equipped with the skills to evaluate and manage safety risks in automated lane centering systems, ensuring compliance with safety standards and enhancing the overall system reliability. This knowledge will be valuable for engineers and professionals involved in the development and safety assessment of advanced driver-assistance systems (ADAS) and autonomous vehicles. The course will also prepare participants for real-world challenges faced when integrating safety measures into these complex systems, fostering skills to improve safety protocols.

Overview

Section 1: Introduction

Lecture 1 Introduction

Section 2: HAZOP ( HAZARD AND OPERABILITY STUDY)

Lecture 2 HAZOP FIRST PART

Lecture 3 HAZOP Seconde part

Section 3: STPA STEP 1 ( System theoratic and process analysis)

Lecture 4 STPA STEP 1

Section 4: Risk assesment

Lecture 5 Risk assesment

Section 5: FMEA & STPA STEP 2

Lecture 6 FMEA & STPA STEP 2

Section 6: Functional Safety Concept

Lecture 7 Functional Safety Concept

Section 7: Functional Safety Requirement

Lecture 8 Functional Safety requirement

Section 8: Test Scenarios

Lecture 9 Performance parameters and Test scenarios

Safety engineers,Quality engineers,Mechatronic engineers,industrial engineers