ISO 26262SMV — Functional Safety for Road Vehicles

LAPT

London Academy of Professional Training

Master Certificate Level 6-7 Leadership ISO Transport

REF: TR-SMV-26262SMV

Subjects

500

Total Marks

65%

Pass Mark

Lifetime

Validity

Who Is It For

This certification is intended for professionals in leadership roles within the automotive industry, particularly those involved in safety management and system development. Candidates should possess significant experience in automotive design or engineering and seek to enhance their understanding of functional safety standards.

Prerequisites

None

Awarding Body: LAPT — London Academy of Professional Training

Curriculum Overview

1 Case Studies and Applications 0 chapters · 75 marks

2 Leadership in Safety Engineering 0 chapters · 75 marks

3 Safety Lifecycle Management 0 chapters · 75 marks

4 Compliance and Standards 5 chapters · 12 classes · 75 marks

Overview of ISO 26262: Key Concepts and Terminology 6 classes

1.1 Define Key Terminology in ISO 26262

1.2 Explain the Structure of ISO 26262 Standards

1.3 Identify the Scope of ISO 26262 in Automotive Safety

1.4 Discuss the Importance of Functional Safety in Road Vehicles

1.5 Explore the Roles of Stakeholders in ISO 26262 Compliance

1.6 Apply Key Concepts of ISO 26262 to Real-World Scenarios

Understanding Compliance: Standards and Regulations in the Automotive Industry 6 classes

2.1 Identify Key Automotive Standards and Regulations

2.2 Analyze the Role of ISO 26262 in Functional Safety

2.3 Explore the Framework of Compliance in the Automotive Sector

2.4 Evaluate the Impact of Non-Compliance on Vehicle Safety

2.5 Apply Compliance Principles to Real-World Automotive Scenarios

2.6 Develop Strategies for Ensuring Continuous Compliance

Risk Management in Functional Safety: Methods and Processes

Safety Lifecycle: Implementation and Validation Strategies

Organizational Structures for Functional Safety: Leadership and Culture

5 Risk Management Techniques 5 chapters · 30 classes · 100 marks

Understanding Risk Management Principles in ISO 26262 6 classes

1.1 Define Key Concepts of Risk in ISO 26262

1.2 Identify the Stages of Risk Management Process

1.3 Analyze Risk Assessment Techniques in Functional Safety

1.4 Evaluate the Role of Hazard Analysis in Risk Management

1.5 Implement Risk Mitigation Strategies within ISO 26262

1.6 Develop a Risk Management Plan for Automotive Projects

Identifying Hazards and Assessing Risks in Smart Systems Vehicles 6 classes

2.1 Define Hazards in Smart Systems Vehicles

2.2 Recognize Stakeholder Perspectives on Risks

2.3 Utilize Risk Assessment Tools for Smart Systems

2.4 Analyze Potential Failure Modes and Effects

2.5 Develop Risk Mitigation Strategies

2.6 Evaluate the Effectiveness of Risk Management Plans

Implementing Risk Mitigation Strategies in Functional Safety 6 classes

3.1 Identify Key Risks in Functional Safety Systems

3.2 Analyze Risk Impact and Probability in Road Vehicle Contexts

3.3 Evaluate Existing Mitigation Strategies for Effectiveness

3.4 Develop New Mitigation Approaches Based on Risk Assessment

3.5 Implementing Mitigation Strategies: Best Practices and Tools

3.6 Monitor and Review Effectiveness of Risk Mitigation Strategies

Verification and Validation of Risk Management Approaches 6 classes

4.1 Identify Key Risk Management Approaches in Functional Safety

4.2 Differentiate Between Verification and Validation Techniques

4.3 Assess the Effectiveness of Risk Management Strategies

4.4 Develop Verification Plans for Road Vehicle Safety

4.5 Conduct Validation Tests for Risk Management Approaches

4.6 Review Case Studies of Successful Risk Management Implementation

Leadership and Organizational Culture in Managing Functional Safety Risks 6 classes

5.1 Identify Key Leadership Roles in Functional Safety Management

5.2 Develop an Understanding of Organizational Culture's Impact on Safety

5.3 Assess Risk Management Techniques in Leadership Contexts

5.4 Promote Safety-First Mindset Across Organizational Levels

5.5 Implement Strategies for Effective Risk Communication

5.6 Evaluate Leadership Effectiveness in Functional Safety Initiatives

6 Functional Safety Principles 5 chapters · 30 classes · 100 marks

Foundations of Functional Safety in Automotive Systems 6 classes

1.1 Identify Key Concepts of Functional Safety in Automotive Systems

1.2 Analyze ISO 26262 Standards and Their Importance

1.3 Explore the Safety Lifecycle in Automotive Development

1.4 Examine Hazard Analysis and Risk Assessment Techniques

1.5 Evaluate the Role of Safety Concepts in System Design

1.6 Apply Functional Safety Principles to Real-world Scenarios

Understanding ISO 26262 and Its Framework 6 classes

2.1 Define ISO 26262 and Its Importance in Functional Safety

2.2 Identify Key Components of the ISO 26262 Framework

2.3 Explore the Lifecycle Phases Defined by ISO 26262

2.4 Examine Safety Concepts and Principles in ISO 26262

2.5 Analyze Roles and Responsibilities in Implementing ISO 26262

2.6 Apply ISO 26262 Guidelines to Real-World Scenarios

Hazard Analysis and Risk Assessment Techniques 6 classes

3.1 Define Hazards in Automotive Systems

3.2 Identify Risk Factors Associated with Hazards

3.3 Assess Risk Severity and Probability of Occurrence

3.4 Classify Risks Using ISO 26262 Guidelines

3.5 Develop Mitigation Strategies for Identified Risks

3.6 Apply Hazard Analysis Techniques to Case Studies

Safety Requirements Derivation and Implementation 6 classes

4.1 Identify and Analyze Safety Requirements in Functional Safety

4.2 Develop a Framework for Safety Requirements Derivation

4.3 Assess System Risks to Inform Safety Requirements

4.4 Implement Safety Requirements in the Design Process

4.5 Validate Safety Requirements Through Testing and Review

4.6 Monitor and Update Safety Requirements for Continuous Compliance

Verification, Validation, and Safety Planning 6 classes

5.1 Define Key Terms in Verification and Validation

5.2 Distinguish Between Verification and Validation Processes

5.3 Identify Methods for Effective Safety Planning

5.4 Explore the Role of Testing in Functional Safety

5.5 Analyze Case Studies on Verification and Validation Failures

5.6 Develop a Safety Validation Plan for a Hypothetical Vehicle System

Assessment Breakdown

50%

Theory

35%

Practical

15%

Project

Passing Mark: 325 / 500 (65%)

Methods: Written Examination, Practical Assignment, Portfolio Assessment

How to Enrol

Website: lapt.org

Email: info@lapt.org

Phone: +44 7513 283044

Address: 85 Great Portland Street, W1W 7LT, United Kingdom

Hours: Monday – Friday, 9AM – 5PM

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