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System Engineering VModel ISO26262 ASPICE and Motors

Integrating Safety and Quality in Automotive Systems


Kmtec Ltd

Summary

Price
£12 inc VAT
Study method
Online, On Demand What's this?
Duration
4.5 hours · Self-paced
Qualification
No formal qualification
Certificates
  • Reed Courses Certificate of Completion - Free

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Overview

This course provides a comprehensive overview of the System Engineering V-Model, emphasizing its application within the automotive industry, particularly in relation to ISO 26262 and ASPICE standards. Participants will explore the key concepts of the V-Model, including requirements definition, design, implementation, and verification phases, while understanding how these phases integrate with safety and quality frameworks.

Key topics include:

  • Introduction to the V-Model: Understanding the structure and phases of the V-Model in system engineering.
  • ISO 26262 Overview: Exploring functional safety principles and their importance in automotive systems, including risk assessment and safety lifecycle management.
  • ASPICE Framework: Examining the Automotive SPICE (ASPICE) model for process improvement and how it complements the V-Model and ISO 26262.
  • Practical Applications: Case studies and hands-on exercises to apply the learned concepts to real-world scenarios in automotive system development.
  • Integration Strategies: Techniques for aligning system engineering practices with safety and quality standards, ensuring compliance and best practices.

By the end of the course, participants will be equipped with the knowledge and skills to effectively implement the V-Model in conjunction with ISO 26262 and ASPICE, enhancing the safety and quality of automotive systems. Ideal for system engineers, project managers, and quality assurance professionals in the automotive industry.

Certificates

Reed Courses Certificate of Completion

Digital certificate - Included

Will be downloadable when all lectures have been completed.

Curriculum

8
sections
34
lectures
4h 31m
total
    • 1: System Engineering 05:52
    • 2: System and software requirements with a simple example 13:28
    • 3: Systems Engineering example - video 12:43
    • 4: Systems Thinking 10:12
    • 5: Systems Model Definition and Importance 07:49
    • 6: Types of System Models and their definitions 07:36
    • 7: What is SysML in context of systems engineering models? 07:10
    • 8: System Architecture and Model 06:08
    • 9: System requirements and Design Traceability 12:27
    • 10: System Engineering Quiz 07:00
    • 11: ISO26262 ASIL MISRA Functional Safety Basics 17:40
    • 12: ISO 26262 and MISRA , How are they related? 01:05
    • 13: ISO26262 Considerations in case of Diagnostics - Application of ISO26262 07:10
    • 14: FunctionalSafety ISO26262 ASIL 13:57
    • 15: ASPICE Introduction 10:03
    • 16: ASPICE origins 08:12
    • 17: ASPICE Assessment types 05:09
    • 18: ASPICE assessment questions 07:24
    • 19: What is AUTOSAR , Basic introduction 08:21
    • 20: What are the different parts of Autosar? 13:55
    • 21: Autosar CDD Complex Device Drivers 03:17
    • 22: V Model requirements SYS & SWE types 13:22
    • 23: V Model - Testing Side 05:54
    • 24: What are MISRA standards 02:42
    • 25: Practical applications of MISRA standards in the automotive industry 09:16
    • 26: Hazard and Risk Analysis HARA Basics 03:04
    • 27: Hazard and Risk Analysis Techniques 11:06
    • 28: Motor Basics of Electric Vehicles 08:26
    • 29: Batteries in Electric Vehicles and Lithium Ion Battery 08:38
    • 30: AC Motors Basics and Electric Vehicles 02:19
    • 31: Speed Control of AC motors Methods 04:46
    • 32: Pulse Width Modulation and Switching Frequency to Control Motors 04:50
    • 33: About Lithium Ion Battery 05:59
    • 34: Active and Passive Discharge in Batteries Concept 03:34

Course media

Description

  • Introduction to the V-Model: Understanding the structure and phases of the V-Model in system engineering.
  • ISO 26262 Overview: Exploring functional safety principles and their importance in automotive systems, including risk assessment and safety lifecycle management.
  • ASPICE Framework: Examining the Automotive SPICE (ASPICE) model for process improvement and how it complements the V-Model and ISO 26262.
  • Practical Applications: Case studies and hands-on exercises to apply the learned concepts to real-world scenarios in automotive system development.
  • Integration Strategies: Techniques for aligning system engineering practices with safety and quality standards, ensuring compliance and best practices.

Who is this course for?

Anyone interested in electric vehicles and automotive

For students who are in automotive field

Professionals working in the automotive field

Learn about automotive standards and electric vehicles

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FAQs

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