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Overview
This course provides a comprehensive understanding of the Automotive SPICE (ASPICE) process assessment model and the ISO 26262 functional safety standard. Participants will learn how to apply these frameworks to ensure the development of safe and reliable automotive systems, especially in Electric Vehicles (EVs) and Advanced Driver-Assistance Systems (ADAS). The training covers the Software Development Lifecycle (SDLC) under ASPICE, key safety principles, and practical tools to achieve compliance.
Objectives
By the end of this course, leaner will be able to:
- Understand the ASPICE process model and ISO 26262 functional safety standard.
- Apply ASPICE process areas to improve software development.
- Conduct Hazard Analysis and Risk Assessment (HARA).
- Develop safety concepts and technical safety requirements.
- Implement safety mechanisms and verification strategies.
- Apply FuSA principles in EV and ADAS development.
- Utilize industry-standard tools for compliance.
Prerequisites
Basic knowledge of Automotive Systems and Automotive Software.
Course Outline
Module 1: Introduction to ASPICE and Functional Safetykeerti2025-03-23T13:33:33+05:30
- Overview of ASPICE and its purpose
- ASPICE process assessment model (PAM) and capability levels
- Introduction to ISO 26262 and Automotive Safety Integrity Levels (ASILs)
- Relationship between ASPICE and ISO 26262
Module 2: ASPICE Process Areas and the SDLCkeerti2025-03-23T13:33:24+05:30
- System & Software Development Lifecycle (SDLC)
- Requirements Engineering (SYS.1, SWE.1)
- System & Software Design (SYS.2, SWE.2)
- Testing & Implementation (SYS.3, SWE.3, SYS.4, SWE.4)
- Change & Configuration Management (SUP.8, SUP.9)
- Supporting Processes in ASPICE
- Project Management (MAN.3)
- Risk Management (MAN.5)
- Quality Assurance (SUP.1)
- Problem Resolution (SUP.10)
- Measurement (MAN.6)
Module 3: Hazard Analysis and Risk Assessment (HARA)keerti2025-03-23T13:33:15+05:30
- Hazard identification and classification
- ASIL determination and risk assessment
- Case studies in EV & ADAS systems
Module 4: Functional Safety Concept and Technical Safety Requirementskeerti2025-03-23T13:33:09+05:30
- Development of safety goals and requirements
- Technical safety concept & implementation
- Safety analysis techniques (FTA, FMEA)
Module 5: Software Developmentkeerti2025-03-23T13:40:47+05:30
- Software safety requirements & design
- Unit testing, integration testing, and validation
- Software tools qualification
Module 6: Application of FuSA in EV and ADASkeerti2025-03-23T13:32:55+05:30
- FuSA in EV Systems: Battery Management Systems (BMS), Electric Drive, Charging Systems
- FuSA in ADAS Systems: Adaptive Cruise Control (ACC), Lane Departure Warning (LDW), Automatic Emergency Braking (AEB)
- Tools for Functional Safety: Static & dynamic analysis tools, testing & simulation tools
