Course Overview:

The Automotive Embedded Verification & Validation Engineer Training Course at PiEST Systems-Embedded Systems Training Institute is an in-depth program designed to develop your expertise in automotive embedded systems. This course focuses on the critical aspects of verification methodologies, validation techniques, and ensuring compliance with industry standards. By mastering these skills, you will ensure the reliability, safety, and performance of automotive electronic control units (ECUs) and systems. Combining theoretical knowledge with hands-on lab sessions and real-world projects, this training provides a comprehensive understanding of automotive embedded system verification and validation, preparing you to excel in the rapidly evolving automotive industry.

Course Objectives

Understand Automotive Embedded Systems: Introduce students to the fundamentals of embedded systems, their applications in the automotive domain, and the role of ECUs in modern vehicles.
Learn Automotive Communication Protocols: Explore various automotive communication protocols such as CAN, LIN, FlexRay, and Ethernet, along with their importance in automotive networks.
Grasp Automotive Electronics: Gain insights into automotive electronic components, microcontroller architectures, and memory systems relevant to automotive ECUs.
Develop Embedded Software Verification Techniques: Learn software verification methods, including static analysis, dynamic testing, and unit testing, to ensure the correctness of automotive software.
Implement Model-Based Development and Validation: Utilize MATLAB/Simulink for model-based design and validation of automotive systems, enabling rapid prototyping and validation.
Comprehend Functional Safety and ISO 26262: Understand the principles of functional safety in the automotive industry and the ISO 26262 standard for safety-critical systems.
Master Hardware Validation Techniques: Gain hands-on experience with hardware validation, hardware-in-the-loop (HIL) testing, and calibration of automotive ECUs.
Apply Automotive System Integration and Testing: Perform system integration testing and validation, focusing on hardware-software integration and system-level performance.
Work on Real-World Verification and Validation Projects: Engage in practical projects to verify and validate automotive embedded systems, applying industry best practices and methodologies.

Course Modules

Module-1: Introduction to Automotive Embedded Systems
Overview of embedded systems in the automotive domain
Applications and significance of automotive ECUs
Introduction to automotive architectures and ECU functionalities
Module-2: Automotive Communication Protocols
In-depth study of CAN, LIN, FlexRay, and Ethernet protocols
Message-based communication and arbitration mechanisms
AUTOSAR communication stack overview
Module-3: Automotive Electronics and Microcontrollers
Understanding automotive electronic components and sensors
Commonly used microcontroller architectures in automotive systems
Memory systems and I/O interfaces for automotive ECUs
Module-4: Embedded Software Verification Techniques
Static analysis for code quality assessment
Dynamic testing, unit testing, and test-driven development (TDD)
Code coverage analysis and metrics for software verification
Basics of model-based design (MBD) and its application in automotive systems
Rapid prototyping and validation using MATLAB/Simulink
Validation of control algorithms for automotive functionalities
Module-6: Automotive Functional Safety and ISO 26262
Principles of functional safety in the automotive industry
Overview of the ISO 26262 standard and its implementation
Safety analysis and validation for safety-critical systems
Module-7: Hardware Validation Techniques and HIL Testing
Introduction to hardware validation and HIL testing
Developing HIL test scenarios and test automation
ECU calibration and validation using HIL systems
Module-8: Automotive System Integration and Testing
Challenges of hardware-software integration in automotive ECUs
System testing methodologies (black-box, white-box, regression, etc.)
Test automation and continuous integration (CI) in the automotive context
Module-9: Real-World Verification and Validation Projects and Case Studies
Engaging in practical projects to apply learned concepts
Analyzing case studies of automotive embedded verification and validation challenges
Project presentations and discussions
AUTOSAR course overview

Contact Us Now

Phone:

+91-9071123555

Email:

info@piestsystems.com

Contact Us
Registration
Scroll to Top