Scaling Virtual Validation for ADAS features
Overview
This session explores advanced methodologies in Vehicle Dynamics and Scenario Simulation, emphasizing applications in ADAS (Advanced Driver Assistance Systems), powertrain dynamics, and chassis control. The focus is on leveraging high-fidelity models from Vehicle Dynamics Blockset (VDBS) and Simscape, tailored for diverse vehicle categories, including commercial vehicles, passenger vehicles, and two-wheelers. The session will also demonstrate closed-loop validation for ADAS applications, including lane-keeping systems for self-driving trucks, supported by real-time simulation and synthetic data generation. By integrating these advanced simulation techniques, participants will gain insights into the development of robust, safety-compliant ADAS solutions. The session concludes with an interactive discussion, exploring the potential of scenario-driven vehicle dynamics simulation in accelerating ADAS development.
Highlights
- High-Fidelity Models: Utilizing Vehicle Dynamics Blockset (VDBS) and Simscape for various vehicle categories.
- Closed-Loop Validation: Demonstrating ADAS applications like lane-keeping systems for self-driving trucks.
- Real-Time Simulation and Synthetic Data Generation: Supporting robust ADAS development.
- Interactive Discussion: Exploring the potential of scenario-driven vehicle dynamics simulation in accelerating ADAS development.
About the Presenter
Abhisek Roy | Senior Application Engineer | MathWorks
Abhisek Roy is a senior application engineer at MathWorks India, specializing in modeling, control design, and automation. With a strong focus on the automotive industry, he has worked closely with customers to address their system simulation, control system design, and robotics challenges. Abhisek’s expertise lies in various aspects of the automotive field, particularly powertrains, vehicle dynamics, and calibration workflows. He has delivered and supported multiple customer projects in these domains, showcasing his ability to provide tailored solutions to meet specific needs. He has an M.Tech. degree in electrical engineering from the Indian Institute of Technology, Madras, specializing in control systems and robotics, and a B.Tech. in electrical engineering from Jadavpur University, Kolkata. He is currently pursuing an executive M.B.A. from the Indian School of Business.
Munish Raj | Application Engineer | MathWorks
Munish Raj is an application engineer for automated driving at MathWorks. His areas of expertise are in scenes and scenario creation for automated driving, developing and testing perception, planning and control algorithms, and autonomous driving. He has an engineering degree in electronics and communications from VIT University, Vellore.
Product Focus
- Simscape
- Vehicle Dynamics Blockset
Organizer
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