This webinar showcases an integrated workflow for developing Automatic Emergency Braking (AEB) systems in compliance with ISO 26262 functional safety standards and NCAP performance requirements. Using medini analyze, Ansys AVxcelerate, and SCADE, we will demonstrate how safety analysis, sensor simulation, and model-based software development can be seamlessly combined. Attendees will gain insights into hazard and risk analysis, virtual testing of sensor-based perception, and automatic code generation for safety-critical applications—ensuring both regulatory compliance and real-world performance of AEB systems.
Automotive and Ground Transportation
Functional Safety Engineers Embedded Engineers ADAS Engineers Quality Assuarance
Integrated ISO 26262-Compliant Workflow
Learn how to leverage Ansys medini analyze for functional safety analysis, ensuring compliance with ISO 26262 standards and NCAP performance requirements in AEB systems. Hazard and Risk Analysis
Explore systematic methods for identifying hazards, assessing risks, and deriving safety goals for critical ADAS functionalities using safety analysis models. Virtual Testing of Sensor-Based Perception
Gain insights into Ansys AVxcelerate for simulating radar, lidar, and camera sensors in a virtual driving environment to validate perception algorithms under diverse scenarios. Model-Based Software Development
See how Ansys SCADE enables model-driven engineering for AEB control logic, supporting automatic, certified code generation for safety-critical applications. Seamless Toolchain Integration
Understand how medini analyze, AVxcelerate, and SCADE work together to bridge safety, simulation, and software development within a unified ADAS development workflow. Real-World Performance Validation
Discover techniques for virtual validation and verification, ensuring that AEB systems meet both regulatory compliance and operational performance benchmarks.
