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High-Fidelity Radar Driving Scenario Simulations

In this webinar we explore a high-resolution MIMO radar system simulation in realistic driving scenarios. A full physics-based radar scene corner case is modeled to obtain high-fidelity range-Doppler maps.

January 20, 2021

4 AM EST / 9 AM GMT / 2:30 PM IST

Venue:
Online

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Navigating Safety ADAS/AV Systems

Application Field: ADAS and Autonomous Driving

Advanced driver assistance systems (ADAS) are at the core of automotive safety and will serve as the enabling technologies for autonomous vehicles. In this webinar we explore a high-resolution MIMO radar system simulation in realistic driving scenarios. A full physics-based radar scene corner case is modeled to obtain high-fidelity range-Doppler maps. We investigate the effects of inclined roads on late pedestrian detection as well as the effects of construction metal plate radar-returns on false target identification. The radar returns will be processed into Range-Doppler and Angle of Arrival maps. Additionally, micro-Doppler signatures by vehicles and pedestrians will be studied using full-physics simulation.

Speaker: Amazir Moknache, Senior Application Engineer, Ansys

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