Ansys: Ford and Ansys Accelerate Development of Next-Generation Predictive Headlight Technology

Ford engineers use optical simulation solutions from Ansys for development of predictive smart headlights

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Ansys (NASDAQ: ANSS) simulation solutions enable Ford to accelerate the development of its predictive smart headlights and improve nighttime driving for consumers. Engineers at Ford value Ansys’ high fidelity, physics-based lighting capabilities to optimize and validate headlight performance virtually, significantly reducing dependency on costly, real-world night drives.

Nighttime and low-light conditions decrease visibility for drivers, making it harder to react to wildlife, pedestrians, and sudden turns. Ford is testing a new predictive smart headlight system that uses real-time location data to direct beams into upcoming turns, allowing motorists to better see around corners and respond to hazards. But as advanced driver assistance systems permeate more automotive features and increase functionality, an ever-increasing number of scenarios must be accounted for — making physical testing and validation a difficult and complex process.

Ford leverages Ansys’ AVxcelerate Headlamp solution to optimize performance in a virtual environment.”

Ford leverages Ansys’ AVxcelerate Headlamp solution to optimize performance in a virtual environment.

 

To reduce reliance on building and testing physical prototypes — a costly and time-consuming process — Ford leverages Ansys’ AVxcelerate Headlamp solution to optimize performance in a virtual environment. Ansys’ vehicle headlight solution features real-time, physics-based optical simulation and driver-in-the-loop functionality to replicate the physical world with a high degree of predictive accuracy. Empowered by a realistic virtual night driving experience, engineers at Ford can rely on insights gained from simulations to improve product design long before physical headlamp prototypes are available.

“The predictive accuracy of Ansys simulations yields a variety of significant benefits for our team, from being able to engineer for edge case scenarios to less late-night road tests,” said Michael Koherr, advanced lighting research engineer at Ford of Europe. “With the ability to truly gauge system performance in a virtual environment, we’re able to identify opportunities to improve our product well before entering the physical testing stage. Simulation has and will continue to play a critical role in our quest of making driving at night as safe and easy as during the day.”

To see how Ford’s predictive smart headlights guide drivers through the dark, click here.

“Ford’s intelligent headlights represent an excellent case of how simulation, innovation, and safety go hand-in-hand,” said Shane Emswiler, senior vice president of products at Ansys. “With our solutions, engineers at Ford can quickly test its system under countless scenarios and lighting conditions to help ensure that the first physical prototype is in excellent working condition. Ultimately, that means Ford’s technology can spend less time as a concept and more time on the road, reducing accidents and saving lives.”

 

This content was originally published on the Ansys website.

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