Brief introduction to WaveFarer Automotive Radar Simulation Software.
Other content in this Stream
Learn how WaveFarer uses ray-tracing to simulate virtual drive scenarios and predict radar returns as a system moves through an environment.
In this webinar learn about WaveFarer's features for automotive and indoor radar applications, including diffuse scattering from rough surfaces such as roads and the ability to transmit through walls.
This presentation demonstrates ray-tracing and scattering simulations from WaveFarer combined with chirp Doppler analysis algorithms to assess radar performance for drive scenario simulations.
A convex dielectric lens, designed for 77 GHz, is compared against a similar plano-convex lens using XFdtd.
WaveFarer’s diffuse scattering model increases the fidelity of the simulation by revealing how paths interact with rough surfaces, leading to additional clutter in radar returns.
This whitepaper demonstrates how XFdtd's time-domain approach enables rapid development of automotive radar sensors by allowing engineers to determine performance without needing to build prototypes.
This paper outlines the advantages of FDTD EM simulation for analyzing antenna-in-system designs that include both the antenna package and the automobile body features surrounding the device.
WaveFarer is a software tool created specifically for automotive radar sensor design and placement. It enables Tier 1 suppliers to virtually test and refine results earlier in the design process.