Bridging the Gap between Micro-scale Traffic Simulation and 4D Digital Cityscapes
This work addresses the gap in effective stakeholder communication for urban planning by enabling multimodal traffic simulations, though it is incremental as it combines existing tools with new integration.
The authors tackled the problem of coupling micro-scale traffic simulations with high-fidelity visualization and auralization for urban planning by developing a real-time 4D visualization framework that integrates SUMO traffic with a photorealistic VR representation of Zurich in Unreal Engine 5, and validated it through a user study showing high perceptual alignment and that spatialized audio alters users' sense of safety.
While micro-scale traffic simulations provide essential data for urban planning, they are rarely coupled with the high-fidelity visualization or auralization necessary for effective stakeholder communication. In this work, we present a real-time 4D visualization framework that couples the SUMO traffic with a photorealistic, geospatially accurate VR representation of Zurich in Unreal Engine 5. Our architecture implements a robust C++ data pipeline for synchronized vehicle visualization and features an Open Sound Control (OSC) interface to support external auralization engines. We validate the framework through a user study assessing the correlation between simulated traffic dynamics and human perception. Results demonstrate a high degree of perceptual alignment, where users correctly interpret safety risks from the 4D simulation. Furthermore, our findings indicate that the inclusion of spatialized audio alters the user's sense of safety, showing the importance of multimodality in traffic simulations.