This paper presents a 1/10th scale MiniCity platform used as a testing bed for evaluating autonomous and connected vehicles. Using the MiniCity platform, we can evaluate different driving scenarios including human-driven and autonomous driving. We provide a unique, visual feature-rich environment for evaluating computer vision methods. The conducted experiments utilize onboard sensors mounted on a robotic platform we built, allowing them to navigate in a controlled real-world urban environment. The designed city is occupied by cars, stop signs, a variety of residential and business buildings, and complex intersections mimicking an urban area. Furthermore, We have designed an intelligent infrastructure at one of the intersections in the city which helps safer and more efficient navigation in the presence of multiple cars and pedestrians. We have used the MiniCity platform for the analysis of three different applications: city mapping, depth estimation in challenging occluded environments, and smart infrastructure for connected vehicles. Our smart infrastructure is among the first to develop and evaluate Vehicle-to-Infrastructure (V2I) communication at intersections. The intersection-related result shows how inaccuracy in perception, including mapping and localization, can affect safety. The proposed MiniCity platform can be considered as a baseline environment for developing research and education in intelligent transportation systems.
Design and Implementation of Smart Infrastructures and Connected Vehicles in a MiniCity Platform
24.09.2024
3122083 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
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