The rounD dataset introduces a fresh compilation of natural road user trajectory data from German roundabouts, gathered using drone technology to navigate past usual challenges such as occlusions inherent in traditional traffic data collection methods. It includes traffic data from three unique locations, capturing the movement and categorizing each road user by type. Advanced computer vision algorithms are applied to ensure high positional accuracy. This dataset is highly adaptable for a variety of applications, including predicting road user behavior, driver modeling, scenario-based safety evaluations for automated driving systems, and the data-driven creation of Highly Automated Driving (HAD) system components.
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The exiD dataset introduces a groundbreaking collection of naturalistic road user trajectories at highway entries and exits in Germany, meticulously captured with drones to navigate past the limitations of conventional traffic data collection methods, such as occlusions. This approach not only allows for the precise extraction of each road user’s trajectory and type but also ensures very high positional accuracy, thanks to sophisticated computer vision algorithms. Its innovative data collection technique minimizes errors and maximizes the quality and reliability of the dataset, making it a valuable resource for advanced research and development in the field of automated driving technologies.
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This dataset contains aircraft trajectories in an untowered terminal airspace collected over 8 months surrounding the Pittsburgh-Butler Regional Airport [ICAO:KBTP], a single runway GA airport, 10 miles North of the city of Pittsburgh, Pennsylvania. The trajectory data is recorded using an on-site setup that includes an ADS-B receiver. The trajectory data provided spans days from 18 Sept 2020 till 23 Apr 2021 and includes a total of 111 days of data discounting downtime, repairs, and bad weather days with no traffic. Data is collected starting at 1:00 AM local time to 11:00 PM local time. The dataset uses an Automatic Dependent Surveillance-Broadcast (ADS-B) receiver placed within the airport premises to capture the trajectory data. The receiver uses both the 1090 MHz and 978 MHz frequencies to listen to these broadcasts. The ADS-B uses satellite navigation to produce accurate location and timestamp for the targets which is recorded on-site using our custom setup. Weather data during t
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The uniD dataset is an innovative collection of naturalistic road user trajectories, captured within the RWTH Aachen University campus using drone technology to address common challenges such as occlusions found in traditional traffic data collection methods. It meticulously documents the movement and classifies each road user by type. Employing cutting-edge computer vision algorithms, the dataset ensures high positional accuracy. Its utility spans various applications, from predicting road user behavior and modeling driver actions to conducting scenario-based safety checks for automated driving systems and facilitating the data-driven design of Highly Automated Driving (HAD) system components.
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