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Autonomous Vehicle Sensor Suite Data with Ground Truth Trajectories for Algorithm Development and Evaluation Michigan Technological University

SAE Technical Papers (1906-current) Available online

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Format:
Conference/Event
Author/Creator:
Buller, Buller, author.
Contributor:
Hoellerbauer, Jakob
Kourous, Helen
Conference Name:
WCX World Congress Experience (2018-04-10 : Detroit, Michigan, United States)
Language:
English
Physical Description:
1 online resource
Place of Publication:
Warrendale, PA SAE International 2018
Summary:
This paper describes a multi-sensor data set, suitable for testing algorithms to detect and track pedestrians and cyclists, with an autonomous vehicle's sensor suite. The data set can be used to evaluate the benefit of fused sensing algorithms, and provides ground truth trajectories of pedestrians, cyclists, and other vehicles for objective evaluation of track accuracy. One of the principal bottlenecks for sensing and perception algorithm development is the ability to evaluate tracking algorithms against ground truth data. By ground truth we mean independent knowledge of the position, size, speed, heading, and class of objects of interest in complex operational environments. Our goal was to execute a data collection campaign at an urban test track in which trajectories of moving objects of interest are measured with auxiliary instrumentation, in conjunction with several autonomous vehicles (AV) with a full sensor suite of radar, lidar, and cameras. Multiple autonomous vehicles collected measurements in a variety of scenarios designed to incorporate real world interactions of vehicles with bicyclists and pedestrians. Trajectory data for a set of bicyclists and pedestrians was collected by separate means. In most cases, the real-time kinetic receivers on the bicyclists and pedestrians achieve RTK (Real Time Kinematic)-fixed, or RTK-float accuracy, resulting in errors on the order of a few centimeters, or a few decimeters, respectively; position accuracy on the instrumented interaction vehicles is on the order of 10cm. We describe the data collection campaign at the University of Michigan's Mcity Test Facility for connected and automated vehicles, the interaction scenarios and test conditions, and will show some visualizations of the test as well as initial evaluation results. These data will serve as a global-frame, multi sensor/multi actor canonical dataset which can be used for the development and evaluation of extended-object tracking algorithms for autonomous vehicles
Notes:
Vendor supplied data
Publisher Number:
2018-01-0042
Access Restriction:
Restricted for use by site license

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