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arxiv: 1908.06588 · v1 · pith:ZEOWWAQE · submitted 2019-08-19 · cs.RO · cs.CV

How far should self-driving cars see? Effect of observation range on vehicle self-localization

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classification cs.RO cs.CV
keywords accuracyeffectlocalizationrangetimeobservationself-localizationwhile
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Accuracy and time efficiency are two essential requirements for the self-localization of autonomous vehicles. While the observation range considered for simultaneous localization and mapping (SLAM) has a significant effect on both accuracy and computation time, its effect is not well investigated in the literature. In this paper, we will answer the question: How far should a driverless car observe during self-localization? We introduce a framework to dynamically define the observation range for localization to meet the accuracy requirement for autonomous driving, while keeping the computation time low. To model the effect of scanning range on the localization accuracy for every point on the map, several map factors were employed. The capability of the proposed framework was verified using field data, demonstrating that it is able to improve the average matching time from 142.2 ms to 39.3 ms while keeping the localization accuracy around 8.1 cm.

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