期刊
SENSORS
卷 21, 期 4, 页码 -出版社
MDPI
DOI: 10.3390/s21041131
关键词
machine learning; autonomous vehicles; Inertial Navigation System; Satellite Navigation; Real-Time Kinematic; indoor navigation; reference state
资金
- Federal Ministry of Education and Research of Germany (Bundesministerium fur Bildung und Forschung) [03FH7I02IA]
This research presents a methodology to reduce the dependency of Inertial Navigation Systems on SatNav, improving the accuracy of vehicle state estimation under adverse driving conditions. The proposed method includes machine learning for standstill recognition and LiDAR-based Positioning Method for indoor navigation, achieving accuracy closely resembling that of a system with Real-Time Kinematic correction data.
A current trend in automotive research is autonomous driving. For the proper testing and validation of automated driving functions a reference vehicle state is required. Global Navigation Satellite Systems (GNSS) are useful in the automation of the vehicles because of their practicality and accuracy. However, there are situations where the satellite signal is absent or unusable. This research work presents a methodology that addresses those situations, thus largely reducing the dependency of Inertial Navigation Systems (INSs) on the SatNav. The proposed methodology includes (1) a standstill recognition based on machine learning, (2) a detailed mathematical description of the horizontation of inertial measurements, (3) sensor fusion by means of statistical filtering, (4) an outlier detection for correction data, (5) a drift detector, and (6) a novel LiDAR-based Positioning Method (LbPM) for indoor navigation. The robustness and accuracy of the methodology are validated with a state-of-the-art INS with Real-Time Kinematic (RTK) correction data. The results obtained show a great improvement in the accuracy of vehicle state estimation under adverse driving conditions, such as when the correction data is corrupted, when there are extended periods with no correction data and in the case of drifting. The proposed LbPM method achieves an accuracy closely resembling that of a system with RTK.
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