2 0 0 0 OA Robustness Evaluation of Vehicle Localization in 3D Map Using Convergence of Scan Matching
- 著者
- Yuki Kitsukawa Tatsuya Minami Yudai Yamazaki Junich Meguro Eijiro Takeuchi Yoshiki Ninomiya Shinpei Kato Masato Edahiro
- 出版者
- Society of Automotive Engineers of Japan, INC
- 雑誌
- International Journal of Automotive Engineering (ISSN:21850984)
- 巻号頁・発行日
- vol.13, no.4, pp.206-213, 2022 (Released:2022-11-22)
- 参考文献数
- 18
- 被引用文献数
- 2
ABSTRACT: Ego-vehicle localization is a critical technology in autonomous driving systems, and one of the widely used methods for localization is scan matching between a 3D map and real-time LiDAR scan. This method is known to fail due to factors such as an incorrect initial position and orientation for scan matching. In this paper, we propose a simulator-based localization evaluation framework to verify the robustness of localization. By using a simulator, localization can be evaluated without driving a real vehicle, and can be evaluated by creating disturbances such as traffic jams. Our framework also allows to evaluate the robustness of localization by using multiple particles with random errors of the initial position and orientation for scan matching to simulate dead reckoning errors caused by multiple factors such as road surface conditions and tire diameter. In the evaluation experiments, we confirmed that the robustness of localization can be evaluated by applying this method to factors such as sensor setup, disturbances in the traffic environment, and the amount of 3D features in the environment.
- 著者
- Yudai YAMAZAKI Joshua ALVIN Jian PANG Atsushi SHIRANE Kenichi OKADA
- 出版者
- The Institute of Electronics, Information and Communication Engineers
- 雑誌
- IEICE TRANSACTIONS on Electronics (ISSN:09168516)
- 巻号頁・発行日
- vol.E106-C, no.4, pp.149-156, 2023-04-01
- 被引用文献数
- 1
This article presents a 28GHz high-accuracy phase and amplitude detection circuit for dual-polarized phased-array calibration. With dual-polarized calibration scheme, external LO signal is not required for calibration. The proposed detection circuit detects phase and amplitude independently, using PDC and ADC. By utilizing a 28GHz-to-140kHz downconversion scheme, the phase and amplitude are detected more accurately. In addition, reference signal for PDC and ADC is generated from 28GHz LO signal with divide-by-6 dual-step-mixing injection locked frequency divider (ILFD). This ILFD achieves 24.5-32.5GHz (28%) locking range with only 3.0mW power consumption and 0.01mm2 area. In the measurement, the detection circuit achieves phase and amplitude detections with RMS errors of 0.17degree and 0.12dB, respectively. The total power consumption of the proposed circuit is 59mW with 1-V supply voltage.