UPF based autonomous navigation scheme for deep space probe

Peng Li; Hutao Cui; Pingyuan Cui

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UPF based autonomous navigation scheme for deep space probe

机译：基于UPF的深空探测器自主导航方案

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摘要

The autonomous “celestial navigation scheme” for deep space probe departing from the earth and the autonomous “optical navigation scheme” for encountering object celestial body are presented. Then, aiming at the conditions that large initial estimation errors and non-Gaussian distribution of state or measurement errors may exist in orbit determination process of the two phases, UPF (unscented particle filter) is introduced into the navigation schemes. By tackling nonlinear and non-Gaussian problems, UPF overcomes the accuracy influence brought by the traditional EKF (extended Kalman filter), UKF (unscented Kalman filter), and PF (particle filter) schemes in approximate treatment to nonlinear and non-Gaussian state model and measurement model. The numerical simulations demonstrate the feasibility and higher accuracy of the UPF navigation scheme.

机译：介绍了用于深空探测器脱离地球的自主“天体导航方案”和遇到物体天体的自主“光学导航方案”。然后，针对在两个阶段的轨道确定过程中可能存在较大的初始估计误差以及状态或测量误差的非高斯分布的情况，将UPF（无味粒子滤波器）引入导航方案。通过解决非线性和非高斯问题，UPF克服了传统的EKF（扩展卡尔曼滤波器），UKF（无味卡尔曼滤波器）和PF（粒子滤波器）方案对非线性和非高斯状态模型的近似处理带来的精度影响。和测量模型。数值仿真表明了UPF导航方案的可行性和较高的准确性。

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来源
《Systems Engineering and Electronics, Journal of》 |2008年第3期|p.529-536|共8页
作者
Peng Li; Hutao Cui; Pingyuan Cui;
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作者单位

Deep Space Exploration Research Center, Harbin Inst. of Technology, Harbin 150080, P. R. China;

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正文语种 eng
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关键词
autonomous orbit determination; celestial navigation; control and navigation technology of aircraft; nonlinear and non-Gaussian; optical navigation; unscented particle filter;

机译：自主轨道确定;天体导航;飞机控制与导航技术;非线性与非高斯;光学导航;无味粒子滤波;

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1. UPF based autonomous navigation scheme for deep space probe [J] . Li Peng, Cui Hutao, Cui Pingyuan 系统工程与电子技术（英文版） . 2008,第003期

机译：基于UPF的深空探测的自主导航方案
2. Autonomous celestial navigation for a deep space probe approaching a target planet based on ephemeris correction [J] . Ma Xin, Fang Jiancheng, Ning Xiaolin, Proceedings of the Institution of Mechanical Engineers . 2015,第G14期

机译：基于星历校正的深空探测器接近目标行星的自主天文导航
3. Autonomous navigation of formation flying spacecrafts in deep space exploration and communication by hybrid navigation utilizing neural network filter [J] . H. Li, Q.Y. Zhang, N.T. Zhang Acta astronautica . 2009,第7a8期

机译：利用神经网络滤波器的混合导航在深空探测与通信中编队飞行器的自主导航
4. Autonomous Optical Navigation Based on Adaptive SR-UKF for Deep Space Probes [C] . MA Lichao, LIU Zaozhen, MENG Xiuyun . 2010

机译：基于自适应SR-UKF的深空探测器自主光学导航
5. An IMU-based spacecraft navigation architecture using a robust multi-sensor fault detection scheme. [D] . Haberberger, Samuel J. 2016

机译：使用强大的多传感器故障检测方案的基于IMU的航天器导航架构。
6. A Novel Autonomous Celestial Integrated Navigation for Deep Space Exploration Based on Angle and Stellar Spectra Shift Velocity Measurement [O] . Xiao Chen, Zhaowei Sun, Wei Zhang, 2019

机译：基于角度和恒星光谱位移速度测量的新型自主天文联合深空探测
7. SPACECRAFT LOCALIZATION VIA ANGLE MEASUREMENTS FOR AUTONOMOUS NAVIGATION IN DEEP SPACE MISSIONS [O] . Nicola Ceccarelli ∗andrea Garulli, Antonio Giannitrapani, Mirko Leomanni, 2015

机译：通过对深空任务中自主导航的角度测量进行航天器定位
8. Deep Space Network. An Instrument for Radio Navigation of Deep Space Probes. [R] . renzetti, n. a. jordan, j. f. 1982

机译：深空网络。深空探测器无线电导航仪。

UPF based autonomous navigation scheme for deep space probe

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