基于SINS/GBAS组合导航的高精度进近着陆导航技术  被引量：2

作　　者：高利春 高铭阳 陈晓芳[2] 饶建兵 费泽松[3] 倪少杰[4] GAO Lichun;GAO Mingyang;CHEN Xiaofang;RAO Jianbing;FEI Zesong;NI Shaojie(Space Engineering Development,China Aerospace Science and Industry Corporation Limited,Beijing 100854,China;School of Management,Wuhan University of Technology,Wuhan 430070,China;School of Information and Electronics,Beijing Institute of Technology,Beijing 100081,China;College of Electronic Science and Technology,National University of Defense Technology,Changsha 410003,China)

机构地区：[1]中国航天科工集团空间工程总体部,北京100854 [2]武汉理工大学管理学院,湖北武汉430070 [3]北京理工大学信息与电子学院,北京100081 [4]国防科技大学电子科学学院,湖南长沙410003

出　　处：《系统工程与电子技术》2023年第1期210-220,共11页Systems Engineering and Electronics

基　　金：国家242信息安全专项(2019A121)资助课题。

摘　　要：可重复使用运载器在进近着陆阶段对位置偏差有较高的精度要求,而现有的组合导航方式的导航误差波动幅度较大,难以满足运载器在进近着陆段的导航要求。因此,本文利用捷联惯导系统(strap-down inertial navigation system,SINS)的非线性误差传播模型,以陆基增强系统(ground based augmentation system,GBAS)输出的精确位置信息为基础,建立SINS/GBAS组合导航方法,并给出“输出+反馈”的组合导航复合修正结构。通过在GBAS中引入电离层误差及对流层误差,从而实现了对于运载器定位误差在厘米级的精确定位。此外,通过引入扩展卡尔曼滤波技术,有效地抑制了惯导误差漂移的问题。通过数值模拟仿真,证明SINS/GBAS组合导航对飞行器进近着陆段的水平与高程定位误差不大于0.05 m,测速误差不大于0.05 m/s,从而证实了SINS/GBAS组合导航方式在可重复运载器在进近着陆段导航的可行性。Reusable launch vehicles have high accuracy requirements for position deviation during the approach-and-landing phase.However,the existed combined navigation methods have a large fluctuation of the navigation error,which cannot meet the navigation requirements of the launch vehicle in the landing approach section.In this paper,we establish a combined navigation method based on the precise position information output form the ground based augmentation system(GBAS)and the nonlinear error propagation model of the combined navigation strap-down inertial navigation system(SINS).We provide a composite correction structure of“output+feedback”for the launch vehicle navigation based on SINS/GBAS combined navigation.By introducing ionospheric and tropospheric errors into GBAS,the precise positioning of the vehicle positioning errors at the centimeter scale is achieved and the inertial guidance error drift problem is effectively suppressed by the extended Kalman filter algorithm.The simulation results show that the horizontal and elevation positioning error of the combined SINS/GBAS navigation is no more than 0.05 m;the velocity error is no more than 0.05 m/s.We verify the feasibility of the combined SINS/GBAS approach for the vehicle approach-and-landing navigation system.

关 键 词：组合导航 卫星导航 陆基增强系统 进近着陆 

分 类 号：V448.11[航空宇航科学与技术—飞行器设计]