应用卫星测量和数字路径模型数据实现无人飞行器的稳健定位

Q4 Engineering
S. V. Sokolov, A. L. Okhotnikov
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引用次数: 0

摘要

本文提出了一种处理卫星导航测量数据的新方法,用于在干扰条件下对沿程序轨迹移动的无人驾驶飞行器进行稳定定位。处理噪声卫星测量的现代方法主要使用对最小二乘法的各种修改,通常为静止物体提供稳定性和所需的定位精度。同时,应用随机过滤理论方法,既考虑到物体运动的动态性,又考虑到物体干扰和测量噪声的存在,是评估在不确定干扰条件下运行的高动态无人飞行器状态的最有效方法。在这方面,所提出的无人车定位方法是基于非线性随机滤波方法的应用,特别是文章中考虑的鲁棒非线性滤波方法,它能确保定位过程的稳定性。同时,文章提出利用数字路径模型来提高无人飞行器的定位精度。该模型是在高精度大地测量的基础上形成的,通过一组与物体空间坐标具有解析关系的正交轨迹区间,能够以所需的精度逼近无人驾驶飞行器的程序轨迹。这反过来又确保了高定位精度和计算成本的大幅降低。总之,与已知的卫星测量处理方法相比,融合数字路径模型信息和稳健的随机滤波算法来处理噪声卫星测量,既保证了无人飞行器当前坐标估算过程的稳定性,又大幅降低了计算成本。通过一个数值示例说明了拟议方法的效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Robust Positioning of Unmanned Vehicles with the Application of Satellite Measurements and Digital Path Model Data
A new approach to the processing of satellite navigation measurements for the stable positioning of unmanned vehicles moving along program trajectories under conditions of interference is proposed. Modern methods of processing noisy satellite measurements mainly use various modifications of the least squares method, providing stability and the required positioning accuracy, as a rule, for stationary objects. At the same time, application of stochastic filtration theory methods that take into account both the dynamics of the object’s movement, and the presence of object disturbances and measurement noise are the most effective methods to assess the state of highly dynamic unmanned vehicles operating under conditions of uncertain disturbances. In this regard, the proposed approach to the positioning of unmanned vehicles is based on the application of nonlinear stochastic filtering methods, in particular, the robust nonlinear filtration method considered in the article that ensures the stability of the positioning process. At the same time, it is proposed to use digital path model to increase the accuracy of positioning an unmanned vehicle. This model is formed on the basis of high-precision geodetic measurements and providing the ability of approximation with the required accuracy of the program trajectory of the unmanned vehicle by a set of orthodromic trajectory intervals, which have an analytical relationship of the spatial coordinates of the object. This, in turn, ensures high positioning accuracy and a sharp reduction in computing costs. In general, the fusion of digital path model information and robust stochastic filtering algorithms for processing noisy satellite measurements has ensured both the stability of the process of estimating the current coordinates of an unmanned vehicle and a sharp reduction in computational costs compared with known methods of processing satellite measurement. The efficiency of the proposed method is shown by a numerical example.
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来源期刊
Mekhatronika, Avtomatizatsiya, Upravlenie
Mekhatronika, Avtomatizatsiya, Upravlenie Engineering-Electrical and Electronic Engineering
CiteScore
0.90
自引率
0.00%
发文量
68
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