Observability Analysis of INS Rapid Transfer Alignment

2006 6th World Congress on Intelligent Control and Automation Pub Date : 2006-10-23 DOI:10.1109/WCICA.2006.1712635

Z. Xiong, F. Sun, Qi Nie

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引用次数: 18

Abstract

An observability analysis of the rapid transfer alignment (RTA) of the inertial navigation system (INS) is presented in this paper. RTA is divided into the time-invariant system and time-varying system to be analyzed. When there is not rotation between the body frame and navigation frame, or the sensed specific force of slave inertial navigation system (SINS) is constant, RTA is a time-invariant system and has three unobservable states. Moreover the three misalignments are not estimated at the same time. When RTA is a time-variant system, it will be instantaneous observable by appropriate maneuver, which is easily achieved. With the level constant velocity maneuver, RTA is similar to a time-invariant system. So it has three unobservable states. With the level turn maneuver, RTA is instantaneous observable if the rotation angular rate is non-constant. With the marine sway maneuver and wing-rock maneuver, RTA is observable. The result of the investigation shows that appropriate maneuver, which is non-constant acceleration and/or rotation with non-constant angular rate, will enhance the observability of RTA easily

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惯导系统快速传递对准的可观测性分析

本文对惯性导航系统快速传递对准(RTA)的可观测性进行了分析。将RTA分为时不变系统和时变系统进行分析。当体架与导航架之间不存在旋转，或从惯性导航系统感知比力恒定时，RTA是一个定常系统，具有三种不可观测状态。此外，这三种偏差不是同时估计的。当RTA是时变系统时，通过适当的机动可以实现瞬时观测，这是很容易实现的。在水平等速机动下，RTA类似于定常系统。所以它有三种不可观测状态。在水平转向机动中，当旋转角速度不恒定时，RTA是瞬时可见的。在海上摇摆机动和翼-岩机动下，RTA是可观测的。研究结果表明，适当的机动，即非恒定加速度和/或非恒定角速度的旋转，可以很容易地提高RTA的可观测性

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2006 6th World Congress on Intelligent Control and Automation

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