基于无陀螺加速度计的捷联惯导系统:算法和结构

2012 2nd International Conference "Methods and Systems of Navigation and Motion Control" (MSNMC) Pub Date : 2012-10-01 DOI:10.1109/MSNMC.2012.6475076

V. Larin, A. Tunik

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引用次数: 8

摘要

近年来，世界各地的研究人员都致力于利用线性加速度计制造低成本的无陀螺捷联惯导系统，仅用于各种无人驾驶车辆、机器人等的导航。这类捷联惯导系统的基本问题是角加速度估计、角速率估计和姿态确定中冗余线加速度计读数的转换。研究了冗余传感器数量与信号处理软件性能(精度)的关系。结果表明，将传感器数量从最小值6增加到12，可以增加校正估计结果的可能性，从而提高估计精度。仿真结果表明，当传统的陀螺仪可能存在很大问题时，该系统在高速旋转的移动车辆中是有效的。

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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Gyro-free accelerometer-based SINS: Algorithms and structures

Recently researchers all over the world direct their efforts to the creation of the low-cost gyro-free SINS using linear accelerometers only for navigation of various unmanned vehicles, robots etc. The basic problem of such kind of SINS is the conversion of the redundant linear accelerometers readouts in the estimation of angular accelerations, angular rates and the attitude determination. The relation between amount of redundant sensors and performance (accuracy) of signal processing software is investigated. It is shown that increasing amount of sensors from minimal value 6 to 12 gives additional possibilities to correct estimation results, thus increasing the estimation accuracy. Simulation of such systems shows their efficiency especially in case of the moving vehicle, spinning with high angular rate, when traditional use of gyros might be very problematic.

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来源期刊

2012 2nd International Conference "Methods and Systems of Navigation and Motion Control" (MSNMC)

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