Haifeng Xing, Xueling Zhao, Bin Zhou, Zhiyong Chen, Meifeng Guo
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引用次数: 1
摘要
本文报道了利用基于微机电系统(MEMS)技术的低精度微惯性测量单元(mimu)进行高精度动态寻北,并推导了陀螺数量、性能与寻北时间的关系。利用MEMS陀螺寻北引起了广泛的关注。然而,目前用于寻北精度小于1°的陀螺仪性能较高。本文通过多个相对廉价的mimu (ADIS16475)实现了高精度寻北,其寻北精度较低,角度随机漫步(ARW)约为0.12 ~ 0.15°/$\sqrt h $,偏置不稳定性(BI)约为2 ~ 6°/ h,给出了寻北精度与陀螺仪数量、精度和测量数据时间长度之间的关系,为寻北研究提供了理论指导。用4台低精度mimu和30分钟数据求解方位角,寻北精度为0.57°,验证了理论分析的有效性。
Analysis of Dynamic North Finding based on Multiple Low-Precision MIMUs
This paper reports the use of low-precision micro inertial measurement units (MIMUs) based on micro-electro-mechanical systems (MEMS) technology for high-precision dynamic north finding and deduces the relationship among the number and performance of gyros and north finding time. North finding with MEMS gyros has attracted wide attention. However, it is found that the performance of gyros used in north finding accuracy less than 1° is high at present. This work achieves high- precision north finding through multiple relatively inexpensive MIMUs (ADIS16475) with lower accuracy that the angle random walk (ARW) is about 0.12 to 0.15° /$\sqrt h $ and the bias instability (BI) is about 2 to 6° / h. The relationship among the accuracy of north finding and the number and accuracy of gyros and time length of measured data is given, which can provide theoretical guidance for north seeking research. The accuracy of north finding is 0.57° when four low-precision MIMUs and the 30-min data to solve the azimuth, verifying the effectiveness of theoretical analysis.
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