基于智能陀螺经纬仪实现快速初寻北  被引量:2

Quick coarse north-seeking based on intelligent gyro theodolite system

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作  者:冯莉[1] 董桂梅[1] 林玉池[1] 张金梅 齐永岳[1] 

机构地区:[1]天津大学精密测试技术及仪器国家重点试验室,天津300072 [2]中国海信,山东青岛266000

出  处:《光学精密工程》2009年第7期1582-1586,共5页Optics and Precision Engineering

基  金:天津大学博士点基金资助项目(No.20030056017)

摘  要:机械陀螺经纬仪初寻北时间的长短是决定其寻北效率的关键因素。从陀螺仪寻北的原理出发,在智能寻北系统中引入了一种快速寻北新方法——加速度判定法。该方法通过计算光标运动的速度与加速度值,能够在陀螺开始寻北数秒后即测量出真北值,并且能够弥补电子罗盘初寻北精度过低的问题,是全自动寻北策略的重要组成部分。以JT-15陀螺仪为样机的寻北实验表明,将加速度判定法应用于智能寻北系统中,仪器初寻北测量精度优于3′54″,满足了JT-15陀螺仪精寻北的条件要求,保证了全自动寻北的速度和精度,对于机械陀螺的快速及智能化寻北具有现实意义。The coarse north-seeking time of a mechanical gyro theodolite is an important factor to decide north-seeking efficiency. A quick coarse north-seeking method named curve fitting is brought into the intelligent gyro theodolite system in this paper. By the proposed method,the true north value can be obtained in 10 s after gyro operates through a counting cursor to calculate the movement velocity and acceleration, and it can also compensate the low precision caused by an electronic compass. The experiment using JT-15 gyro shows that the measurement precision is superior to 3′54″ when seeking coarse north, which meets the precise north-seeking condition of the JT-15 gyroscope. The application of the curve fitting method to the auto north-seeking system can ensure the velocity and precision of north-seeking automatically, and also has realistic significance to improve the efficiency and automation for mechanical gyro theodolites.

关 键 词:陀螺经纬仪 初寻北 智能寻北 曲线拟合 

分 类 号:V241.5[航空宇航科学与技术—飞行器设计]

 

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