用于旅游飞机的低成本航空数据姿态航向参考系统

IEEE Sensors, 2005. Pub Date : 2005-10-31 DOI:10.1109/ICSENS.2005.1597968

J. Castellanos, S. Lesecq, N. Marchand, J. Delamare

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引用次数: 39

摘要

将磁力计、速率陀螺仪和加速度计(MEMS)技术融合在一起，研制了一种廉价的旅游飞机ADAHRS装置。刚体姿态采用四元数建模，消除了姿态估计的奇异性。实时实现将Wahba问题的四元数公式与乘法扩展卡尔曼滤波器统一起来。它包括陀螺偏置模型。介绍了一种四元数测量模型。它避免了引起不良影响的线性化步骤。加速度计检测重力加速度和离心力，导致不正确的姿态估计(例如错误的地平线和主观垂直)。因此，增加了一些压力传感器，从而产生了一个强大的解决方案。实时实现采用PCMCIA数据采集卡和TabletPC。仿真和实际数据验证了ADAHRS的有效性

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A low-cost air data attitude heading reference system for the tourism airplane applications

A cheap tourism airplane ADAHRS unit is developed by fusing magnetometers, rate gyros and accelerometers (MEMS technology). The rigid body orientation is modeled with quaternion, which eliminates attitude estimation singularities. The real-time implementation is done unifying a quaternion formulation of Wahba's problem with a multiplicative extended Kalman filter. It includes the gyro bias model. A quaternion measurement model is introduced. It avoids the linearization step that induces undesirable effects. Accelerometers detect gravitational acceleration and centrifugal forces, resulting in incorrect attitude estimation (e.g. false horizon and subjective vertical). Therefore, some pressure sensors are added, resulting in a robust solution. The real-time implementation uses a PCMCIA data acquisition card and a TabletPC. Simulated and real data validate the ADAHRS

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IEEE Sensors, 2005.

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