Neeranut Ratchatanantakit, Nonnarit O.-Larnnithipong, Pontakorn Sonchan, M. Adjouadi, A. Barreto
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引用次数: 0
摘要
计算机具有实时跟踪用户手部运动的能力是人们所期望的。使用磁角速率重力模块(marg)是实现这一目的的新兴方法之一。我们研究了MARG模块(YEI 3- space Sensor)与3红外相机(OptiTrack V120 Trio)跟踪系统的使用,用于手部跟踪。MARG陀螺仪显示“漂移误差”,它将随着时间的推移而继续增长。我们通过计算同一MARG模块中包含的加速度计和磁力计的方向估计来修正基于陀螺仪的方向四元数估计。我们评估这些方向矫正方法的适用性,并适当地实施它们。这充分利用了MARG模块持续最小化方向估计误差的能力。
Live Demonstration: Double SLERP Gravity-Magnetic Vector (GMV-D) orientation correction in a MARG sensor
It is desirable for computers to have the real-time ability of tracking user hand movement. The use of Magnetic-Angular Rate-Gravity modules (MARGs) is one of the emerging approaches for this purpose. We studied the use of a MARG module (YEI 3-Space Sensor) in conjunction with a 3 IR-camera (OptiTrack V120 Trio) tracking system for hand tracking. The MARG gyroscopes display "drift error" which will continue to grow through time. We correct the gyroscope-based orientation quaternion estimate by calculating orientation estimates derived from the accelerometer and magnetometer included in the same MARG module. We assess the suitability of application of either of these orientation correction approaches and implement them as appropriate. This makes full use of the capabilities of the MARG module to persistently minimize orientation estimate errors.
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