Precision Enhancement and Performance Evaluation of a CORDIC-Based Tilting Angle Identification Algorithm for Three-Axis Accelerometers

2013 International Symposium on Biometrics and Security Technologies Pub Date : 2013-07-02 DOI:10.1109/ISBAST.2013.33

Wei-Ting Liao, Wen-Yen Lin, W. Cheng, K. Lei, Ming-Yih Lee

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引用次数: 5

Abstract

In this paper, we analyze the precision of the tilting angles transferred from a 3-axis accelerometer with the previously proposed CORDIC-based tilting angle identification algorithm. We found out two issues of the original 2D-CORDIC operations which would increase the errors of the calculated angles. Hence, we propose the solutions to further enhance the precision of tilting angles calculated in the algorithm. We also evaluate the performance of our algorithm on 5 different platforms with different processor cores ranging from low-end micro-controllers to high-end desktop CPU. The results indicate that the algorithm is extremely suitable for implementation on low cost and low power micro-controllers to perform the real-time and in-line tilting angle computations for its low computation complexity and low memory requirements. As the results, precise tilting angles can be obtained in real-time with a low cost embedded system to be applied in various applications including medical care systems.

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基于cordic的三轴加速度计倾斜角度识别算法精度提高及性能评价

本文利用先前提出的基于cordic的倾斜角度识别算法，分析了从三轴加速度计传递的倾斜角度的精度。我们发现了原来的2D-CORDIC操作会增加角度计算误差的两个问题。因此，我们提出了进一步提高算法计算倾斜角精度的解决方案。我们还评估了算法在5个不同平台上的性能，这些平台具有从低端微控制器到高端桌面CPU的不同处理器内核。结果表明，该算法计算复杂度低，对存储器的要求低，非常适合在低成本、低功耗的微控制器上实现实时、在线的倾角计算。因此，低成本的嵌入式系统可以实时获得精确的倾斜角度，可应用于包括医疗系统在内的各种应用。

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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2013 International Symposium on Biometrics and Security Technologies

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