An improved noise reduction algorithm based on wavelet transformation for MEMS gyroscope
Jianguo YUAN, Yantao YUAN, Feilong LIU, Yu PANG, Jinzhao LIN. An improved noise reduction algorithm based on wavelet transformation for MEMS gyroscope[J]. Frontiers of Optoelectronics, 2015, 8(4): 413.
Jianguo YUAN, Yantao YUAN, Feilong LIU, Yu PANG, Jinzhao LIN. An improved noise reduction algorithm based on wavelet transformation for MEMS gyroscope[J]. Frontiers of Optoelectronics, 2015, 8(4): 413.
[1] Peshekhonov V G. Gyroscopic navigation systems: current status and prospects. Gyroscopy and Navigation, 2011, 2(3): 111–118
[2] Acar C, Schofield A R, Trusov A A. Environmentally robust MEMS vibratory gyroscopes for automotive. IEEE Sensors Journal, 2009, 9 (12): 1895–1906
[3] Zeng B, Teng Z S, Cai Y L, Guo S Y, Qing B Y. Harmonic phasor analysis based on improved FFT algorithm. IEEE Transactions on, 2011, 2(1): 51–59
[4] Liu Q J, Chen G M, Liu X F, Zhan J. Application of FFT and wavelet in signal denoising. Journal of Data Acquisition & Processing, 2009, 24 (S1): 58–60
[5] Mao B, Wu J W, Wu J T, Zhou X M. MEMS gyro denoising based on second generation wavelet transform. In: Proceedings of IEEE on Pervasive Computing Signal Processing and Applications (PCSPA). 2010, 255–258
[6] Wang D K, Peng J Y.Wavelet Analysis and Its Application in Signal Processing. Beijing: Electronic Industry Press, 2006
[7] HaoWG, Ding C F, Na L. Comparison of wavelet denoise and FFT denoise. Electric Power Scienceand Engineering, 2011, 27(3): 59– 61
[8] Song L J, Qin Y Y, Yang P X. Application of walelet threshold denosing on MEMS gyro. Journal of Test and Measurement Technology, 2009, 23(1): 33–36
[9] Vaseghi S V. Advanced Digital Signal Processing and Noise Reduction. New York: John Wiley & Sons, 2008
[10] Kang C H, Kim S Y, Park C G. Improvement of a low cost MEMS inertial-GPS integrated system using wavelet denoising techniques. International Journal of Aeronautical and Space Sciences, 2011, 12 (4): 371–378
[11] Han M, Liu Y, Xi J, Guo W. Noise smoothing for nonlinear time series using wavelet soft threshold. Signal Processing Letters, IEEE, 2007, 14(1): 62–65
[12] Ji X S,Wang S, Xu Y. Application of the digital signal procession in the MEMS gyroscope de-drift. In: Proceedings of IEEE International Conference on Nano/Micro Engineered and Molecular Systems. 2006, 218–221
[13] Zhang W L, Guo S Y, Yin J, Yu F. Wavelet threshold de-noising for MEMS gyro. Journal of Applied Optics, 2009, 30(6): 1012–1015 (in Chinese)
[14] Mao B, Wu J W, Wu J T, Zhou X M. MEMS gyro de-noising based on coefficients dependency in wavelet transform domain. In: Proceedings of IEEE International Conference on Mechatronics and Automation (ICMA). 2010, 1904–1907
[15] Huang L, Kemao Q, Pan B, Asundi A K. Comparison of Fourier transform, windowed Fourier transform, and wavelet transform methods for phase extraction from a single fringe pattern in fringe projection profilometry. Optics and Lasers in Engineering, 2010, 48 (2): 141–148
Jianguo YUAN, Yantao YUAN, Feilong LIU, Yu PANG, Jinzhao LIN. An improved noise reduction algorithm based on wavelet transformation for MEMS gyroscope[J]. Frontiers of Optoelectronics, 2015, 8(4): 413. Jianguo YUAN, Yantao YUAN, Feilong LIU, Yu PANG, Jinzhao LIN. An improved noise reduction algorithm based on wavelet transformation for MEMS gyroscope[J]. Frontiers of Optoelectronics, 2015, 8(4): 413.
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