Abstract:Fractional spline theory is proposed as a new profile filter for mean line extraction. First, the fractional spline filter is derived by combining fractional spline function with variational principle. The amplitude transmission characteristics of this filter show its adjustability of cut-off characteristics, which can approach ideal low pass filter when the order of spline increases enough, and approximate to Gaussian filter when order is defined 1.51. A fast FFT algorithm is given to perform fractional spline filter. Provided with the limited number of multiplication operation during frequency domain, the computation is testified efficient. Finally, the reasons of end distortion during this algorithm are discussed, and this distortion called end effect is remedied. Experimental results indicate this filter algorithm preserves not only adjustable cut-off characteristics, but also fast computation speed. Based on this filter, once extraction for mean line of 11200 data points only costs 4 ms on general computer. In addition, the end effect existing in spline filter is alleviated by this algorithm availably.
[1]ASME B46.1. Surface texture(surface roughness waviness and lay)[S]. 1995.
[2]许景波, 袁怡宝, 朴伟英,等. 减小表面粗糙度测量高斯滤波幅度偏差[J]. 机械工程学报, 2006, 42(4): 42-46.
[3]许景波, 袁怡宝, 朴伟英, 等. 表面粗糙度测量中的高斯滤波快速算法[J]. 计量学报, 2005, 26(4): 309-312.
[4]Numada M, Nomura T, Kazuhide K, et al. Filter with variable transmission characteristics for determination of three-dimensional roughness[J]. Prec Eng, 2006, 30(4): 431-442.
[5]Krystek M. Discrete L-spline filtering in roundness measurements [J]. Measurement, 1996, 18(2): 129-138.
[6]Krystek M. Form filtering by splines[J]. Measurement, 1996, 18(1): 9-15.
[7]Goto T, Miyakura J, Umeda K, et al. A robust spline filter on the basis of L2-norm[J]. Prec Eng, 2005, 29(2): 151-161.
[8]张浩, 袁怡宝, 张峰, 等. 广义B样条滤波器在表面形貌测量中的应用[J]. 光学精密工程, 2008, 16(9): 1722-1726.
[9]Unser M, Blu T. Fractional spline and wavelets[J]. SIAM, 2000, 42(1): 43-47.
[10]Unser M, Blu T. Self-similarity: part I-splines and operators[J]. IEEE Trans Signal Process, 2007: 4(55): 1352-1363.
[11]Panda R, Rath G, Chatterji B N. Generalized B-spline signal processing[J]. Signal Processing, 1996, 55: 1-14.
[12]Unser M, Blu T. Generalized smoothing splines and the optimal discretization of the Wiener filter[J]. IEEE Trans Signal Process, 2005, 53(6): 2146-2159.
[13]Schoenberg I J. Spline functions and the problem of graduation[J]. Proc Nat Acad Sci, 1964, 52: 947-950.
[14]ISO11562:1996. Geometrical product specifications (GPS)-surface texture: profile method-metrological characteristics of phase correct filters[S].1996.