金刚石车削切削振动的小波时间序列ARMA预测

2009 International Asia Conference on Informatics in Control, Automation and Robotics Pub Date : 2009-02-01 DOI:10.1109/CAR.2009.51

Liwei Li, Q. Ran, S. Dong

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引用次数: 1

摘要

控制切削振动是金刚石车削加工过程中获得超光滑表面的关键步骤。将小波变换方法与自回归移动平均(ARMA)模型相结合，对金刚石车削过程中的切削振动信号进行预测和拟合。首先，利用小波变换对切削振动序列进行多层次分解，得到其尺度分解序列和小波分解序列;此外，通过在每一层截取正弦波段来预测尺度分解序列。并利用ARMA模型对各层次的小波分解序列进行了预测。最后，对预测的尺度分解序列和小波分解序列进行重构，拟合到预测的振动序列中。此外，从扫描的金刚石车削面AFM数字图像中提取了切削振动序列，其中的谷信号表示每个切削刃轮廓沿切削方向的连续振动信息。

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Wavelet Time Series ARMA Prediction on Cutting Vibration in Diamond Turning

It is a critical step to control the cutting vibration during diamond turning in order to obtain super smooth surface. Both the wavelet transformation method and the autoregressive moving average (ARMA) model are combined utilized to predict and fit the cutting vibration signals in diamon turning. Firstly, by means of the wavelet transform, the cutting vibration series have been decomposed at multi-levels so as to get their scale decomposition series and wavelet decomposition series. Further, the scale decomposition series have been forecasted by intercepting segments from sine wave at each level. And the wavelet decomposition series have been predicted based on the ARMA model at each level. Finally, the forcasted scale decomposition series and wavelet decomposi-tion series have been reconstructed and fitted into the predicting vibration series. In addtition, the cutting vibration series have been extracted from the scanned AFM digital images of diamond turning surface, where the valley signals exhibit the serial vibrating information of each cutting edge profile along cutting direction.

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2009 International Asia Conference on Informatics in Control, Automation and Robotics

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