Transactions of Materials and Heat Treatment

Title：Multiscale smoothing preprocessing method based on wavelet transform and S-G filtering

Authors： Yuan Chao Zhang Hao Ling Yunhan Sun Yue Huang Dali Zhang Nan Hu Fengjiao

Unit：（Beijing Research Institute of Mechanical & Electrical Technology Co. Ltd.CAM Beijing 100083 China）

KeyWords： die forging press data preprocessing wavelet transform S-G filtering multiscale smoothing noise immunization

ClassificationCode：TH165.3

year,vol(issue):pagenumber：2023,48(6):140-155

Abstract：

For the problem that the signal of the die forging press was affected by nonlinearity, instability, and strong background noise interference in harsh environments such as high pressure, high temperature, high speed, and high vibration during long-term operation, a multiscale smoothing preprocessing method based on wavelet transform and S-G filtering was proposed. Among them, the wavelet transform method decomposed the signal in multiscal to effectively capture the characteristics and dynamic changes of the signal, adjusted the wavelet basis function and S-G filter parameters to meet the characteristics of the multiscale signal and denoising requirements. The inverse discrete wavelet transform was used to reconstruct the signal to realize the integrity, continuity, and smoothness of the signal. The results show that this method can effectively eliminate noise at the multiscale level while retaining effective information, which is superior to traditional moving average method, S-G filtering, wavelet transform forced denoising processing method and threshold denoising method.

Funds：

国家重点研发计划（2022YFB3706904）；国家科技重大专项（2018ZX04000024）

袁超（1992-），男，博士研究生

Reference：

［1］袁超,孙勇,张浩,等.基于云边协同的大型锻压装备远程运维系统研究
［J］.锻压装备与制造技术,2022,57(4): 16-24.

Yuan C, Sun Y, Zhang H, et al. Based on the edge of cloud synergy of large forging equipment remote operations system study
［J］.China Metalforming Equipment & Manufacturing Technology, 2022,57(4): 16-24.

［2］Rinnan A, Berg V D, Engelsen S B. Review of the most common pre-processing techniques for near-infrared spectra
［J］. Trends in Analytical Chemistry, 2009, 28(10): 1201-1222.

［3］Harrou F, Nounou M N, Nounou H N, et al. PLS-based EWMA fault detection strategy for process monitoring
［J］. Journal of Loss Prevention in the Process Industries, 2015, 36: 108-119.

［4］Chen J, Jnsson P, Tamura M, et al. A simple method for reconstructing a high-quality NDVI time-series data set based on the Savitzky-Golay filter
［J］. Remote Sensing of Environment, 2004, 91(3-4): 332-344.

［5］杨寒雨,赵晓永,王磊.数据归一化方法综述
［J］.计算机工程与应用,2023,59(3):13-22.

Yang H Y, Zhao X Y, Wang L. Review of data normalization methods
［J］. Computer Engineering and Applications,2023,59(3): 13-22.

［6］于涛,刘国栋,李金耀,等.基于小波分析的压力机振动信号处理与分析
［J］.锻压技术,2022,47(2):152-157.

Yu T, Liu G D, Li J Y, et al. Vibration signal processing and analysis of press based on wavelet analysis
［J］. Forging & Stamping Technology,2022,47(2):152-157.

［7］王彦青.用小波变换识别数字光弹性图像的研究
［D］. 天津:天津大学,2004.

Wang Y Q. Research on Digital Photoelastic Image Recognition by Wavelet Transform
［D］. Tianjin：Tianjin University,2004.

［8］周徐宁.基于特征加权连续隐马尔可夫模型的故障诊断方法研究
［D］. 上海:上海交通大学,2012.

Zhou X N. Research on Fault Diagnosis Method Based on Feature-Weighted Continuous Hidden Markov Model
［D］. Shanghai：Shanghai Jiao Tong University,2012.

［9］宋永兴.基于主成分分析的水力旋转机械低频声特征提取方法研究
［D］. 杭州:浙江大学,2019.

Song Y X. Research on Low Frequency Acoustic Feature Extraction Method of Hydraulic Rotating Machinery Based on Principal Component Analysis
［D］. Hangzhou：Zhejiang University,2019.

［10］Shensa M J. The discrete wavelet transform: Wedding the a trous and Mallat algorithms
［J］. IEEE Transactions on Signal Processing, 1992, 40(10): 2464-2482.

［11］陈学军,杨永明.采用经验小波变换的风力发电机振动信号消噪
［J］.浙江大学学报:工学版,2018,52(5):988-995.

Chen X J, Yang Y M. Vibration signal denoising of wind turbine based on empirical wavelet transform
［J］. Journal of Zhejiang University：Engineering Science,2018,52(5):988-995.

［12］魏立新,冀晓凯,范锐,等.基于改进小波去噪和EEMD的轧辊偏心提取与补偿
［J］.塑性工程学报,2018,25(5):298-306.

Wei L X, Ji X K, Fan R, et al. Roll eccentricity extraction and compensation based on improved wavelet denoising and EEMD
［J］. Journal of Plasticity Engineering,2018,25(5):298-306.

（上接第139页）

Huang J L, Zang Y, Gao Z Y. Effect of friction coefficient asymmetry on mill vibration and stability during hot rolling
［J］. Journal of Engineering Science,2019,41(11):1465-1472.

［12］黄金磊.非对称因素下热轧过程振动特性及稳定域研究
［D］. 北京:北京科技大学,2021.

Huang J L,Study on Vibration Characteristics and Stability Domain of Hot Rolling Process Under Asymmetric Factors
［D］. Beijing:University of Science and Technology Beijing, 2021.

［13］郭旺鲲. 基于动态轧制过程的热连轧机简化模型垂直-水平振动研究
［D］. 马鞍山:安徽工业大学, 2019.

Guo W K. Study on Vertical-horizontal Vibration of a Simplified Model of a Hot Strip Mill Based on Dynamic Rolling Process
［D］. Ma′anshan:Anhui University of Technology,2019.

［14］Zhang G X, Bao J H, Li W H, et al. Coupled vibration characteristics analysis of hot rolling mill with structural gap
［J］.Shock and Vibration, 2021, (3):1-10.

［15］王鑫鑫. 基于热连轧机耦合振动的主动抑振控制研究
［D］. 北京:北京科技大学,2019.

Wang X X. Research on Active Vibration Suppression Control Based on Coupled Vibration of Hot Strip Mill
［D］. Beijing:University of Science and Technology Beijing,2019.

［16］鲍文博, 白泉, 陆海燕. 振动力学基础与MATLAB应用
［M］. 北京:清华大学出版社, 2015.

Bao W B, Bai Q, Lu H Y. Fundamentals of Vibration Mechanics with MATLAB Applications
［M］. Beijing: Tsinghua University Press, 2015.

［17］郝宇超. 冷轧机辊系动力学建模及水平振动特性研究
［D］.包头:内蒙古科技大学,2021.

Hao Y C. Modeling of Cold Rolling Mill Roll System Dynamics and Horizontal Vibration Characteristics
［D］.Baotou: Inner Mongolia University of Science and Technology,2021.

［18］张广旭,包家汉,孟祥帅,等.含侧隙的热轧机耦合振动特性
［J］.噪声与振动控制,2021,41(3):56-60,168.

Zhang G X, Bao J H, Meng X S, et al. Coupled vibration characteristics of hot rolling mill with side gap
［J］. Noise and Vibration Control,2021,41(3):56-60,168.

［19］侯东晓,徐良,时培明.混合润滑状态下板带轧机垂直振动特性研究
［J］.振动与冲击,2021,40(24):243-248,304.

Hou D X, Xu L, Shi P M. Study on vertical vibration characteristics of strip mill under mixed lubrication condition
［J］. Vibration and Shock,2021,40(24):243-248,304.

［20］刘延柱, 陈立群. 非线性振动
［M］. 北京:高等教育出版社, 2001.

Liu Y Z. Chen L Q. Nonlinear Vibration
［M］. Beijing:Higher Education Press, 2001.

Service：

【This site has not yet opened Download Service】【Add Favorite】