Title :
Tool Wear Monitoring and Failure Prediction Based on Hybrid SOM-DHMM Architecture
Author :
Kang, Jing ; Kang, Ni ; Feng, Chang-jian ; Hu, Hong-ying
Author_Institution :
Dalian Nationalities Univ., Dalian
Abstract :
A method of pattern recognition of tool wear based on discrete hidden Markov models (DHMM) is proposed to monitor tool wear and to predict tool failure. At the first FFT features are extracted from the vibration signal and cutting force in cutting process, then FFT vectors are presorted and coded into code book of integer numbers by SOM, and these code books are introduced to DHMM for machine learning to build up 3-HMMs for different tool wear stage. And then, pattern of HMM is recognised by using maximum probability. Finally the results of tool wear recognition and failure prediction experiments are presented and show that the method proposed is effective.
Keywords :
condition monitoring; cutting; cutting tools; failure analysis; fast Fourier transforms; hidden Markov models; machine tools; mechanical engineering computing; self-organising feature maps; vibrations; wear; FFT; cutting force; cutting process; discrete hidden Markov models; hybrid SOM-DHMM architecture; integer numbers; machine learning; maximum probability; tool failure prediction; tool wear monitoring; vibration signal; Books; Condition monitoring; Feature extraction; Hidden Markov models; Iterative algorithms; Libraries; Pattern recognition; Probability; Signal processing; Vibrations;
Conference_Titel :
Computational Intelligence and Security Workshops, 2007. CISW 2007. International Conference on
Conference_Location :
Harbin
Print_ISBN :
978-0-7695-3073-4
DOI :
10.1109/CISW.2007.4425637
