Title :
Comprehensive Errors Prediction and Compensation System for CNC Turning Based on the Neural Network and Visual Basic
Author :
Kaiguo Fan ; Haolin Li ; Jianguo Yang
Author_Institution :
Sch. of Mech. Eng., Univ. of Shanghai for Sci. & Technol., Shanghai, China
Abstract :
In order to improve the machining accuracy for CNC turning, an error prediction and compensation system (EPCS) is developed based on the neural network (NN) and the visual basic (VB). The comprehensive errors of the machined shafts are simulated using the NN. The weights and bias of the trained NN are extracted to develop the EPCS through the VB. A correction coefficient and an equivalent diameter formula are proposed to achieve the error compensation under various working conditions. Using the EPCS, the maximum error of the machined shafts is reduced from 12.6 μm to 1.2 μm. The comprehensive errors are compensated by 90.5% compared with no compensation.
Keywords :
Visual BASIC; computerised numerical control; error compensation; machinery production industries; neural nets; production engineering computing; shafts; turning (machining); CNC turning; EPCS; NN; VB; Visual BASIC; comprehensive errors; correction coefficient; equivalent diameter formula; error prediction and compensation system; machined shafts; neural network; Artificial neural networks; Computer numerical control; Employee welfare; Error compensation; Shafts; Training; Turning; CNC turning; comprehensive errors; error compensation; neural network; visual basic;
Conference_Titel :
Enterprise Systems Conference (ES), 2014
Conference_Location :
Shanghai
Print_ISBN :
978-1-4799-5553-4
