Pre-compensation of contour errors for five-axis machine tools through constructing a model reference adaptive control

[1]  Enming Miao,et al.  Five-Axis Contour Error Control Based on Spatial Iterative Learning , 2023, IEEE Transactions on Automation Science and Engineering.

[2]  Weiqing Zhang,et al.  Study on excitation and time-varying mesh characteristics of straight bevel gears considering modification and friction , 2022, Mechanism and Machine Theory.

[3]  Jian S. Dai,et al.  A repelling-screw-based approach for the construction of generalized Jacobian matrices for nonredundant parallel manipulators , 2022, Mechanism and Machine Theory.

[4]  Xiaopeng Li,et al.  Dynamic modeling and control for dual-flexible servo system considering two-dimensional deformation based on neural network compensation , 2022, Mechanism and Machine Theory.

[5]  Weihong Zhang,et al.  Adaptive feed-forward friction compensation through developing an asymmetrical dynamic friction model , 2022, Mechanism and Machine Theory.

[6]  D. Qin,et al.  Adaptive model predictive control of dual clutch transmission shift based on dynamic friction coefficient estimation , 2022, Mechanism and Machine Theory.

[7]  Dirk Abel,et al.  Review on model predictive control: an engineering perspective , 2021, The International Journal of Advanced Manufacturing Technology.

[8]  Weihong Zhang,et al.  A new decoupled tangential contouring control scheme for multi-dimensional motion , 2020 .

[9]  De-Ning Song,et al.  Definition and estimation of joint-space contour error based on generalized curve for five-axis contour following control , 2020 .

[10]  Jinting Xu,et al.  A New Analytical Path-Reshaping Model and Solution Algorithm for Contour Error Pre-Compensation in Multi-Axis Computer Numerical Control Machining , 2020 .

[11]  Wanhua Zhao,et al.  A Model Predictive Contouring Error Precompensation Method , 2020, IEEE Transactions on Industrial Electronics.

[12]  Jixiang Yang,et al.  On-line contour error estimation and control for corner smoothed five-axis tool paths , 2020 .

[13]  Han Ding,et al.  Weighted sum of vector norms based contouring control method for five-axis CNC machine tools , 2019, Precision Engineering.

[14]  Masanobu Hasegawa,et al.  Improvement of Simultaneous 5-Axis Controlled Machining Accuracy by CL-Data Modification , 2019, Int. J. Autom. Technol..

[15]  Masanobu Hasegawa,et al.  Motion Accuracy Enhancement of Five-Axis Machine Tools by Modified CL-Data , 2018, Int. J. Autom. Technol..

[16]  Ming Yang,et al.  A high accuracy on-line estimation algorithm of five-axis contouring errors based on three-point arc approximation , 2018, International Journal of Machine Tools and Manufacture.

[17]  Han Ho Choi,et al.  A Model Reference Adaptive Control Based Speed Controller for a Surface-Mounted Permanent Magnet Synchronous Motor Drive , 2018, IEEE Transactions on Industrial Electronics.

[18]  Changliang Xia,et al.  Generalized Predictive Contour Control of the Biaxial Motion System , 2018, IEEE Transactions on Industrial Electronics.

[19]  Wei Liu,et al.  A review of contouring-error reduction method in multi-axis CNC machining , 2018 .

[20]  Chuxiong Hu,et al.  Advanced GTCF-LARC Contouring Motion Controller Design for an Industrial X–Y Linear Motor Stage With Experimental Investigation , 2017, IEEE Transactions on Industrial Electronics.

[21]  Han Ding,et al.  Contouring error control of the tool center point function for five-axis machine tools based on model predictive control , 2017 .

[22]  Han Ding,et al.  Dual sliding mode contouring control with high accuracy contour error estimation for five-axis CNC machine tools , 2016 .

[23]  Chinedum E. Okwudire,et al.  Pre-compensation of servo contour errors using a model predictive control framework , 2015 .

[24]  Yuanhao Chen,et al.  A two-layered cross coupling control scheme for a three-dimensional motion control system , 2015 .

[25]  Young Hun Jeong,et al.  Friction compensation controller for load varying machine tool feed drive , 2015 .

[26]  Chao Liu,et al.  Precise contour following for biaxial systems via an A-type iterative learning cross-coupled control algorithm , 2015 .

[27]  Zexiang Li,et al.  Task Polar Coordinate Frame-Based Contouring Control of Biaxial Systems , 2014, IEEE Transactions on Industrial Electronics.

[28]  Ke Zhang,et al.  Pre-compensation of contour errors in five-axis CNC machine tools , 2013 .

[29]  Lie Tang,et al.  Multiaxis Contour Control—the State of the Art , 2013, IEEE Transactions on Control Systems Technology.

[30]  Bin Yao,et al.  Global Task Coordinate Frame-Based Contouring Control of Linear-Motor-Driven Biaxial Systems With Accurate Parameter Estimations , 2011, IEEE Transactions on Industrial Electronics.

[31]  Yusuf Altintas,et al.  Modeling and Control of Contouring Errors for Five-Axis Machine Tools—Part II: Precision Contour Controller Design , 2009 .

[32]  Elizabeth A. Croft,et al.  Modeling and Control of Contouring Errors for Five-Axis Machine Tools—Part I: Modeling , 2009 .

[33]  Yusuf Altintas,et al.  Virtual CNC system. Part I. System architecture , 2006 .

[34]  Mu-Tian Yan,et al.  Theory and application of a combined self-tuning adaptive control and cross-coupling control in a retrofit milling machine , 2005 .

[35]  Jih-Hua Chin,et al.  Improving contour accuracy by Fuzzy-logic enhanced cross-coupled precompensation method , 2004 .

[36]  Shyh-Leh Chen,et al.  Contouring control of biaxial systems based on polar coordinates , 2002 .

[37]  Jia-Yush Yen,et al.  Frequency-domain identification algorithms for servo systems with friction , 2002, IEEE Trans. Control. Syst. Technol..

[38]  Yusuf Altintas,et al.  High speed CNC system design. Part III: high speed tracking and contouring control of feed drives , 2001 .

[39]  Yusuf Altintas,et al.  High Speed CNC System Design. Part II : Modeling and Identification of Feed Drives , 2001 .

[40]  Carlos Canudas de Wit,et al.  A new model for control of systems with friction , 1995, IEEE Trans. Autom. Control..

[41]  Masayoshi Tomizuka,et al.  Zero Phase Error Tracking Algorithm for Digital Control , 1987 .

[42]  Yoram Koren,et al.  Cross-Coupled Biaxial Computer Control for Manufacturing Systems , 1980 .

[43]  Qun-Bao Xiao,et al.  Combined Predictive and Feedback Contour Error Control With Dynamic Contour Error Estimation for Industrial Five-Axis Machine Tools , 2022, IEEE Transactions on Industrial Electronics.

[44]  Yu Zhu,et al.  Trajectory modification method based on frequency domain analysis for precision contouring motion control systems , 2021 .

[45]  Kaan Erkorkmaz,et al.  Feed drive control tuning considering machine dynamics and chatter stability , 2020 .

[46]  Jungwon Yoon,et al.  A novel method for optimal path synthesis of mechanisms based on tracking control of shadow robot , 2019, Mechanism and Machine Theory.

[47]  Xiao-Shan Gao,et al.  Linear programming and windowing based feedrate optimization for spline toolpaths , 2017 .

[48]  Burak Sencer,et al.  Optimal control of flexible drives with load side feedback , 2017 .

[49]  Jixiang Yang,et al.  A generalized on-line estimation and control of five-axis contouring errors of CNC machine tools , 2015 .

[50]  Masayoshi Tomizuka,et al.  Contouring control of machine tool feed drive systems: a task coordinate frame approach , 2001, IEEE Trans. Control. Syst. Technol..

[51]  Yusuf Altintas,et al.  Sliding Mode Controller Design for High Speed Feed Drives , 2000 .