Nanometer-Order Contouring Control in a Feed Drive System Using Linear Ball Guides by Applying a Combination of Modified Disturbance Observer and Repetitive Control
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[1] S. Futami,et al. Quadrant glitch compensation by a modified disturbance observer for linear motor stages , 2019, Precision Engineering.
[2] Ming Cheng,et al. Frequency-Adaptive Fractional-Order Repetitive Control of Shunt Active Power Filters , 2015, IEEE Transactions on Industrial Electronics.
[3] Pericle Zanchetta,et al. Resonant-repetitive combined control for stand-alone power supply units , 2014, 2014 IEEE Energy Conversion Congress and Exposition (ECCE).
[4] Hiroshi Fujimoto,et al. High-Precision Control of Ball-Screw-Driven Stage Based on Repetitive Control Using $n$-Times Learning Filter , 2014, IEEE Transactions on Industrial Electronics.
[5] Jonatan Roberto Fischer,et al. Repetitive Control With Adaptive Sampling Frequency for Wind Power Generation Systems , 2014, IEEE Journal of Emerging and Selected Topics in Power Electronics.
[6] C. Klumpner,et al. Repetitive and Resonant Control for a Single-Phase Grid-Connected Hybrid Cascaded Multilevel Converter , 2013, IEEE Transactions on Power Electronics.
[7] Christoph Ament,et al. Maxwell Slip based adaptive friction compensation in high precision applications , 2012, IECON 2012 - 38th Annual Conference on IEEE Industrial Electronics Society.
[8] Kok Kiong Tan,et al. Intelligent Friction Modeling and Compensation Using Neural Network Approximations , 2012, IEEE Transactions on Industrial Electronics.
[9] Ryuta Sato,et al. Generation Mechanism of Quadrant Glitches and Compensation for it in Feed Drive Systems of NC Machine Tools , 2012, Int. J. Autom. Technol..
[10] Maarten Steinbuch,et al. Directional Repetitive Control of a Metrological AFM , 2011, IEEE Transactions on Control Systems Technology.
[11] Syh Shiuh Yeh,et al. Development of static friction compensation for feed drive motions of machine tools , 2011 .
[12] Qing-Chang Zhong,et al. A Current-Control Strategy for Voltage-Source Inverters in Microgrids Based on $H^{\infty }$ and Repetitive Control , 2011, IEEE Transactions on Power Electronics.
[13] Jan Swevers,et al. Friction Compensation of an $XY$ Feed Table Using Friction-Model-Based Feedforward and an Inverse-Model-Based Disturbance Observer , 2009, IEEE Transactions on Industrial Electronics.
[14] Hiroshi Fujimoto,et al. RRO Compensation of Hard Disk Drives With Multirate Repetitive Perfect Tracking Control , 2009, IEEE Transactions on Industrial Electronics.
[15] Bin Zhang,et al. High-Performance Repetitive Control of PWM DC-AC Converters With Real-Time Phase-Lead FIR Filter , 2006, IEEE Transactions on Circuits and Systems II: Express Briefs.
[16] F. Al-Bender,et al. Comparison of model and non-model based friction compensation techniques in the neighbourhood of pre-sliding friction , 2004, Proceedings of the 2004 American Control Conference.
[17] Xuesong Mei,et al. Study on the compensation of error by stick-slip for high-precision table , 2004 .
[18] Atsushi Matsubara,et al. 320 A Stick Motion Compensation System with a Dynamic Model , 2004 .
[19] Ying-Yu Tzou,et al. High-performance programmable AC power source with low harmonic distortion using DSP-based repetitive control technique , 1997 .
[20] Carlos Canudas de Wit,et al. A new model for control of systems with friction , 1995, IEEE Trans. Autom. Control..
[21] George Anwar,et al. Low Velocity Friction Compensation and Feedforward Solution based on Repetitive Control , 1991, 1991 American Control Conference.
[22] S. Futami,et al. Nanometer positioning and its micro-dynamics , 1990 .
[23] P. Dahl. A Solid Friction Model , 1968 .
[24] A. Tustin,et al. The effects of backlash and of speed-dependent friction on the stability of closed-cycle control systems , 1947 .
[25] S. Futami,et al. Influence of linear ball guide preloads and retainers on the microscopic motions of a feed-drive system , 2018 .
[26] A. Soom,et al. Friction at a Lubricated Line Contact Operating at Oscillating Sliding Velocities , 1990 .