Title :
Nanopositioning With Impulsive State Multiplication: A Hybrid Control Approach
Author :
Tuma, Tomas ; Pantazi, Angeliki ; Lygeros, John ; Sebastian, Aradoaei
Author_Institution :
IBM Res., Zurich Lab., Rüschlikon, Switzerland
Abstract :
Nanopositioning is a key enabling technology for nanoscale science and engineering. Many nanopositioning systems employ feedback control to guarantee precise and repeatable positioning. However, achieving the desired performance with conventional feedback systems has remained a challenge. This paper analyzes a novel hybrid control architecture for high-speed nanopositioning, which is based on impulsive control. By impulsively changing the states of the feedback controller, performance objectives can be met that are beyond the limitations of linear feedback. We analyze the stability and performance of impulsive feedback control, and present experimental results in which impulsive control is used for precise motion control in a high-speed scanning-probe microscope.
Keywords :
feedback; motion control; nanopositioning; nonlinear control systems; precision engineering; scanning probe microscopy; stability; engineering; feedback controller; feedback systems; high-speed nanopositioning; high-speed scanning-probe microscope; hybrid control approach; hybrid control architecture; impulsive feedback control; impulsive state multiplication; linear feedback; nanopositioning systems; nanoscale science; precise motion control; stability; Adaptive control; Bandwidth; Feedback control; Nanopositioning; Noise; Stability criteria; Hybrid control; impulsive control; nanopositioning; nonlinear control; stability analysis;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2012.2205150
