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Control under constraints: an application of the command governor approach to an inverted pendulum
The purpose of this paper is to exhibit the relevance of command governor (CG) strategies in real control problems, where consideration has to be given to nonlinearities, model uncertainties, disturbances, input and state-related constraints and requirements of moderate computational complexity. The...
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Published in: | IEEE transactions on control systems technology 2004-01, Vol.12 (1), p.193-204 |
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container_title | IEEE transactions on control systems technology |
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creator | Casavola, A. Mosca, E. Papini, M. |
description | The purpose of this paper is to exhibit the relevance of command governor (CG) strategies in real control problems, where consideration has to be given to nonlinearities, model uncertainties, disturbances, input and state-related constraints and requirements of moderate computational complexity. The plant considered is a laboratory cart/rod inverted pendulum for which the control problem consists of regulating vertically its rod subject to motor voltage and rod angle constraints, while providing full-range optimized tracking performance for the cart position. The merits of the proposed CG technique in this application are investigated, and its advantages over classic linear time-invariant design methods are discussed. |
doi_str_mv | 10.1109/TCST.2003.821953 |
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subjects | Applied sciences Carts Character generation Commands Computational complexity Computer science control theory systems Constraint theory Control design Control nonlinearities Control systems Control theory. Systems Exact sciences and technology Governors Laboratories Motors Pendulums Predictive control Stability Strategy Tracking Uncertainty Voltage |
title | Control under constraints: an application of the command governor approach to an inverted pendulum |
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