Open AccessGain scheduling LQI controller design for LPV descriptor systems and motion control of two-link flexible joint robot manipulator
Author(s) -
Yusuf Altun
Publication year - 2018
Publication title -
an international journal of optimization and control theories and applications (ijocta)
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.287
H-Index - 6
eISSN - 2146-5703
pISSN - 2146-0957
DOI - 10.11121/ijocta.01.2018.00564
Subject(s) - control theory (sociology) , gain scheduling , linear quadratic regulator , inverted pendulum , control engineering , servomechanism , servo , servo control , computer science , control system , engineering , optimal control , mathematics , control (management) , nonlinear system , mathematical optimization , physics , quantum mechanics , artificial intelligence , electrical engineering
This paper proposes a gain scheduling linear quadratic integral (LQI) servo controller design, which is derived from linear quadratic regulator (LQR) optimal control, for non-singular linear parameter varying (LPV) descriptor systems. It is assumed that state space matrices are non-singular since many mechanical systems do not have any non-singular matrices such as the natural state space forms of robotic manipulator, pendulum and suspension systems. A controller design is difficult for the systems due to rational LPV case. Therefore, the proposed gain scheduling controller is designed without the difficulty. Accordingly, the motion control design is implemented for two-link flexible joint robotic manipulator. Finally, the control system simulation is performed to prove the applicability and performance.
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