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Now showing items 11-20 of 88
Linear matrix inequality characterisation for H(infinity) and H(2) guaranteed cost gain-scheduling quadratic stabilisation of linear time-varying polytopic systems
(Inst Engineering Technology-ietHertfordInglaterra, 2007)
Robust stability, H2 analysis and stabilisation of discrete-time Markov jump linear systems with uncertain probability matrix
(Taylor & Francis LtdAbingdonInglaterra, 2009)
LMI approach for H(infinity) linear parameter-varying state feedback control
(Inst Engineering Technology-ietHertfordInglaterra, 2005)
H∞ And H2 Nonquadratic Stabilisation Of Discrete-time Takagi-sugeno Systems Based On Multi-instant Fuzzy Lyapunov Functions
(Taylor and Francis Ltd., 2015)
PD controller synthesis from open-loop response measurements of rotating system
(INST ENGINEERING TECHNOLOGY-IETHERTFORD, 2012)
In this work, a method of computing PD stabilising gains for rotating systems is presented based on the D-decomposition technique, which requires the sole knowledge of frequency response functions. By applying this method ...
Phase-locked loop-less current controller for grid-connected photovoltaic systems
(Institution of Engineering and Technology, 2012-11)
A current controller suitable for three-phase photovoltaic systems is presented. The proposed controller ensures the injection of sinusoidal and balanced currents, with high immunity to both imbalances and harmonics present ...
Estabilização de sistemas fuzzy T-S incertos usando realimenta̧ão derivativa
(2011-05-01)
In some practical problems, for instance, in the suppression of vibration in mechanical systems, the state-derivative signals are easier to obtain than the state signals. Thus, a method for state-derivative feedback design ...
Parameter-dependent Lyapunov functions for state-derivative feedback control in polytopic linear systems
(Taylor & Francis Ltd, 2011-01-01)
In some practical problems, for instance, the suppression of vibration in mechanical systems, the state-derivative signals are easier to obtain than the state signals. Using Linear Matrix Inequalities (LMIs), and applying ...