DocumentCode
3717924
Title
Scenario based robust control design for uninterruptible power supplies
Author
Aisha Qamar;Asad Ullah Awan;Kunwar Fraz Ahmed Khan;Muwahida Liaquat
Author_Institution
Department of Electrical Engineering. College of E&
fYear
2015
Firstpage
1024
Lastpage
1029
Abstract
The paper presents the designing of a robust control scheme for uninterruptible power supplies (UPS) by implementing scenario based approach which is a probabilistic solution framework to synthesize and analyze the problems that can be expressed in the form of minimization of a linear objective subject to convex constraints parameterized by uncertainty terms. The scenario based problem being a standard convex optimization problem possesses the solution which is approximately feasible for the infinite set of constraints and is obtained by appropriate sampling of uncertain constraints. The load variation of UPS affects the output voltage and hence is considered as a linear uncertain parameter with a known range in the dynamic model of UPS. An LPV H-infinity optimization problem is formulated in the presence of load variations maintaining the output voltage to the desired value. To design the control problem guaranteeing an a-priori particular probabilistic robustness we use the scenario based approach by randomly selecting the finite number of uncertain scenarios for the load variations instead of using conventional ploytopic approach which covers and comments on the entire uncertainty set for UPS and the solution of scenario problem is computed efficiently by solving the optimization problem using linear matrix inequalities (LMIs). Numerical simulations and comparisons with LPV H-infinity and with linear PID control design shows the proposed scheme makes the system more robust towards uncertainties as well as exogenous disturbances to make it stable and improving its THD and transient performance.
Keywords
"Yttrium","Uncertain systems","Standards","Software packages","Harmonic distortion","Harmonic analysis"
Publisher
ieee
Conference_Titel
Control, Automation and Systems (ICCAS), 2015 15th International Conference on
ISSN
2093-7121
Type
conf
DOI
10.1109/ICCAS.2015.7364796
Filename
7364796
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