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2010 (Vol. 2, Issue: 8)
Article Information:

The Realization of a Discrete-Time Deterministic Regulator for Energy Renewable Multivariable Systems

M.S. Okundamiya and E.C. Obinabo
Corresponding Author:  OBINABO, EDWIN CHUKWUDI  

Key words:  Decouplable linear systems, energy renewal multivariable system, optimal discrete regulators, switchgears and substation operations, , ,
Vol. 2 , (8): 784-788
Submitted Accepted Published
2010 September, 10 2010 October, 27 2010 December, 10

This study proposes an optimal control law for a linear constant energy renewal multivariable system supplying power to protection and signaling circuits for switchgears and substation operations. The energy storage mechanism creates a control source that dictates the frequency of the pow er supply voltage. The entire analysis was based essentially on the use of a vector of inputs and outputs, and a matrix of operations characterizing the storage mechanism, assuming the system is both controllable and observable under arbitrary state feedback. The property of the output regulator which was desirable from the view point of feedback control design was clarified.
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  Cite this Reference:
M.S. Okundamiya and E.C. Obinabo, 2010. The Realization of a Discrete-Time Deterministic Regulator for Energy Renewable Multivariable Systems.  Research Journal of Applied Sciences, Engineering and Technology, 2(8): 784-788.
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ISSN (Online):  2040-7467
ISSN (Print):   2040-7459
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