Stability and performance analysis of an irrigation channel with distributed control


Reference:

Y. Li and B. De Schutter, "Stability and performance analysis of an irrigation channel with distributed control," Control Engineering Practice, vol. 19, no. 10, pp. 1147-1156, Oct. 2011.

Abstract:

For a string of pools with distant-downstream control, the internal time-delay for water transport from upstream to downstream does not only limit the local control performance of regulating water-levels at setpoints and rejecting offtake disturbances in each pool, but also impacts the global performance of managing the water-level error propagation and attenuating the amplification of control actions in the upstream direction. A distributed control scheme that inherits the interconnection structure of the plant is investigated. It is shown that the decoupling terms in the controller help to improve global closed-loop performance by decreasing the low-frequency gain of the closed-loop coupling. Moreover, the decoupling terms compensate for the influence of the time-delay by imposing extra phase lead-lag compensation in the mid-frequency range on the closed-loop coupling function.

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Bibtex entry:

@article{LiDeS:11-027,
author={Y. Li and B. {D}e Schutter},
title={Stability and performance analysis of an irrigation channel with distributed control},
journal={Control Engineering Practice},
volume={19},
number={10},
pages={1147--1156},
month=oct,
year={2011},
doi={10.1016/j.conengprac.2011.05.014}
}



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