Reference
Y. Li and B. De Schutter, "Offtake feedforward compensator design for an
irrigation channel with distributed control,"
Proceedings of
the 2010 American Control Conference, Baltimore, Maryland, pp.
3747-3752, June-July 2010.
Abstract
In the control of irrigation channels, there exists a tradeoff between the
local performance of regulating the water-level in each pool to a given
setpoint and rejecting offtake disturbances, on the one hand, and decoupling
between pools, on the other. Such a tradeoff is well managed by a distributed
control that inherits the interconnection structure of the plant. Furthermore,
to decrease the water-level deviation from its setpoint in response to large
offtakes, i.e. to improve the transient response of the local closed-loop
system, the knowledge of the offtakes can be fed forward. This paper explores
the designing of a feedforward compensator to improve local control performance
while maintaining the good management of closed-loop coupling between pools by
distributed control.
Publisher page
Downloads
BibTeX
@inproceedings{LiDeS:10-017,
author = {Li, Yuping and De Schutter, Bart},
title = {Offtake Feedforward Compensator Design for an Irrigation
Channel with Distributed Control},
booktitle = {Proceedings of the 2010 American Control Conference},
address = {Baltimore, Maryland},
pages = {3747--3752},
month = jun # {--} # jul,
year = {2010}
}