Reference:
B. Dekens,
A.D. Sadowska,
P.J. van Overloop,
D. Schwanenberg, and
B. De Schutter,
"Gradient-based hybrid model predictive control using time instant
optimization for Dutch regional water systems," Proceedings of the
2014 European Control Conference, Strasbourg, France, pp.
1343-1348, June 2014.
Abstract:
We present a novel hybrid nonlinear Model Predictive Control (MPC)
algorithm for real-time control of hydraulic structures in water
systems. These systems can be regarded as hybrid systems because they
involve both continuous and discrete elements. The algorithm uses Time
Instant Optimization for the control of discrete variables. The
presented method introduces a procedure to obtain continuous time
instants, allowing the derivation of a gradient of the objective
function. Reverse-mode algorithmic differentiation is applied to
obtain the analytical gradient of the objective function. The gradient
allows the use of efficient gradient-based optimizers, making the
approach suitable for real-time control applications. Furthermore,
hybrid schemes including the optimization of time instants and
standard MPC can be easily integrated. We illustrate an application of
the algorithm to the control of five hydraulic structures in the
Fivelingo water system, a water system consisting of discrete and
continuous variables that is located in the North-East of Netherlands.