Double Tank
Double Tank | |
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State dimension: | 1 |
Differential states: | 2 |
Discrete control functions: | 1 |
Interior point equalities: | 2 |
The double tank problem is a basic example for a switching system. It contains the dynamics of an upper and a lower tank, connected to each other with a pipe. The goal is to minimize the deviation of a certain fluid level in the lower tank. The problem was introduced and discussed in a variety of publications for the optimal control of constrained switched systems, e.g. [Henrion2014]The entry doesn't exist yet. (Link: Henrion et al.) and [Vasudevan2013]The entry doesn't exist yet. (Link: Vasudevan et al.).
Contents
Mathematical formulation
The two states of the system correspond to the fluid levels of an upper and a lower tank. The output of the upper tank flows into the lower tank, the output of the lower tank exits the system, and the flow into the upper tank is restricted to either [lt/s] or [lt/s]. The dynamics in each mode are then derived using Torricelli’s law, as shown in constraints 1 and 2. The objective of the optimization is to have the fluid level in the lower tank equal to [m], as reflected in the cost function.
Parameters
In an exemplary test, the parameters were chosen to be:
Symbol | Value |
Reference Solution
The problem is solved in Python with GEKKO or Matlab (version 2014b) with Switch. The switch codes rely on GloptiPoly 3 and the solver SeDuMi 1.3 (optimization over symmetric cones). By introducing the lifts , algebraically constrained as the problem is recast with polynomial data. In this way way switch in connection with GloptiPoly3 can be applied. GloptiPoly 3 is a Matlab package developed by Didier Henrion for generalized problems of moments and needs polynomial input data. The exact code used to solve the problem can be found under Double Tank (switch). The calculated objective is 4.7296 with the following trajectories of states and controls:
Variants
There are several alternative formulations and variants of the above problem, in particular
- different control functions for the two tanks, see Double Tank multimode problem
- a three tank problem with 3 modes, see Three Tank multimode problem
Source Code
Model descriptions are available in
References
[Henrion2014] | The entry doesn't exist yet. | |
[Vasudevan2013] | The entry doesn't exist yet. |
CLAEYS, Mathieu; DAAFOUZ Jamal; HENRION Didier Modal occupation measures and LMI relaxations for nonlinear switched systems control. arXiv preprint arXiv:1404.4699 (2014)
VASUDEVAN, Ramanarayan, et al. Consistent Approximations for the Optimal Control of Constrained Switched Systems---Part 2: An Implementable Algorithm. SIAM Journal on Control and Optimization, 2013, 51. Jg., Nr. 6, S. 4484-4503.