Ducted Fan

The Ducted Fan problem is a classical nonlinear benchmark in optimal control with multiple input and state constraints. This description is taken from [1].

It models the planar motion of a ducted fan aircraft, described by its horizontal and vertical positions ${\displaystyle (x_1,x_2)}$ , the angle ${\displaystyle \alpha }$ with respect to the vertical, and their velocities ${\displaystyle (v_1,v_2,v_{\alpha })}$ . The inputs are the body-fixed thrust components ${\displaystyle (u_1,u_2)}$ , generated by moving flaps at the end of the duct.

The objective is to steer the fan from the origin to a horizontal position of ${\displaystyle 1\mathrm{m}}$ at altitude ${\displaystyle 0}$, with zero final velocities and attitude, in a free final time ${\displaystyle t_f}$, while minimising a trade-off between control effort and transition time.

Mathematical formulation

We summarize the states as ${\displaystyle x:=(x_1,v_1,x_2,v_2,\alpha ,v_{\alpha })}$.

${\displaystyle \begin{array}{lll}{\displaystyle \underset{u,t_{\mathrm{f}}}{\min }}& & \frac{1}{t_{\mathrm{f}}}{\displaystyle \underset{0}{\overset{t_{\mathrm{f}}}{\int }}}(2u_1^2(t)+u_2^2(t))\mathrm{d}t+\mu t_{\mathrm{f}}\\ \text{subject to}\\ \dot{x_1}(t)& =& v_1(t),\\ \dot{v_1}(t)& =& \frac{1}{m}(u_1\cos \alpha -u_2\sin \alpha ),\\ \dot{x_2}(t)& =& v_2(t),\\ \dot{v_2}(t)& =& \frac{1}{m}(-\mathrm{m}\mathrm{g}+u_1\sin \alpha +u_2\cos \alpha ),\\ \dot{\alpha }& =& v_{\alpha },\\ {\dot{v}}_{\alpha }& =& \frac{r}{J}{u}_1,\\ x(0)& =& (0,0,0,0,0,0{)}^T,\\ x(t_{\mathrm{f}})& =& (1,0,0,0,0,0{)}^T,\\ u_1(t)& \in & [-5,5]\mathrm{\forall }t\in [0,t_{\mathrm{f}}],\\ u_2(t)& \in & [0,17]\mathrm{\forall }t\in [0,t_{\mathrm{f}}],\\ \alpha (t)& \in & [-30,30]\mathrm{\forall }t\in [0,t_{\mathrm{f}}]\end{array}}$

Parameters

These fixed values are used within the model:

The weight ${\displaystyle \mu }$ balances control effort and transition time.

Reference Solutions

Here is one local solution to the above control problem.

• Reference solution plots
• 
  States and discretized control for a local optimum.

Miscellaneous and Further Reading

This formulation and a detailed description can be found in [1].

References

[1] Caillau, J.-B., Cots, O., Gergaud, J., & Martinon, P. OptimalControlProblems.jl: a collection of optimal control problems with ODE's in Julia. https://github.com/control-toolbox/OptimalControlProblems.jl/blob/main/ext/Descriptions/double_oscillator.md