LV Shared Resource

This Lotka Volterra problem with explicit inclusion of a shared resource is a variant of the Lotka Volterra fishing problem. Its dynamics are given via a three-dimensional ODE model.

Mathematical formulation

The mixed-integer optimal control problem is given by

${\displaystyle \begin{array}{ll}{\displaystyle \underset{x,w}{\min }}& x_2(t_f)\\ \text{s.t.}& {\dot{x}}_0& =& x_0-x_0{x}_1-\sum _{i=1}^5{c}_{0,i}{w}_i,\\ & {\dot{x}}_1& =& -x_1+x_0{x}_1-\sum _{i=1}^5{c}_{1,i}{w}_i,\\ & {\dot{x}}_2& =& (x_0-1{)}^2+(x_1-1{)}^2,\\ & x(0)& =& (0.5,0.7,0{)}^T,\\ & \sum _{i=1}^5{w}_i(t)& =& 1,\\ & w_i(t)& \in & \{0,1\},i=1\dots 5.\end{array}}$

Here the differential states ${\displaystyle (x_0,x_1)}$ describe the biomasses of prey and predator, respectively. The third differential state is used here to transform the objective, an integrated deviation, into the Mayer formulation ${\displaystyle \min x_2(t_f)}$. This problem variant allows to choose between five different fishing options.

Parameters

These fixed values are used within the model.

${\displaystyle \begin{array}{rcl}[t_0,t_f]& =& [0,12],\\ (c_{0,1},c_{1,1})& =& (0.2,0.1),\\ (c_{0,2},c_{1,2})& =& (0.4,0.2),\\ (c_{0,3},c_{1,3})& =& (0.01,0.1),\\ (c_{0,4},c_{1,4})& =& (0,0),\\ (c_{0,5},c_{1,5})& =& (-0.1,-0.2).\end{array}}$

Reference Solutions

If the problem is relaxed, i.e., we demand that ${\displaystyle w(t)}$ is in the continuous interval ${\displaystyle [0,1]}$ rather than being binary, the optimal solution can be determined by means of direct optimal control.

The optimal objective value of the relaxed problem with ${\displaystyle n_t=12000,n_u=150}$ is ${\displaystyle x_2(t_f)=0.345768563}$. The objective value of the solution with binary controls obtained by Combinatorial Integral Approximation (CIA) is ${\displaystyle x_2(t_f)=0.348617982}$.

• Reference solution plots
• 
  Optimal relaxed controls and states determined by an direct approach with ampl_mintoc (Radau collocation) and ${\displaystyle n_t=12000,n_u=150}$.
• 
  Differential states determined by an direct approach (Radau collocation) with ampl_mintoc and ${\displaystyle n_t=12000,n_u=150}$. The relaxed controls were approximated by Combinatorial Integral Approximation.
• 
  Binary control determined by an direct approach (Radau collocation) with ampl_mintoc and ${\displaystyle n_t=12000,n_u=150}$. The relaxed controls were approximated by Combinatorial Integral Approximation. The fishing control shows a lot of chattering.