Difference between revisions of "Lotka Volterra fishing problem"
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The Lotka Volterra fishing problem was introduced by Sebastian Sager in a proceedings paper <bibref>Sager2006</bibref> and revisited in his PhD thesis <bibref>Sager2005</bibref>. These are also the references to look for more details. | The Lotka Volterra fishing problem was introduced by Sebastian Sager in a proceedings paper <bibref>Sager2006</bibref> and revisited in his PhD thesis <bibref>Sager2005</bibref>. These are also the references to look for more details. | ||
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== References == | == References == | ||
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Revision as of 20:21, 6 July 2008
This problem was set up as a small-scale benchmark problem. The optimal solution contains a singular arc, making the Lotka Volterra fishing problem an ideal candidate for benchmarking of algorithms.
In this problem the Lotka Volterra equations for a predator-prey system have been augmented by an additional linear term, relating to fishing by man.
Model dimensions and properties
The model has the following dimensions:
It is thus an ODE model with a single integer control function. The interior point equality conditions fix the initial values of the differential states.
Mathematical formulation
For the mixed-integer optimal control problem is given by
Initial values and parameters
These fixed values are used within the model.
Reference Solutions
Source Code
double ref0 = 1, ref1 = 1; /* steady state with u == 0 */ rhs[0] = xd[0] - xd[0]*xd[1] - p[0]*u[0]*xd[0]; rhs[1] = - xd[1] + xd[0]*xd[1] - p[1]*u[0]*xd[1]; rhs[2] = (xd[0]-ref0)*(xd[0]-ref0) + (xd[1]-ref1)*(xd[1]-ref1);
Miscellaneous
The Lotka Volterra fishing problem was introduced by Sebastian Sager in a proceedings paper <bibref>Sager2006</bibref> and revisited in his PhD thesis <bibref>Sager2005</bibref>. These are also the references to look for more details.
References
<bibreferences/>