Difference between revisions of "Category:Sensitivity-seeking arcs"

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We define sensitivity-seeking (also compromise-seeking) arcs in the sense of Srinivasan and Bonvin <bibref>Srinivasan2003</bibref> as arcs which are neither [[:Category:Bang bang|bang-bang]] nor [[:Category:Path-constrained arcs | path-constrained]] and for which the optimal control can be determined by time derivatives of the Hamiltonian. For control-affine systems this implies so-called ''singular arcs''.
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We define sensitivity-seeking (also compromise-seeking) arcs in the sense of Srinivasan and Bonvin <bib id="Srinivasan2003" /> as arcs which are neither [[:Category:Bang bang|bang-bang]] nor [[:Category:Path-constrained arcs | path-constrained]] and for which the optimal control can be determined by time derivatives of the Hamiltonian. For control-affine systems this implies so-called ''singular arcs''.
  
 
A classical small-sized benchmark problem for a sensitivity-seeking (singular) arc is the [[Lotka Volterra fishing problem]]. The treatment of sensitivity-seeking arcs is very similar to the one of path-constrained arcs. As above, an approximation up to any a priori specified tolerance is possible, probably at the price of frequent switching.  
 
A classical small-sized benchmark problem for a sensitivity-seeking (singular) arc is the [[Lotka Volterra fishing problem]]. The treatment of sensitivity-seeking arcs is very similar to the one of path-constrained arcs. As above, an approximation up to any a priori specified tolerance is possible, probably at the price of frequent switching.  

Revision as of 18:54, 20 January 2016

We define sensitivity-seeking (also compromise-seeking) arcs in the sense of Srinivasan and Bonvin [Srinivasan2003]Author: Srinivasan, B.; Palanki, S.; Bonvin, D.
Journal: Computers \& Chemical Engineering
Pages: 1--26
Title: Dynamic Optimization of Batch Processes: I. Characterization of the Nominal Solution
Volume: 27
Year: 2003
Link to Google Scholar
as arcs which are neither bang-bang nor path-constrained and for which the optimal control can be determined by time derivatives of the Hamiltonian. For control-affine systems this implies so-called singular arcs.

A classical small-sized benchmark problem for a sensitivity-seeking (singular) arc is the Lotka Volterra fishing problem. The treatment of sensitivity-seeking arcs is very similar to the one of path-constrained arcs. As above, an approximation up to any a priori specified tolerance is possible, probably at the price of frequent switching.

References

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