It is demonstrated that the weak Hamiltonian finite-element formulation is amenable to the solution of optimal control problems with inequality constraints which are functions of both state and control variables. Difficult problems can be treated on account of the ease with which algebraic equations can be generated before having to specify the problem. These equations yield very accurate solutions. Owing to the sparse structure of the resulting Jacobian, computer solutions can be obtained quickly when the sparsity is exploited.
Finite element solution of optimal control problems with state-control inequality constraints
Journal of Guidance, Control, and Dynamics ; 15 , 4 Ju
1992-08-01
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Englisch