Adaptive piecewise linear relaxations for enclosure computations for nonconvex multiobjective mixed-integer quadratically constrained programs
Copyright policy )Adaptive piecewise linear relaxations for enclosure computations for nonconvex multiobjective mixed-integer quadratically constrained programs
AbstractIn this paper, a new method for computing an enclosure of the nondominated set of multiobjective mixed-integer quadratically constrained programs without any convexity requirements is presented. In fact, our criterion space method makes use of piecewise linear relaxations in order to bypass the nonconvexity of the original problem. The method chooses adaptively which level of relaxation is needed in which parts of the image space. Furthermore, it is guaranteed that after finitely many iterations, an enclosure of the nondominated set of prescribed quality is returned. We demonstrate the advantages of this approach by applying it to multiobjective energy supply network problems.
- University of Konstanz Germany
ddc:510, Box enclosure, energy supply networks, box enclosure, Energy supply networks, Programming involving graphs or networks, Nonconvex programming, global optimization, Numerical mathematical programming methods, Mixed integer programming, Mixed-integer nonlinear programming, Adaptive piecewise linear relaxation, multiobjective optimization, adaptive piecewise linear relaxation, mixed-integer nonlinear programming, info:eu-repo/classification/ddc/510, Multi-objective and goal programming, Multiobjective optimization
ddc:510, Box enclosure, energy supply networks, box enclosure, Energy supply networks, Programming involving graphs or networks, Nonconvex programming, global optimization, Numerical mathematical programming methods, Mixed integer programming, Mixed-integer nonlinear programming, Adaptive piecewise linear relaxation, multiobjective optimization, adaptive piecewise linear relaxation, mixed-integer nonlinear programming, info:eu-repo/classification/ddc/510, Multi-objective and goal programming, Multiobjective optimization
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