2017
DOI: 10.1007/s10898-017-0503-3
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Guided dive for the spatial branch-and-bound

Abstract: We study the spatial Brand-and-Bound algorithm for the global optimization of nonlinear problems. In particular we are interested in a method to find quickly good feasible solutions. Most spatial Branch-and-Bound-based solvers use a non-global solver at a few nodes to try to find better incumbents. We show that it is possible to improve the branching rules and the node priority by exploiting the solutions from the non-global solver. We also propose several smart adaptive strategies to choose when to run the no… Show more

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Cited by 12 publications
(11 citation statements)
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“…We study a combinatorial optimization problem related to some binary (Boolean) optimization model with application in the field of synchronized measurements for monitoring the smart grids. The innovation of this study is proved in practice because a polynomial problem with continuous variables is able to attain locally optimal solutions [8]- [12], [27]- [30].…”
Section: Novelty and Assessment Criteria To Achieve Optimalitymentioning
confidence: 99%
See 2 more Smart Citations
“…We study a combinatorial optimization problem related to some binary (Boolean) optimization model with application in the field of synchronized measurements for monitoring the smart grids. The innovation of this study is proved in practice because a polynomial problem with continuous variables is able to attain locally optimal solutions [8]- [12], [27]- [30].…”
Section: Novelty and Assessment Criteria To Achieve Optimalitymentioning
confidence: 99%
“…(11) (12) Where ℎ element determines a polynomial observability constraint for the ℎ bus [27]- [31], [44]: (13) An auxiliary binary-valued variable is an extra term incorporated into the polynomial model to reflect yes or no decision investment [8]- [9]. Hence, such variables are binary adding to our proposed model with the aim to declare it as a pure Boolean optimization model [15].…”
Section: -1 Polynomial Optimization Problemmentioning
confidence: 99%
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“…The geometric branch-and-bound (GB2) method developed in this paper for solving (RM) has some similarity with the spatial branch-and-bound (SB2) method used in nonconvex optimization [24,34,36]. Both have the common idea of sequentially partitioning the feasible region into sub-regions, and finding a lower and upper bound from the restricted problem (a convex optimization problem) in a sub-region [12,16,20]. However, the G2B2 method developed in this paper differs from the spatial branch-and-bound approach in how it partitions the feasible set, and its evaluation of the lower and upper bounds.…”
Section: Relaxation and Branch-and-bound Methods In Global Optimizationmentioning
confidence: 99%
“…Primal heuristics are usually used to provide high-quality feasible solutions for MILPs at a relatively low computational expense [58]- [60]. Most primal heuristics can be divided into two folds of LP-based heuristics [60], [62], [63] and MILPbased heuristics [61], [64]- [67]. Metaheuristic methods perform well in finding high-quality solutions for warm starts with primal heuristics [68]- [74].…”
Section: Primal Heuristicsmentioning
confidence: 99%