References in zbMATH (referenced in 98 articles )

Showing results 41 to 60 of 98.
Sorted by year (citations)
  1. Coco, Amadeu Almeida; Abreu Júnior, João Carlos; Noronha, Thiago F.; Santos, Andréa Cynthia: An integer linear programming formulation and heuristics for the minmax relative regret robust shortest path problem (2014)
  2. Figueiredo, Rafael M. A.; O’Kelly, Morton E.; Pizzolato, Nelio D.: A two-stage hub location method for air transportation in Brazil (2014)
  3. Gabrel, Virginie; Murat, Cécile; Thiele, Aurélie: Recent advances in robust optimization: an overview (2014)
  4. Gavina, Maica Krizna A.; Rabajante, Jomar F.; Cervancia, Cleofas R.: Mathematical programming models for determining the optimal location of beehives (2014)
  5. Ojalehto, Vesa; Miettinen, Kaisa; Laukkanen, Timo: Implementation aspects of interactive multiobjective optimization for modeling environments: the case of GAMS-NIMBUS (2014)
  6. Rahmani, A.; MirHassani, S. A.: A hybrid firefly-genetic algorithm for the capacitated facility location problem (2014)
  7. Aizam, Nur Aidya Hanum; Caccetta, Louis: Mixed integer linear programming models for university timetabling and its application (2013)
  8. Fasano, Giorgio; Pintér, János D.: Model development and optimization for space engineering: concepts, tools, applications, and perspectives (2013)
  9. Goerigk, Marc: Algorithms and concepts for robust optimization (2013)
  10. Pintér, János D.; Kampas, Frank J.: Benchmarking nonlinear optimization software in technical computing environments (2013)
  11. Beraldi, Patrizia; Bruni, Maria Elena; Violi, Antonio: Capital rationing problems under uncertainty and risk (2012)
  12. Hart, William E.; Laird, Carl; Watson, Jean-Paul; Woodruff, David L.: Pyomo -- optimization modeling in Python (2012)
  13. Mittelmann, Hans D.: The state-of-the-art in conic optimization software (2012)
  14. Perez, Ruben E.; Jansen, Peter W.; Martins, Joaquim R. R. A.: PyOpt: a python-based object-oriented framework for nonlinear constrained optimization (2012)
  15. Watson, Jean-Paul; Woodruff, David L.; Hart, William E.: PySP: modeling and solving stochastic programs in Python (2012)
  16. Beraldi, Patrizia; Violi, Antonio; Scordino, Nadia; Sorrentino, Nicola: Short-term electricity procurement: a rolling horizon stochastic programming approach (2011)
  17. Bruni, M. E.; Beraldi, P.; Guerriero, F.; Pinto, E.: A heuristic approach for resource constrained project scheduling with uncertain activity durations (2011)
  18. Hart, William E.; Watson, Jean-Paul; Woodruff, David L.: Pyomo: modeling and solving mathematical programs in python (2011) ioport
  19. Siem, A. Y. D.; Den Hertog, D.; Hoffmann, A. L.: A method for approximating univariate convex functions using only function value evaluations (2011)
  20. Fonseca, M. Conceição; García-Sánchez, Álvaro; Ortega-Mier, Miguel; Saldanha-Da-Gama, Francisco: A stochastic bi-objective location model for strategic reverse logistics (2010)