Optimization and Machine Learning. Patrick Siarry
boards: A practical application of the heterogeneous fleet vehicle routing problem with time windows and three-dimensional loading constraints. Procedia Computer Science, 51, 2257–2266.
Pinto, T., Alves, C., de Carvalho, J.V., Moura, A. (2015). An insertion heuristic for the capacitated vehicle routing problem with loading constraints and mixed linehauls and backhauls. FME Transactions, 43(4), 311–318.
Pinto, T., Alves, C., de Carvalho, J.V. (2017). Variable neighborhood search algorithms for pickup and delivery problems with loading constraints. Electronic Notes in Discrete Mathematics, 58, 111–118.
Pinto, T., Alves, C., de Carvalho, J.V. (2020). Variable neighborhood search algorithms for the vehicle routing problem with two-dimensional loading constraints and mixed linehauls and backhauls. International Transactions in Operational Research, 27(1), 549–572.
Pollaris, H., Braekers, K., Caris, A., Janssens, G.K., Limbourg, S. (2015). Vehicle routing problems with loading constraints: State-of-the-art and future directions. OR Spectrum, 37(2), 297–330.
Pollaris, H., Braekers, K., Caris, A., Janssens, G.K., Limbourg, S. (2017). Iterated local search for the capacitated vehicle routing problem with sequence: Based pallet loading and axle weight constraints. Networks, 69(3), 304–316.
Pugliese, L.D.P., Guerriero, F., Calbi, R. (2019). Solving a three-dimensional bin-packing problem arising in the groupage process: Application to the port of Gioia Tauro. In A View of Operations Research Applications in Italy, Dell’Amico, M., Gaudioso, M., Stecca, G. (eds). Springer, Cham.
Reil, S., Bortfeldt, A., Monch, L. (2018). Heuristics for vehicle routing problems with backhauls, time windows, and 3D loading constraints. European Journal of Operational Research, 266(3), 877–894.
Ren, J., Tian, Y., Sawaragi, T. (2011). A relaxation method for the three-dimensional loading capacitated vehicle routing problem. In 2011 IEEE/SICE International Symposium on System Integration (SII), IEEE, 750–755.
Ruan, Q., Zhang, Z., Miao, L., Shen, H. (2013). A hybrid approach for the vehicle routing problem with three-dimensional loading constraints. Computers & Operations Research, 40(6), 1579–1589.
Sabar, N.R., Bhaskar, A., Chung, E., Turky, A., Song, A. (2020). An adaptive memetic approach for heterogeneous vehicle routing problems with two-dimensional loading constraints. Swarm and Evolutionary Computation, 100730.
Sbai, I. and Krichen, S. (2019). A hybrid PSO-LS approach for solving the two-dimensional bin packing problem with weight capacities constraint: A case study. In Proceedings of the 9th International Conference on Information Systems and Technologies. Association for Computing Machinery, NY, United States and Cairo, Egypt.
Sbai, I., Limem, O., Krichen, S. (2017). An adaptive genetic algorithm for the capacitated vehicle routing problem with time windows and two-dimensional loading constraints. In Computer Systems and Applications (AICCSA), 2017 IEEE/ACS 14th International Conference, IEEE.
Sbai, I., Krichen, S., Limam, O. (2020a). Two meta-heuristics for solving the capacitated vehicle routing problem: The case of the Tunisian Post Office. Operational Research, ISO 690.
Sbai, I., Limem, O., Krichen, S. (2020b). An effective genetic algorithm for solving the capacitated vehicle routing problem with two-dimensional loading constraint. International Journal of Computational Intelligence Studies, 9(1/2), 85–106.
Song, X., Jones, D., Asgari, N., Pigden, T. (2019). Multi-objective vehicle routing and loading with time window constraints: A real-life application. Annals of Operations Research, 291, 799–825 [Online]. Available at: https://doi.org/10.1007/s10479-019-03205-2.
Tao, Y. and Wang, F. (2015). An effective Tabu search approach with improved loading algorithms for the 3L-CVRP. Computers & Operations Research, 55, 127–140.
Tarantilis, C.D., Zachariadis, E.E., Kiranoudis, C.T. (2009). A hybrid metaheuristic algorithm for the integrated vehicle routing and three-dimensional container-loading problem. IEEE Transactions on Intelligent Transportation Systems, 10(2), 255–271.
Toth, P. and Vigo, D. (2002). The vehicle routing problem. SIAM Monographs on Discrete Mathematics and Applications. SIAM, Philadelphia [Online]. Available at: http://www.lavoisier.fr/livre/notice.asp?id=OS6WSLARK6SOWC.
Vega-Mejia, C.A., Montoya-Torres, J.R., Islam, S.M.N. (2019). A nonlinear optimization model for the balanced vehicle routing problem with loading constraints. International Transactions in Operational Research, 26(3), 794–835.
Vega-Mejia, C., González-Neira, E., Montoya-Torres, J., Islam, S. (2020). Using a hybrid heuristic to solve the balanced vehicle routing problem with loading constraints. International Journal of Industrial Engineering Computations, 11(2), 255–280.
Wei, L., Zhang, Z., Zhang, D., Lim, A. (2015). A variable neighborhood search for the capacitated vehicle routing problem with two-dimensional loading constraints. European Journal of Operational Research, 243(3), 798–814.
Wei, L., Zhang, Z., Zhang, D., Leung, S.C. (2018). A simulated annealing algorithm for the capacitated vehicle routing problem with two-dimensional loading constraints. European Journal of Operational Research, 265(3), 843–859.
Wei, L., Wang, Y., Cheng, H., Huang, J. (2019). An open space based heuristic for the 2D strip packing problem with unloading constraints. Applied Mathematical Modelling, 70, 67–81.
Wisniewski, M.A., Ritt, M., Buriol, L.S. (2011). A Tabu search algorithm for the capacitated vehicle routing problem with three-dimensional loading constraints. In XLIII Simposio Brasilero de Pesquisa Operacional, 15–18 August, Ubatuba.
Yi, J. and Bortfeldt, A. (2016). The capacitated vehicle routing problem with three-dimensional loading constraints and split delivery – A case study. In Proceedings of the Operations Research, Fink, A., Fügenschuh, A., Geiger, Martin J. (eds). Springer, Cham.
Zachariadis, E., Tarantilis, C., Kiranoudis, C. (2009). A guided Tabu search for the vehicle routing problem with two-dimensional loading constraints. European Journal of Operational Research, 195, 729–743.
Zachariadis, E., Tarantilis, C., Kiranoudis, C. (2013). Integrated distribution and loading planning via a compact metaheuristic algorithm. European Journal of Operational Research, 228, 56–71.
Zachariadis, E.E., Tarantilis, C.D., Kiranoudis, C.T. (2016). The vehicle routing problem with simultaneous pick-ups and deliveries and two-dimensional loading constraints. European Journal of Operational Research, 251(2), 369–386.
Zachariadis, E.E., Tarantilis, C.D., Kiranoudis, C.T. (2017). Vehicle routing strategies for pick-up and delivery service under two-dimensional loading constraints. Operational Research, 17(1), 115–143.
Zhang, D., Cai, S., Ye, F., Si, Y.W., Nguyen, T.T. (2017). A hybrid algorithm for a vehicle routing problem with realistic constraints. Information Sciences, 394/395, 167–182.
Zhou, S., Li, X., Zhang, K., Du, N. (2019). Two-dimensional knapsack-block packing problem. Applied Mathematical Modelling, 73, 1–18.
Zhu, W., Qin, H., Lim, A., Wang, L. (2012). A two-stage Tabu search algorithm with enhanced packing heuristics for the 3L-CVRP and M3L-CVRP. Computers & Operations Research, 39(9), 2178–2195.
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