Publications

2019

  1.  Framinan JM, Fernandez-Viagas V, Perez Gonzalez P, Using real-time information to reschedule jobs in a flowshop with variable processing times, 2019, Computers & Industrial Engineering,129, 113-125.
  2. Framinan JM, Perez-Gonzalez P, Fernandez-Viagas V, Deterministic Assembly Scheduling Problems: A Review and Classi cation of Concurrent-Type Scheduling Models and Solution Procedures, 2019, European Journal of Operational Research, 273, pp. 401-417.
  3. Cannella S, Dominguez R, Ponte B, Framinan JM, On the dynamics of closed-loop supply chains with capacity constraints, 2019, Computers and Industrial Engineering, 128, pp. 91-103.
  4. Dominguez, R., Cannella, S., Ponte, B., Framinan, J.M. On the dynamics of closed-loop supply chains under remanufacturing lead time variability, 2019 Omega, art. no. 102106.
  5. Framinan, J.M., Leisten, R. Linking scheduling criteria to shop floor performance in permutation flowshops, 2019, Algorithms, 12 (2), art. no. 263.
  6. Perez-Gonzalez, P., Fernandez-Viagas, V., Zamora García, M., Framinan, J.M. Constructive heuristics for the unrelated parallel machines scheduling problem with machine eligibility and setup times (2019) Computers and Industrial Engineering, 131, pp. 131-145.
  7. Pan, Q.-K., Gao, L., Xin-Yu, L., Framinan, J.M. Effective constructive heuristics and meta-heuristics for the distributed assembly permutation flowshop scheduling problem (2019) Applied Soft Computing Journal, 81, art. no. 105492.
  8. Fernandez-Viagas, V., Perez-Gonzalez, P., Framinan, J.M. Efficiency of the solution representations for the hybrid flow shop scheduling problem with makespan objective (2019) Computers and Operations Research, 109, pp. 77-88.
  9. Beldar, P., Framinan, J.M., Ardakani, A. Minimization of total completion time on a batch processing machine with arbitrary release dates: an effectual teaching–learning based optimization approach (2019) Production Engineering, 13 (5), pp. 557-566.
  10. Dominguez, R., Ponte, B., Cannella, S., Framinan, J.M. Building resilience in closed-loop supply chains through information-sharing mechanisms (2019) Sustainability, 11 (23), art. no. 6746.
  11. Fernandez-Viagas, V., Framinan, J.M. A best-of-breed iterated greedy for the permutation flowshop scheduling problem with makespan objective (2019) Computers and Operations Research, 112, art. no. 104767.

2018

  1. Dominguez R, Cannella S, Povoa A, Framinan JM, Information sharing in supply chains with heterogeneous retailers, 2018, OMEGA – The International Journal of Management Science, 79, pp. 116-132.
  2. Framinan JM, Perez-Gonzalez P, Order Scheduling with Tardiness Objective: Improved Approximate Solutions, 2018, European Journal of Operational Research, 266 (3), 840-850.
  3. Dios M, Fernandez-Viagas V, Framinan JM, Efficient Heuristics for the Hybrid Flow Shop Scheduling Problem with Missing Operations, 2018, Computers and Industrial Engineering, 115, pp. 88-99.
  4. Perez-Gonzalez P, Framinan, JM, Single machine interfering jobs problem with flowtime objective, 2018, Journal of Intelligent Manufacturing, 29(5), pp. 953-972.
  5. Fernandez-Viagas V, Perez-Gonzalez P, Framinan, JM, The distributed permutation flow shop to minimise the total flowtime,  2018, Computers and Industrial Engineering, 118, pp. 464-477.
  6. Cannella S, Dominguez R, Ponte B, Framinan JM, Capacity restrictions and supply chain performance: Modelling and analysing load-dependent lead times, 2018, International Journal of Production Economics, 204, pp. 264-277.
  7. Fernandez-Viagas V, Valente, JMS, Framinan, JM, Iterated-greedy-based algorithms with beam search initialization for the permutation flowshop to minimise total tardiness, 2018, Expert Systems with Applications, 94, pp. 58-69.
  8. Hatami S, Calvet L, Fernandez-Viagas V, Framinan JM, Juan A, A simheuristic algorithm to set up starting times in the parallel stochastic flowshop problem, 2018, Simulation Modelling Practice and Theory, 86, pp. 55-71.
  9. Dominguez R, Cannella S, Povoa A, Framinan JM, OVAP: A strategy to implement partial information sharing among supply chain retailers, 2018, Transportation Research Part E: Logistics and Transportation Review, 110, pp. 122–136.
  10. Perez-Gonzalez P, Framinan JM, Single Machine Scheduling with Periodic Machine Availability, 2018, Computers and Industrial Engineering, 123, pp. 180-188.
  11. Fernandez-Viagas V, Molina JM, Framinan JM, New efficient constructive heuristics for the hybrid flowshop to minimise makespan: A computational evaluation of heuristics, 2018, Expert Systems and Applications, 114, pp. 345-356.
  12. Cannella S, Dominguez R, Framinan JM, Bruccoleri M, Demand Sharing Inaccuracies in Supply Chains: A Simulation Study, 2018, Complexity, Article ID 1092716.

2017

  1. Cannella, S., González-Ramírez, R. G., Dominguez, R., López-Campos, M. A., & Miranda, P. A., “Modelling and Simulation in Operations and Complex Supply Chains – Editorial”, Mathematical Problems in Engineering (2017).
  2. De Oliveira Pacheco E., Cannella S., Lüders R., Barbosa-Povoa A.P. “Order-up- to-level Policy Update Procedure for a Supply Chain Subject to Market Demand Uncertainty”, Computers & Industrial Engineering (2017), 113, 347 – 355.
  3. Dominguez R, Cannella S, Framiñán JM, “Inventory Record Inaccuracy – The impact of structural complexity and lead time variability“, OMEGA – The International Journal of Management Science (2017), 81, pp. 167-177.
  4. Fernandez-Viagas V, Framiñán JM, “Reduction of Permutation Flowshop Problems to Single Machine Problems“, Computers & Operations Research (2017), 77, pp. 96-110.
  5. Fernandez-Viagas V, Framiñán JM, “A beam-search-based constructive heuristic for the PFSP to minimise total flowtime“, Computers & Operations Research (2017), 81, pp. 167-177.
  6. Fernandez-Viagas V, Ruiz R, Framiñán JM, “A new vision of approximate methods for the permutation flowshop to minimise makespan: state-of-the-art and computational evaluation”, European Journal of Operational Research (2017), 257 (3), pp. 707-721.
  7. Framiñán JM, Perez-Gonzalez P, “The 2-stage assembly flowshop scheduling problem with total completion time: Efficient constructive heuristic and metaheuristic“, Computers & Operations Research (2017), 88, pp. 237-246.
  8. Framiñán JM, Perez-Gonzalez P, “New approximate algorithms for the customer order scheduling problem with total completion time objective“, Computers & Operations Research (2017), 78, pp. 181-192.

2016

  1. Cannella S, Bruccoleri M, Framiñán JM, “Closed-loop supply chains: What reverse logistics factors influence performance?“, International Journal of Production Economics (2016), 175, pp. 35-49.
  2. Dios, M, Framiñán JM, “A Review and Classification of Computer-Based Manufacturing Scheduling Tools“, Computers & Industrial Engineering (2016), 99, pp. 229-249.
  3. Dominguez R, Cannella S, Framiñán JM, “Turbulence in market demand on supply chain networks“, International Journal of Simulation Modelling (2016), 15(3):450-459.
  4. Fernandez-Viagas V, Leisten R, Framiñán JM, “A computational evaluation of constructive and improvement heuristics for the blocking flow shop to minimise total flowtime“, Expert Systems With Applications (2016), 61 (1), pp. 290-301.
  5. Fernandez-Viagas V, Dios M, Framiñán JM, “Efficient constructive and composite heuristics for the Permutation Flowshop to minimise total earliness and tardiness”, Computers & Operations Research (2016), 53, pp. 68-80.

2015

  1. Cannella S, Bruccoleri M, Barbosa-Povoa A, Framiñán JM, Relvas S, “The effect of Inventory Record Inaccuracy in Information Exchange Supply Chains”, European Journal of Operational Research (2015), 243 (1), pp. 120-129.
  2. Cannella, S., López‐Campos, M., Dominguez, R., Ashayeri, J., & Miranda, P. A. , “A simulation model of a coordinated decentralized supply chain”. International Transactions in Operational Research (2015), 22 (4), 735-756.
  3. Dominguez R, Cannella S, Framiñán JM, “On returns and network configuration in supply chain’s dynamic performance”, Transportation Research Part E: Logistics and Transportation Review (2015), 73, pp. 152-167.
  4. Fernandez-Viagas V, Framiñán JM, “A new set of high-performing heuristics to minimize flowtime in permutation flowshops”, Computers & Operations Research (2015), 53, pp. 68-80.
  5. Fernandez-Viagas V, Framiñán JM, “A bounded-search iterated greedy algorithm for the distributed permutation flowshop scheduling problem”, International Journal of Production Research (2015), 53 (4), pp. 1111-1123.
  6. Fernandez-Viagas V, Framiñán JM, “Efficient non-population-based algorithms for the permutation flowshop scheduling problem with makespan minimisation subject to a maximum tardiness”, Computers & Operations Research (2015), 64, pp. 86-96.
  7. Fernandez-Viagas V, Framiñán JM “Controllable Processing Times in Project and Production Management: Analysing the trade-off between processing times and the amount of resources”, Mathematical Problems in Engineering (2015), Article ID 826318.
  8. Fernandez-Viagas V, Framiñán JM, “NEH-based heuristics for the permutation flowshop scheduling problem to minimize total tardiness”, Computers & Operations Research (2015), 60, pp. 27-36. .
  9. Framiñán JM, Perez-Gonzalez P, “On heuristic solutions for the stochastic flowshop scheduling problem”, European Journal of Operational Research (2015), 246, pp. 413-420.
  10. Perez-Gonzalez P, Framiñán JM, “Assessing scheduling policies in a permutation flowshop with common due dates”, International Journal of Production Research (2015), 53 (19), pp. 5742-5754. JCR 2015: 1.693
  11. Vallada E, Ruiz R, Framiñán JM, “New hard benchmark for flowshop scheduling problems minimizing makespan”, European Journal of Operational Research (2015), 240 (3), pp. 666-677.

2014

  1. Bruccoleri M., Cannella S., La Porta G. “Inventory record inaccuracy in supply chains: the role of workers’ behaviour”, International Journal of Physical Distribution & Logistics Management (2014), 44 (10), 796 –819.
  2. Cannella S. “Order-up- to policies in information exchange supply chains”, Applied Mathematical Modelling, (2014), 38 (21), 5553–5561.
  3. Cannella S., Ashayeri J., Miranda P.A., Bruccoleri M. “Current economic downturn and supply chain: The significance of demand and inventory smoothing”, International Journal of Computer Integrated Manufacturing (2014), 27 (3), 201-212.
  4. Cannella S, Framiñán JM, Barbosa-Povoa A, “An IT-enabled supply chain model: A simulation study”, International Journal of Systems Science (2014), 45 (11), pp. 2327-2341.
  5. Dominguez R, Cannella S, Framiñán JM, “The impact of the supply chain structure on bullwhip effect”, Applied Mathematical Modelling (2014), 39 (23-24), pp. 7309-7325.
  6. Dominguez R, Framiñán JM, Cannella S, “On bullwhip-limiting strategies in divergent supply chain networks”, Computers & Industrial Engineering (2014), 73 (1), pp. 85-95.
  7. Dominguez R, Framiñán JM, Cannella S, “Serial versus divergent supply chain networks: a comparative analysis of the bullwhip effect”, International Journal of Production Research (2014)
  8. Fernandez-Viagas V, Framiñán JM, “On insertion tie-breaking rules in heuristics for the permutation flowshop scheduling problem”, Computers & Operations Research (2014), 45, pp. 60-67.
  9. Fernandez-Viagas V, Framiñán JM, “Integrated project scheduling and staff assignment with controllable processing times”, Scientific World Journal, Volume 2014.
  10. Perez-Gonzalez P, Framiñán JM, “A Common Framework and Taxonomy for Multicriteria Scheduling Problems with Interfering and Competing Jobs: Multi-agent Scheduling Problems”, European Journal of Operational Research (2014), 235 (1), pp. 1-16.