Now showing items 1-5 of 5

  • Adaptation of some Assembly Line Balancing Heuristics to a Mixed-Model Case 

    Fernández Pérez, Alberto (Universitat Politècnica de Catalunya / Universiteit Gent, 2011)
    Master thesis (pre-Bologna period)
    Open Access
    This Master Thesis propose to find the best heuristic solution for one of the types of Assembly Line Balancing Problem, the SALP-1, in a line that needs to produce different models of the same product (mixed-model). That ...
  • Bulk feeding versus kitting - application and sensitivity analysis 

    Delshams Ibars, Carla (Universitat Politècnica de Catalunya / Universiteit Gent, 2008)
    Master thesis (pre-Bologna period)
    Restricted access - confidentiality agreement
  • Coordination mechanisms in supply chain 

    Garcia Matheu, Virginia (Universitat Politècnica de Catalunya / Universiteit Gent, 2010)
    Master thesis (pre-Bologna period)
    Open Access
    This thesis attempts to analyze coordination mechanisms between producers and suppliers in a supply chain. Since the entities in a supply chain work usually independently each from the other, it is of crucial importance ...
  • Inventory Placement: Strategic Safety stocks in supply chains with and without capacity constraints 

    Lopez Pagola, Albert (Universitat Politècnica de Catalunya, 2012)
    Master thesis (pre-Bologna period)
    Restricted access - author's decision
    The amount of safety stock to hold at each stage in a supply chain is an important problem for a manufacturing company that faces uncertain demand and needs to provide a high level of service to its customers. The amount ...
  • Optimisation of safety stocks in multi-echelon supply chains with stochastic demand and lead times 

    Grau Clavero, Judit (Universitat Politècnica de Catalunya, 2018)
    Master thesis
    Open Access
    Covenantee:  Universiteit Gent
    The purpose of this master dissertation is to find and analyse the behaviour of a proposed model in single echelon and multiple echelons with stochastic demand and lead time under minimum total expected cost and the maximum ...