10,485 research outputs found
Supply chain collaboration
In the past, research in operations management focused on single-firm analysis. Its goal was to provide managers in practice with suitable tools to improve the performance of their firm by calculating optimal inventory quantities, among others. Nowadays, business decisions are dominated by the globalization of markets and increased competition among firms. Further, more and more products reach the customer through supply chains that are composed of independent firms. Following these trends, research in operations management has shifted its focus from single-firm analysis to multi-firm analysis, in particular to improving the efficiency and performance of supply chains under decentralized control. The main characteristics of such chains are that the firms in the chain are independent actors who try to optimize their individual objectives, and that the decisions taken by a firm do also affect the performance of the other parties in the supply chain. These interactions among firms’ decisions ask for alignment and coordination of actions. Therefore, game theory, the study of situations of cooperation or conflict among heterogenous actors, is very well suited to deal with these interactions. This has been recognized by researchers in the field, since there are an ever increasing number of papers that applies tools, methods and models from game theory to supply chain problems
Distributionally Robust Optimization for Sequential Decision Making
The distributionally robust Markov Decision Process (MDP) approach asks for a
distributionally robust policy that achieves the maximal expected total reward
under the most adversarial distribution of uncertain parameters. In this paper,
we study distributionally robust MDPs where ambiguity sets for the uncertain
parameters are of a format that can easily incorporate in its description the
uncertainty's generalized moment as well as statistical distance information.
In this way, we generalize existing works on distributionally robust MDP with
generalized-moment-based and statistical-distance-based ambiguity sets to
incorporate information from the former class such as moments and dispersions
to the latter class that critically depends on empirical observations of the
uncertain parameters. We show that, under this format of ambiguity sets, the
resulting distributionally robust MDP remains tractable under mild technical
conditions. To be more specific, a distributionally robust policy can be
constructed by solving a sequence of one-stage convex optimization subproblems
- …