This paper investigates a partially observable queueing system with N nodes in which each node has a dedicated arrival stream.There is an extra arrival stream to balance the load of the system by routing its customers...This paper investigates a partially observable queueing system with N nodes in which each node has a dedicated arrival stream.There is an extra arrival stream to balance the load of the system by routing its customers to the shortest queue.In addition,a reward-cost structure is considered to analyse customers'strategic behaviours.The equilibrium and socially optimal strategies are derived for the partially observable mean field limit model.Then,we show that the strategies obtained from the mean field model are good approximations to the model with finite N nodes.Finally,numerical experiments are provided to compare the equilibrium and socially optimal behaviours,including joining probabilities and social benefits for different system parameters.展开更多
基金the National Natural Science Foundation of China(No.61773014)Scientific Research Fund of Nanjing University of Posts and Telecommunications(No.NY220160)the Natural Sciences and Engineering Research Council of Canada.
文摘This paper investigates a partially observable queueing system with N nodes in which each node has a dedicated arrival stream.There is an extra arrival stream to balance the load of the system by routing its customers to the shortest queue.In addition,a reward-cost structure is considered to analyse customers'strategic behaviours.The equilibrium and socially optimal strategies are derived for the partially observable mean field limit model.Then,we show that the strategies obtained from the mean field model are good approximations to the model with finite N nodes.Finally,numerical experiments are provided to compare the equilibrium and socially optimal behaviours,including joining probabilities and social benefits for different system parameters.