Cost Allocation for a Tree Network with Heterogeneous Customers

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Abstract

We analyze a cost allocation problem which could naturally arise from a situation wherein a tree networkT = ( N ? {0},E), serving heterogeneous customers, has to be constructed. The customers, located atN, require some service from a central supplier, located at vertex 0. The customers have heterogeneous preferences for the level or quality of service received from the central supplier.We formulate the above cost allocation problem as a cooperative game, referred to as anextended tree game. The extended tree game is a proper extension of Megiddo's (1978) tree game, wherein all the customers have identical preferences regarding the level of service received. We prove that an extended tree game is convex, and we show that its Shapley value can be computed in ( p| N|) time, wherep is the number of distinct preference levels. We further provide a complete facial description of the core polytope of an extended tree game, and demonstrate that even when there are only two classes of customers, the number of nonredundant core constraints could be exponential in | N|. Nevertheless, we are able to construct an ( p| N|) algorithm to check the core membership of an arbitrary cost allocation, which can be used to construct an ( p| N| 3) combinatorial algorithm to compute the nucleolus of an extended tree game. Finally, we show that the complements of the facet-defining coalitions for the core are all connected in an auxiliary tree graph with node setN.