On the Complexity of Chore Division

09/30/2017
by   Alireza Farhadi, et al.
0

We study the proportional chore division problem where a protocol wants to divide a negatively valued object, called chore, among n different players. The goal is to find an allocation such that cost of the chore assigned to each player be at most 1/n of the total cost. This problem is the dual variant of the cake cutting problem in which we want to allocate a desirable object. Edmonds and Pruhs showed that any protocol for the proportional cake cutting must use at least Ω(n n) queries in the worst case, however, finding a lower bound for the proportional chore division remained an interesting open problem. We show that chore division and cake cutting problems are closely related to each other and provide an Ω(n n) lower bound for chore division. We also consider the problem when players have unequal entitlements and show that any protocol for chore division and cake cutting must use an unbounded number of queries. Finally, we present a simple algorithm that allocates a chore among the players with unequal entitlements using an unbounded but finite number of queries.

READ FULL TEXT

Please sign up or login with your details

Forgot password? Click here to reset