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Paper detail

Efficient Algorithms for Planning with Participation Constraints

We consider the problem of planning with participation constraints introduced in [Zhang et al., 2022]. In this problem, a principal chooses actions in a Markov decision process, resulting in separate utilities for the principal and the agent. However, the agent can and will choose to end the process whenever his expected onward utility becomes negative. The principal seeks to compute and commit to a policy that maximizes her expected utility, under the constraint that the agent should always want to continue participating. We provide the first polynomial-time exact algorithm for this problem for finite-horizon settings, where previously only an additive $\varepsilon$-approximation algorithm was known. Our approach can also be extended to the (discounted) infinite-horizon case, for which we give an algorithm that runs in time polynomial in the size of the input and $\log(1/\varepsilon)$, and returns a policy that is optimal up to an additive error of $\varepsilon$.

preprint2022arXivOpen access
Hanrui ZhangYu ChengVincent Conitzer
Computer Science and Game TheoryMachine LearningData Structures and AlgorithmsArtificial Intelligence
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Hanrui ZhangYu ChengVincent Conitzer

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