Complexity results for preference aggregation over (m)CP-nets: Max and rank voting

作者:

摘要

Aggregating preferences over combinatorial domains has a plethora of applications in AI. Due to the exponential nature of combinatorial preferences, compact representations are needed, and conditional ceteris paribus preference networks (CP-nets) are among the most studied compact representation formalisms. Unlike the problem of outcome dominance over individual CP-nets, which received an extensive complexity analysis in the literature, mCP-nets (and global voting/preference aggregation over CP-nets) lacked such a thorough complexity characterization, despite this being reported multiple times in the literature as an open problem. An initial complexity analysis for mCP-nets was carried out only recently, where Pareto and majority dominance semantics were studied. In this paper, we further explore the complexity of mCP-nets, giving a precise complexity analysis of the dominance semantics in mCP-nets when the max and rank voting schemes are considered. In particular, we show that deciding dominance under max voting is Θ2P-complete, while deciding optimal outcomes and their existence under max voting is complete for Π2P and Σ3P, respectively. We also show that, under max voting, deciding optimum outcomes is Π2P-complete, and deciding their existence is Π2P-hard and in Σ3P. As for rank voting, apart from deciding whether mCP-nets have rank optimal outcomes, which is a trivial problem, as all mCP-nets have rank optimal outcomes, all the other rank voting tasks considered are tractable and in P. Interestingly, we show here that these problems are not only in P, but also P-hard (and hence P-complete). Furthermore, we show that deciding whether mCP-nets have Pareto optimum outcomes, which was known to be feasible in polynomial time, is actually P-complete, as well as that various tasks for CP-nets are P-complete. These results provide interesting insights, as P-complete problems are (currently believed to be) inherently sequential, and hence they cannot benefit from highly parallel computations.

论文关键词:Preferences,Combinatorial preferences,Preference aggregation,CP-nets,mCP-nets,Voting,Max voting,Rank voting,Computational complexity,Polynomial hierarchy,P-hardness

论文评审过程:Received 5 July 2019, Revised 9 July 2021, Accepted 21 November 2021, Available online 24 November 2021, Version of Record 30 November 2021.

论文官网地址:https://doi.org/10.1016/j.artint.2021.103636