Algorithmic Randomness and Capacity of Closed Sets

Douglas Cenzer, Paul Brodhead, Ferit Toska, Sebastian Wyman, Ning Zhong
2011 Logical Methods in Computer Science  
We investigate the connection between measure, capacity and algorithmic randomness for the space of closed sets. For any computable measure m, a computable capacity T may be defined by letting T(Q) be the measure of the family of closed sets K which have nonempty intersection with Q. We prove an effective version of Choquet's capacity theorem by showing that every computable capacity may be obtained from a computable measure in this way. We establish conditions on the measure m that
more » ... when the capacity of an m-random closed set equals zero. This includes new results in classical probability theory as well as results for algorithmic randomness. For certain computable measures, we construct effectively closed sets with positive capacity and with Lebesgue measure zero. We show that for computable measures, a real q is upper semi-computable if and only if there is an effectively closed set with capacity q.
doi:10.2168/lmcs-7(3:16)2011 fatcat:7apxwlcbxngzdkoobh5n5f3u74