Asian Journal of Probability and Statistics

Mathematical structures can often be extended into hyperstructures and superhyperstructures by utilizing the powerset and the n-th iterated powerset constructions (cf. (Clark et al., 2008; Gutsche, 2017; Smarandache, 2023a)). These frameworks are particularly well-suited for modeling hierarchical relationships across a wide range of conceptual domains.

Probability theory traditionally measures the likelihood of an event, assigning a value between 0 and 1 under given conditions. HyperProbability extends this framework by associating each event with a set of probability values, thus accommodating uncertainties arising from multiple sources or subjective evaluations. SuperHyperProbability further generalizes this concept through successive applications of the powerset, enabling the formalization of multi-layered uncertainty in complex reasoning systems.

In this paper, we revisit the foundational properties of HyperProbability and SuperHyperProbability, offering numerous illustrative examples. Several key theorems are also established, including those related to cardinality growth and finite additivity. Through these investigations, we aim to support the development of advanced probabilistic modeling and reasoning frameworks capable of addressing hierarchical and multi-level uncertainty.