A quantitative approach to reasoning about incomplete knowledge

Authors: Yanhong She, Xiaoli He, Yuhua Qian, Weihua Xu, Jinhai Li

Abstract:

Authors: Yanhong She, Xiaoli He, Yuhua Qian, Weihua Xu, Jinhai Li
Abstract:In this paper, we aim to present a quantitative approach to reasoning about incomplete information. The study is conducted in MEL, a minimal epistemic logic relating modal languages to uncertainty theories. The proposed approach leads to two types of epistemic truth degrees of a proposition. Some related properties are derived. By means of a more general probability distribution on the set of epistemic states, two randomized versions of epistemic truth degrees are obtained. The connection between the notion of local probabilistic epistemic truth degree and belief function is also established. Based upon the fundamental notion of the global epistemic truth degree, the notion of epistemic similarity degree is also proposed and a kind of pseudo-metric used for approximate reasoning in MEL is thus derived. The obtained results provide a useful supplement to the existing study in the sense that it offers a quantitative approach instead of the qualitative manner in the literature.

A quantitative approach to reasoning about incomplete knowledge

Keywords:

a quantitative approach to reasoning about incomplete knowledge.pdf

Wed Sep 05 00:00:00 CST 2018