Paper Info
Title
Reasoning From Data in the Mathematical Theory of Evidence.
Abstract
Mathematical Theory of Evidence (MTE) is known as a foundation for reasoning when knowledge is expressed at various levels of detail. Though much research effort has been committed to this theory since its foundation, many questions remain open. One of the most important open questions seems to be the relationship between frequencies and the Mathematical Theory of Evidence. The theory is blamed to leave frequencies outside (or aside of) its framework. The seriousness of this accusation is obvious: no experiment may be run to compare the performance of MTE-based models of real world processes against real world data. In this paper we develop a frequentist model of the MTE bringing to fall the above argument against MTE. We describe, how to interpret data in terms of MTE belief functions, how to reason from data about conditional belief functions, how to generate a random sample out of a MTE model, how to derive MTE model from data and how to compare results of reasoning in MTE model and reasoning from data. It is claimed in this paper that MTE is suitable to model some types of destructive processes
Year
Venue
DocType
2018
arXiv: Artificial Intelligence
Journal
Volume
Citations 
PageRank 
abs/1811.04790
0
0.34
References 
Authors
0
1
Name
Order
Citations
PageRank
Mieczyslaw A. Klopotek136678.58