Author:
Yang Jie,Kuang Juncheng,Liu Qun,Liu Yanmin
Abstract
A multigranulation rough set (MGRS) model is an expansion of the Pawlak rough set, in which the uncertain concept is characterized by optimistic and pessimistic upper/lower approximate boundaries, respectively. However, there is a lack of approximate descriptions of uncertain concepts by existing information granules in MGRS. The approximation sets of rough sets presented by Zhang provide a way to approximately describe knowledge by using existing information granules. Based on the approximation set theory, this paper proposes the cost-sensitive multigranulation approximation of rough sets, i.e., optimistic approximation and pessimistic approximation. Their related properties were further analyzed. Furthermore, a cost-sensitive selection algorithm to optimize the multigranulation approximation was performed. The experimental results show that when multigranulation approximation sets and upper/lower approximation sets are applied to decision-making environments, multigranulation approximation produces the least misclassification costs on each dataset. In particular, misclassification costs are reduced by more than 50% at each granularity on some datasets.
Funder
National Science Foundation of China
Excellent Young Scientific and Technological Talents Foundation of Guizhou Province
Key Cooperation Project of Chongqing Municipal Education Commission
Guizhou Provincial Science and Technology Project
Science and Technology Top Talent Project of Guizhou Education Department
Key Laboratory of Evolutionary Artificial Intelligence in Guizhou
Key Talens Program in digital economy of Guizhou Province, Electronic Manufacturing Industry University Research Base of Ordinary Colleges and Universities in Guizhou Province
Subject
Electrical and Electronic Engineering,Computer Networks and Communications,Hardware and Architecture,Signal Processing,Control and Systems Engineering