A NEW METHOD FOR CONSTRUCTING FUZZY EVIDENCE BASED ON THE NON-CONSONANT RANDOM SET  被引量：2

作　　者：Xu Xiaobin Wen Chenglin Li Zhiliang 

机构地区：[1]Institute of Information and Control, Hangzhou Dianzi University, Hangzhou 310018, China

出　　处：《Journal of Electronics(China)》2009年第1期31-37,共7页电子科学学刊（英文版）

基　　金：Supported by the National Natural Science Foundation of China (60772006) ;the Zhejiang Natural Science Foundation (R106745, Y1080422)

摘　　要：Natural-language information is often mathematically expressed by fuzzy sets. With the random set theory as a bridge, this kind of information can be transformed into fuzzy evidence in Dempster-Shafer (DS) theory. Then Dempster's combination rule or other combination rules of evi- dence can be used perfectly for fusing natural-language and other information. However, this traditional transformation involves the use of α -cutsets to construct the focal elements which have to be repre- sented as consonant sets. This construction is very inflexible and unreasonable in some practical ap- plications. In this paper, with the desire to overcome this limitation, a method for constructing more general non-consonant focal elements is proposed based on the random set theory. Some examples are given to show the generality and the efficiency of this new method. Finally, we validate that non-consonant constructions provide less degrees of total uncertainty than that of the consonant case in these examples by using the evaluation criterion of total uncertainty.Natural-language information is often mathematically expressed by fuzzy sets. With the random set theory as a bridge, this kind of information can be transformed into fuzzy evidence in Dempster-Shafer （DS） theory. Then Dempster＇s combination rule or other combination rules of evidence can be used perfectly for fusing natural-language and other information. However, this traditional transformation involves the use of α-cut sets to construct the focal elements which have to be represented as consonant sets. This construction is very inflexible and unreasonable in some practical applications. In this paper, with the desire to overcome this limitation, a method for constructing more general non-consonant focal elements is proposed based on the random set theory. Some examples are given to show the generality and the efficiency of this new method. Finally, we validate that non-consonant constructions provide less degrees of total uncertainty than that of the consonant case in these examples by using the evaluation criterion of total uncertainty.

关 键 词：Random set theory Fuzzy set Dempster-Shafer （DS） theory Target recognition 

分 类 号：TP182[自动化与计算机技术—控制理论与控制工程]