代价敏感的序贯三支决策方法

doi:10.11896／j.issn.1002-137X.2018.10.002

Abstract

Abstract: In realistic decision-making,cost-sensitive issue is one of the important factors which affects human decision-making,and many researchers are committed to reducing the cost of decision-making.At present,in the field of rough set,many researchers mainly research decision-making based on DTRS model and only consider a certain cost,which is not comprehensive enough.While sequential three-way decision model is sensitive to two kinds of costs,and the multi-level granular structure can effectively reduce the total cost of decision and can better simulate the process of human’s dynamic and gradual decision-making.Based on sequential three decision models,this paper constructed a multi-level granular structure.It relates the test cost of each attribute to its classification ability and sets the test cost from the perspective of information entropy.At the same time,combined with the sequential three decisions,the attribute reduction based on the minimum cost criterion is used to remove the influence of redundant attributes and irrelevant attributes on the cost.The experimental results on the seven UCI datasets show that while high accuracy is ensured ,the total cost of decision-making is dropped by an average of 26%,which fully validates the effectiveness of the proposed method.

Key words: Attribute reduction, Cost-sensitive, Multi-granularity, Sequential three-way decision

CLC Number:

TP181

XING Ying, LI De-yu, WANG Su-ge. Cost-sensitive Sequential Three-way Decision Making Method[J].Computer Science, 2018, 45(10): 6-10.

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References

[1]LI H X,ZHOU X Z,HUANG B,et al.Cost-sensitive three-way decision:a sequential strategy[C]∥International Conference on Rough Sets and Knowledge Technology.Berlin:Springer,2013:325-337.
[2]ZHANG Y P,ZOU H J,CHEN X,et al.Cost-sensitive three-way decisions model based on CCA[C]∥International Confe-rence on Rough Sets and Current Trends in Computing.Switzerland:Springer,2014,8536:172-180.
[3]JIAO X Y,TANG Z M,LIAO W H,et al.Minimum cost attri- bute reduction in decision-theoretic rough set models[J].Information Sciences,2013,219(1):151-167.
[4]YANG X B,QI Y S,SONG X N,et al.Test cost sensitive multigranulation rough set:model and minimal cost selection[J].Information Sciences,2013,250(11):184-199.
[5]LI H X,ZHOU X Z,ZHAO J B,et al.Cost-sensitive classification based on decision-theoretic rough set model[C]∥International Conference on Rough Sets and Knowledge Technology.Springer-Verlag,2012:379-388.
[6]JU H R,LI H X,YANG X B,et al.Cost-sensitive rough set:a multi-granulation approach[J].Knowledge-Based Systems,2017,123(9):137-153.
[7]DOU H L,YANG X B,SONG X N,et al.Decision-theoretic rough set:a multicost strategy[J].Knowledge-Based Systems,2016,91(1):71-83.
[8]JU H R,YANG X B,YU H L,et al.Cost-sensitive rough set approach[J].Information Sciences,2016,355-356(C):282-298.
[9]MIN F,LIU Q H.A hierarchical model for test-cost-sensitive decision systems[J].Information Sciences,2009,179(14):2442-2452.
[10]YAO Y Y,WONG S K M,LINGRAS P.A decision-theoretic rough set model[C]∥Proceedings of ISMIS.1990:17-25.
[11]YAO Y Y,WONG S K M.A decision theoretic framework for approximating concepts[J].International Journal of Man-Machine Studies,1992,37(6):793-809.
[12]YAO Y Y.The superiority of three-way decisions in probabilistic rough set models[J].Information Sciences,2011,181(6):1080-1096.
[13]JIA X Y,LIAO W H,TANG Z M,et al.Minimum cost attribute reduction in decision-theoretic rough set models[J].Information Sciences,2013,219(1):151-167.
[14]YAO Y Y.An outline of a theory of three-way decisions[C]∥International Conference on Rough Sets and Current Trends in Computing.Springer,2012:1-17.
[15]YAO Y Y.Three-way decisions with probabilistic rough sets[J].Information Sciences,2010,180(3):341-353.
[16]YAO Y Y.The superiority of three-way decisions in probabilistic rough set models[J].Information Sciences,2011,181(6):1080-1096.
[17]YAO Y Y.Probabilistic approaches to rough sets[J].Expert Systems,2003,20(5):287-297.
[18]YAO Y Y.Three-way decision:an interpretation of rules in rough set theory[C]∥International Conference on Rough Sets and Knowledge Technology.Springer-Verlag,2009:642-649.
[19]YAO Y Y,DENG X F.Sequential three-way decisions with probabilistic rough sets[J].Information Sciences,2010,180(3):341-353.
[20]YAO Y Y.Granular computing and sequential three-way decisions[C]∥International Conference on Rough Sets and Know-ledge Technology.Berlin:Springer,2013,8171:16-27.
[21]刘盾,李天瑞,苗夺谦,等.三支决策与粒计算[M].北京:科学出版社,2013:43-47.
[22]YANG X B,LI T R,FUJITA H,et al.A unified model of sequential three-way decisions and multilevel incremental proces-sing[J].Knowledge-Based Systems,2017,134(20):172-188.

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Cost-sensitive Sequential Three-way Decision Making Method

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