Self-Organizing and Error Driven (SOED) artificial neural network for smarter classifications

被引:17
作者
Jafari-Marandi, Ruholla [1 ]
Khanzadeh, Mojtaba [1 ]
Smith, Brian K. [1 ]
Bian, Linkan [1 ]
机构
[1] Mississippi State Univ, Dept Ind & Syst Engn, 260 McCain Engn Bldg, Mississippi State, MS 39762 USA
来源
JOURNAL OF COMPUTATIONAL DESIGN AND ENGINEERING | 2017年 / 4卷 / 04期
关键词
Classification; Artificial Neural Network (ANN); Self-Organizing Map (SOM); SEMI-SUPERVISED CLASSIFICATION; SUPPORT VECTOR MACHINES; MULTILAYER PERCEPTRON; PATTERN-RECOGNITION; DECISION-SUPPORT; MAP SOM; PREDICTION; DESIGN; MODEL; METHODOLOGY;
D O I
10.1016/j.jcde.2017.04.003
中图分类号
TP39 [计算机的应用];
学科分类号
081203 ; 0835 ;
摘要
Classification tasks are an integral part of science, industry, business, and health care systems; being such a pervasive technique, its smallest improvement is valuable. Artificial Neural Network (ANN) is one of the strongest techniques used in many disciplines for classification. The ANN technique suffers from drawbacks such as intransparency in spite of its high prediction power. In this paper, motivated by learning styles in human brains, ANN's shortcomings are assuaged and its prediction power is improved. Self Organizing Map (SOM), an ANN variation which has strong unsupervised power, and Feedforward ANN, traditionally used for classification tasks, are hybridized to solidify their benefits and help remove their limitations. The proposed method, which we name Self-Organizing Error-Driven (SOED) Artificial Neural Network, shows significant improvements in comparison with usual ANNs. We show SOED is a more accurate, more reliable, and more transparent technique through experimentation with five different datasets. (C) 2017 Society for Computational Design and Engineering. Publishing Services by Elsevier.
引用
收藏
页码:282 / 304
页数:23
相关论文
共 50 条
[41]   Nonlinear systems modelling based on self-organizing fuzzy neural network with hierarchical pruning scheme [J].
Zhou, Hongbiao ;
Zhang, Yu ;
Duan, Weiping ;
Zhao, Huanyu .
APPLIED SOFT COMPUTING, 2020, 95
[42]   Fault Diagnosis in Induction Motors Using Self-Organizing Neural Networks and Quantization Error [J].
Bossio, Jose M. ;
Bossio, Guillermo R. ;
De Angelo, Cristian H. .
2017 XVII WORKSHOP ON INFORMATION PROCESSING AND CONTROL (RPIC), 2017,
[43]   A principal components analysis self-organizing neural network model and computational experiment [J].
Nong, Jifu .
PROCEEDINGS OF THE 2ND INTERNATIONAL CONFERENCE ON COMPUTER AND INFORMATION APPLICATIONS (ICCIA 2012), 2012, :859-862
[44]   Design of a Self-organizing Recurrent RBF Neural Network Based on Spiking Mechanism [J].
Lu Chao ;
Han Honggui ;
Qiao Junfei ;
Yang Cuili .
PROCEEDINGS OF THE 35TH CHINESE CONTROL CONFERENCE 2016, 2016, :3624-3629
[45]   Design of self-organizing fuzzy neural network based on hybrid evaluation index [J].
Qiao J. ;
He Z. ;
Du S. .
Huagong Xuebao/CIESC Journal, 2019, 70 (07) :2606-2615
[46]   Prediction of activated sludge bulking based on a self-organizing RBF neural network [J].
Han, Hong-Gui ;
Qiao, Jun-Fei .
JOURNAL OF PROCESS CONTROL, 2012, 22 (06) :1103-1112
[47]   A three-layered self-organizing map neural network for clustering analysis [J].
Chi, SC ;
Lee, CC ;
Yang, TC .
7TH WORLD MULTICONFERENCE ON SYSTEMICS, CYBERNETICS AND INFORMATICS, VOL VIII, PROCEEDINGS, 2003, :148-153
[48]   Nonlinear Dynamics Analysis of a Self-Organizing Recurrent Neural Network: Chaos Waning [J].
Eser, Juergen ;
Zheng, Pengsheng ;
Triesch, Jochen .
PLOS ONE, 2014, 9 (01)
[49]   SELF-ORGANIZING NEURAL-NETWORK-BASED CLUSTERING METHOD WITH FUZZY OUTPUTS [J].
PHAM, DT ;
BAYROCORROCHANO, EJ .
PATTERN RECOGNITION, 1994, 27 (08) :1103-1110
[50]   Incremental Learning with Self-Organizing Neural Grove [J].
Miyakoda, Tomohiro ;
Inoue, Hirotaka .
2014 JOINT 7TH INTERNATIONAL CONFERENCE ON SOFT COMPUTING AND INTELLIGENT SYSTEMS (SCIS) AND 15TH INTERNATIONAL SYMPOSIUM ON ADVANCED INTELLIGENT SYSTEMS (ISIS), 2014, :526-529
12345