Comparative Analysis of the Classical and Nonclassical Artificial Neural Networks

被引:0
|
作者
Lisitsa, Daria [1 ]
Zhilenkov, Anton A. [1 ]
机构
[1] St Petersburg Natl Res Univ Informat Technol Mech, Dept Control Syst & Informat, Fac Control Syst & Robot, St Petersburg, Russia
来源
PROCEEDINGS OF THE 2017 IEEE RUSSIA SECTION YOUNG RESEARCHERS IN ELECTRICAL AND ELECTRONIC ENGINEERING CONFERENCE (2017 ELCONRUS) | 2017年
关键词
Neural networks; comparison analysis; spiking neutral networks; artificial neutral networks; NEURONS;
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
A lot of artifiicial neural networks were proposed by scientists over the last time. Each of them can cope with the tasks of limited difficulty level, determined by their properties and capabilities. The aim of this paper is to outline difference of them and to define their positive and negative sites in different tasks of identification and control.
引用
收藏
页码:922 / 925
页数:4
相关论文
共 50 条
  • [21] Grey Relational Analysis based Artificial Neural Networks for Product Design: A Comparative Study
    Lin, Yang-Cheng
    Yeh, Chung-Hsing
    ICIMCO 2015 PROCEEDINGS OF THE 12TH INTERNATIONAL CONFERENCE ON INFORMATICS IN CONTROL, AUTOMATION AND ROBOTICS, VOL. 1, 2015, : 653 - 658
  • [22] COMPARATIVE ANALYSIS OF LINEAR REGRESSION MODELS AND ARTIFICIAL NEURAL NETWORKS FOR DEPTH CHANGE PREDICTION
    Yanchin, Ivan A.
    Petrov, Oleg N.
    MARINE INTELLECTUAL TECHNOLOGIES, 2019, 3 (02): : 206 - 212
  • [23] A COMPARATIVE STUDY OF ARTIFICIAL NEURAL NETWORKS AND MULTIPLE REGRESSION ANALYSIS FOR MODELING SKIDDING TIME
    Caliskan, E.
    Sevim, Y.
    APPLIED ECOLOGY AND ENVIRONMENTAL RESEARCH, 2019, 17 (02): : 1741 - 1756
  • [24] The Influence of IT Investment on Business Performance: A Comparative Study of Regression Analysis and Artificial Neural Networks
    Hung, Shin-Yuan
    Hu, Ya-Han
    Ou, Chin-S
    Chen, Kuanchin
    Lu, Chun-Chuan
    PACIFIC ASIA JOURNAL OF THE ASSOCIATION FOR INFORMATION SYSTEMS, 2013, 5 (04): : 27 - 59
  • [25] Connections between classical car following models and artificial neural networks
    Wu, Fangyu
    Work, Daniel B.
    2018 21ST INTERNATIONAL CONFERENCE ON INTELLIGENT TRANSPORTATION SYSTEMS (ITSC), 2018, : 3191 - 3198
  • [26] Infrared spectral classification with artificial neural networks and classical pattern recognition
    Mayfield, HT
    Eastwood, D
    Burggraf, LW
    CHEMICAL AND BIOLOGICAL SENSING, 2000, 4036 : 54 - 65
  • [27] A comparative study on artificial neural networks for environmental quality assessment
    Liu, Yijun
    He, Sheng
    Wang, Yao
    Wang, Xiumei
    Computer Modelling and New Technologies, 2014, 18 (07): : 41 - 47
  • [28] Artificial Neural Networks for Finite Capacity Scheduling: A Comparative Study
    Guneri, Ali Fuat
    Gumus, Alev Taskin
    INTERNATIONAL JOURNAL OF INDUSTRIAL ENGINEERING-THEORY APPLICATIONS AND PRACTICE, 2008, 15 (04): : 349 - 359
  • [29] Artificial Neural Networks for (Automotive) Embedded Control - A Comparative Study
    Dominka, Sven
    Smith, Henrik
    Hartmann, Benjamin
    2021 IEEE 11TH ANNUAL COMPUTING AND COMMUNICATION WORKSHOP AND CONFERENCE (CCWC), 2021, : 1489 - 1494
  • [30] Comparative study on using artificial neural networks for text categorization
    Malik, AM
    Stacey, DA
    Song, F
    6TH WORLD MULTICONFERENCE ON SYSTEMICS, CYBERNETICS AND INFORMATICS, VOL VI, PROCEEDINGS: INDUSTRIAL SYSTEMS AND ENGINEERING I, 2002, : 97 - 102
12345