Prediction of california bearing ratio of a stabilized expansive soil using artificial neural network and support vector machine

被引:0
|
作者
Sabat, Akshaya Kumar [1 ]
机构
[1] Department of Civil Engineering, Institute of Technical Education and Research, Siksha 'O' Anusandhan University, Khandagiri Square, Bhubaneswar, India
来源
Electronic Journal of Geotechnical Engineering | 2015年 / 20卷 / 03期
关键词
Ann models - California bearing ratio - Curing periods - Expansive soils - Paper models - Predictive models - Quarry dust - SVM model;
D O I
暂无
中图分类号
学科分类号
摘要
Expansive soil possess low California bearing ratio (CBR) value other than the peculiar swell-shrink behaviour, hence it is stabilized using admixtures, to be suitable for construction of pavements. In this paper models have been developed for prediction of CBR of an expansive soil stabilized with lime and quarry dust at different curing periods, using artificial neural network (ANN) and support vector machine (SVM). The accuracy of the predictive models has been compared. It is found that both the ANN and the SVM models are very accurate in prediction of CBR of stabilized expansive soil and the performances of the SVM models are found to be better than that of the ANN models. © 2015 ejge.
引用
收藏
页码:981 / 991
相关论文
共 50 条
  • [31] A hybrid model for student grade prediction using support vector machine and neural network
    Miao, Jianjun
    JOURNAL OF INTELLIGENT & FUZZY SYSTEMS, 2021, 40 (02) : 2673 - 2683
  • [32] Estimation of California bearing ratio for hill highways using advanced hybrid artificial neural network algorithms
    Ishwor Thapa
    Sufyan Ghani
    Multiscale and Multidisciplinary Modeling, Experiments and Design, 2024, 7 : 1119 - 1144
  • [33] Estimation of California bearing ratio for hill highways using advanced hybrid artificial neural network algorithms
    Thapa, Ishwor
    Ghani, Sufyan
    MULTISCALE AND MULTIDISCIPLINARY MODELING EXPERIMENTS AND DESIGN, 2024, 7 (02) : 1119 - 1144
  • [34] Unconfined compressive strength prediction of soils stabilized using artificial neural networks and support vector machines
    Alireza TABARSA
    Nima LATIFI
    Abdolreza OSOULI
    Younes BAGHERI
    Frontiers of Structural and Civil Engineering, 2021, (02) : 520 - 536
  • [35] Unconfined compressive strength prediction of soils stabilized using artificial neural networks and support vector machines
    Tabarsa, Alireza
    Latifi, Nima
    Osouli, Abdolreza
    Bagheri, Younes
    FRONTIERS OF STRUCTURAL AND CIVIL ENGINEERING, 2021, 15 (02) : 520 - 536
  • [36] Unconfined compressive strength prediction of soils stabilized using artificial neural networks and support vector machines
    Alireza Tabarsa
    Nima Latifi
    Abdolreza Osouli
    Younes Bagheri
    Frontiers of Structural and Civil Engineering, 2021, 15 : 520 - 536
  • [37] ARTIFICIAL NEURAL NETWORK AND SUPPORT VECTOR MACHINE IN FLOOD FORECASTING: A REVIEW
    Suliman, Azizah
    Nazri, Nursyazana
    Othman, Marini
    Malek, Marlinda Abdul
    Ku-Mahamud, Ku Ruhana
    COMPUTING & INFORMATICS, 4TH INTERNATIONAL CONFERENCE, 2013, 2013, : 327 - +
  • [38] A feature weighted support vector machine and artificial neural network algorithm for academic course performance prediction
    Chenxi Huang
    Junsheng Zhou
    Jinling Chen
    Jane Yang
    Kathy Clawson
    Yonghong Peng
    Neural Computing and Applications, 2023, 35 : 11517 - 11529
  • [39] Comparison of Artificial Neural Network, Linear Regression and Support Vector Machine for Prediction of Solar PV Power
    Kuriakose, Ans Maria
    Kariyalil, Denny Philip
    Augusthy, Marymol
    Sarath, S.
    Jacob, Joffie
    Antony, Neenu Rose
    2020 IEEE PUNE SECTION INTERNATIONAL CONFERENCE (PUNECON), 2020, : 53 - 58
  • [40] A feature weighted support vector machine and artificial neural network algorithm for academic course performance prediction
    Huang, Chenxi
    Zhou, Junsheng
    Chen, Jinling
    Yang, Jane
    Clawson, Kathy
    Peng, Yonghong
    NEURAL COMPUTING & APPLICATIONS, 2023, 35 (16): : 11517 - 11529
12345