期刊文献+

Application of functional-link neural network in evaluation of sublayer suspension based on FWD test 被引量:7

Application of functional-link neural network in evaluation of sublayer suspension based on FWD test
下载PDF
导出
摘要 Several methods for evaluating the sublayer suspension beneath old pavement with falling weight deflectormeter(FWD), were summarized and the respective advantages and disadvantages were analyzed. Based on these methods, the evaluation principles were improved and a new type of the neural network, functional-link neural network was proposed to evaluate the sublayer suspension with FWD test results. The concept of function link, learning method of functional-link neural network and the establishment process of neural network model were studied in detail. Based on the old pavement over-repairing engineering of Kaiping section, Guangdong Province in G325 National Highway, the application of functional-link neural network in evaluation of sublayer suspension beneath old pavement based on FWD test data on the spot was investigated. When learning rate is 0.1 and training cycles are 405, the functional-link network error is less than 0.000 1, while the optimum chosen 4-8-1 BP needs over 10 000 training cycles to reach the same accuracy with less precise evaluation results. Therefore, in contrast to common BP neural network,the functional-link neural network adopts single layer structure to learn and calculate, which simplifies the network, accelerates the convergence speed and improves the accuracy. Moreover the trained functional-link neural network can be (adopted) to directly evaluate the sublayer suspension based on FWD test data on the site. Engineering practice indicates that the functional-link neural model gains very excellent results and effectively guides the pavement over-repairing construction. Several methods for evaluating the sublayer suspension beneath old pavement with falling weight deflectormeter(FWD), were summarized and the respective advantages and disadvantages were analyzed. Based on these methods, the evaluation principles were improved and a new type of the neural network, functional-link neural network was proposed to evaluate the sublayer suspension with FWD test results. The concept of function link, learning method of functional-link neural network and the establishment process of neural network model were studied in detail. Based on the old pavement over-repairing engineering of Kaiping section, Guangdong Province in G325 National Highway, the application of functional-link neural network in evaluation of sublayer suspension beneath old pavement based on FWD test data on the spot was investigated. When learning rate is 0.1 and training cycles are 405, the functional-link network error is less than 0.000 1, while the optimum chosen 4-8-1 BP needs over 10 000 training cycles to reach the same accuracy with less precise evaluation results. Therefore, in contrast to common BP neural network,the functional-link neural network adopts single layer structure to learn and calculate, which simplifies the network, accelerates the convergence speed and improves the accuracy. Moreover the trained functional-link neural network can be (adopted) to directly evaluate the sublayer suspension based on FWD test data on the site. Engineering practice indicates that the functional-link neural model gains very excellent results and effectively guides the pavement over-repairing construction.
作者 陈瑜 张起森
出处 《Journal of Central South University of Technology》 2004年第2期225-228,共4页 中南工业大学学报(英文版)
关键词 sublayer suspension falling weight deflectormeter deflection value functional-link neural network 亚表层悬浮液 估计 误差 神经网络 功能链接
  • 相关文献

参考文献4

二级参考文献12

  • 1[1]Mario. S. Hoffman. Comparative Study of Selected Nondestructive Testing Devices. Transportation Research Record 852
  • 2[3]费业泰.误差理论与数据处理.北京:机械工业出版社,1995
  • 3[4]林见.观测数据的处理方法.上海:上海交通大学出版社,1987
  • 4[5]孙荣桓.数理统计.重庆:重庆大学出版社,1999
  • 5唐伯明,土木工程学报,1992年,5期
  • 6侯肖松,华东公路,1989年,1期
  • 7林绣贤,柔性路面结构设计方法,1988年
  • 8JTJ059-95.公路路基路面现场测试规程.[S].,..
  • 9Ollc Tholen. Comparison of Falling Weight Deflectormeter with Other Deflectction Testing Devices. R.R.R 1007.
  • 10Mario. S. Hoffman. Comparative Study of Selected Nondestructive Testing Devices. Transportation Research Record 852.

共引文献43

同被引文献77

引证文献7

二级引证文献76

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部