Malaysia-Japan International, Institute of Technology (MJIIT), UTM Kuala Lumpur, Malaysia;
Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, Johor, Malaysia;
Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, Johor, Malaysia;
College of Shipbuilding Engineering, Harbin Engineering University, Heilongjiang, China;
Vibrations; Response surface methodology; Training; Tuning; Biological neural networks; Conferences;
机译:涡旋诱导的顶部张紧立管振动的简化预测模型
机译:考虑内部流动的涡旋诱导振动振动的数值预测
机译:张力提升器涡激振动的实验室测量的盲目预测
机译:涡旋诱导振动抑制提升机顶部张力的神经网络预测
机译:深水立管涡流振动的结构健康监测系统:非线性建模,盲目识别,疲劳/损伤估计和振动控制。
机译:不同雷诺数下相同剪切参数的剪切流下立管涡激振动的实验研究
机译:考虑参数激励的剪切流动中深海顶层立管的涡旋振动响应预测
机译:低压电缆动力学及声学阵列电缆涡激振动的预测