• Padil, K.H., Bakhary, N., Abdulkareem, M., Li, J. and Hao, H., (2020). Non-probabilistic method to consider uncertainties in frequency response function for vibration-based damage detection using artificial neural network. Journal of Sound and Vibration467, (Impact factor: 3.429)- Q1

  • Abdulkareem, M., Bakhary, N., Vafaei, M., Noor, N.M. and Padil, K.H. (2018). Non-probabilistic wavelet method to consider uncertainties in structural damage detection. Journal of Sound and Vibration, 433, 77-98. (Impact factor: 3.429)- Q1

  • Padil, K.H., Bakhary, N., and Hao, H. (2017). The use of a non-probabilistic artificial neural network to consider uncertainties in vibration-based-damage detection. Mechanical Systems and Signal Processing, 83, 194-209. (Impact factor: 6.471)- Q1

  • Padil, K.H. and Bakhary, N., (2016). Comparison of statistical and non-statistical artificial neural network methods for damage detection using modal data. Mechanics of Structures and Materials XXIV, pp. 1405-1410. (Scopus)

Non- index
  • Ibrahim, I.S., Padil, K.H., Bady, H.M.A., Saim, A.A. and Sarbini, N.N., (2014). Ultimate shear capacity and failure of shear key connection in precast concrete construction. Malaysian Journal of Civil Engineering26(3).