1. Zaza, G., Hammou, A., Benchatti, A. and Saiah, H., "Fault detection method on a compressor rotor using the phase variation of the vibration signal", International Journal of Engineering-Transactions B: Applications, Vol. 30, No. 8, (2017), 1176-1181.
2. Heidari, M., "Fault detection of bearings using a rule-based classifier ensemble and genetic algorithm", International Journal of Engineering Transactions A: Basics, Vol. 30, No. 4, (2017), 604-609.
3. Eftekhari, M., "The effect of damping and stiffness of bearing on the natural frequencies of rotor-bearing system", International Journal of Engineering-Transactions C: Aspects, Vol. 30, No. 3, (2017), 448-455.
4. Smith, W.A. and Randall, R.B., "Rolling element bearing diagnostics using the case western reserve university data: A benchmark study", Mechanical Systems and Signal Processing, Vol. 64, (2015), 100-131.
5. Laha, S., "Enhancement of fault diagnosis of rolling element bearing using maximum kurtosis fast nonlocal means denoising", Measurement, Vol. 100, (2017), 157-163.
6. AlThobiani, F. and Ball, A., "An approach to fault diagnosis of reciprocating compressor valves using teager–kaiser energy operator and deep belief networks", Expert Systems with Applications, Vol. 41, No. 9, (2014), 4113-4122.
7. Jain, V.K., Collins, W.L. and Davis, D.C., "High-accuracy analog measurements via interpolated fft", IEEE Transactions on Instrumentation and Measurement, Vol. 28, No. 2, (1979), 113-122.
8. Belega, D. and Dallet, D., "Multifrequency signal analysis by interpolated dft method with maximum sidelobe decay windows", Measurement, Vol. 42, No. 3, (2009), 420-426.
9. Luo, J., Xie, Z. and Xie, M., "Frequency estimation of the weighted real tones or resolved multiple tones by iterative interpolation dft algorithm", Digital Signal Processing, Vol. 41, (2015), 118-129.
10. Kaiser, J.F., "On a simple algorithm to calculate the'energy'of a signal", in Acoustics, Speech, and Signal Processing, 1990. ICASSP-90., 1990 International Conference on, IEEE., (1990), 381-384.
11. Luo, J., Xie, Z. and Xie, M., "Interpolated dft algorithms with zero padding for classic windows", Mechanical Systems and Signal Processing, Vol. 70, (2016), 1011-1025.
12. Harris, F.J., "On the use of windows for harmonic analysis with the discrete fourier transform", Proceedings of the IEEE, Vol. 66, No. 1, (1978), 51-83.
13. Donciu, C. and Temneanu, M., "An alternative method to zero-padded dft", Measurement, Vol. 70, (2015), 14-20.
14. Borkowski, J. and Mroczka, J., "Lidft method with classic data windows and zero padding in multifrequency signal analysis", Measurement, Vol. 43, No. 10, (2010), 1595-1602.