Estimation of the damping model of a spur gear pair system including a time-varying loading
Copyright policy )Estimation of the damping model of a spur gear pair system including a time-varying loading
The integral method was used in a previous research to identify the damping model but this technique has some limitations in estimating the damping model in a gear system including time-varying loading conditions. To overcome these limitations, the integral method is reformulated in this research to identify the damping model on spur gear pair system including variable loading. The motion equations presented in terms of integrals, including time-varying loading conditions, are solved by linear least squares method to characterise the constant piecewise model. Continuous wavelet transform method is used to validate the constant damping model. The new methodology is tested with a signal obtained from numerical simulation.
- University of Sfax Tunisia
- Tunis University Tunisia
- Tunis El Manar University Tunisia
Iterative Learning Control in Engineering Practice, Spur Gear, Artificial intelligence, Time-varying loading conditions, Wavelet demodulation, FOS: Mechanical engineering, Structural engineering, Control (management), Mathematical analysis, Engineering, Control theory (sociology), FOS: Mathematics, Materials of engineering and construction. Mechanics of materials, Gear system, Damping model, Mechanical Engineering, Gear Dynamics, Applied mathematics, Computer science, Programming language, Dynamics and Faults in Gear Systems, Control and Systems Engineering, Piecewise, Physical Sciences, TA401-492, Spur gear, Integral method, Surface Texturing for Tribology, Wavelet, Mathematics, Constant (computer programming)
Iterative Learning Control in Engineering Practice, Spur Gear, Artificial intelligence, Time-varying loading conditions, Wavelet demodulation, FOS: Mechanical engineering, Structural engineering, Control (management), Mathematical analysis, Engineering, Control theory (sociology), FOS: Mathematics, Materials of engineering and construction. Mechanics of materials, Gear system, Damping model, Mechanical Engineering, Gear Dynamics, Applied mathematics, Computer science, Programming language, Dynamics and Faults in Gear Systems, Control and Systems Engineering, Piecewise, Physical Sciences, TA401-492, Spur gear, Integral method, Surface Texturing for Tribology, Wavelet, Mathematics, Constant (computer programming)
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