Torsional vibration analysis of shaft with multi inertias

Abstract: An analytical method is proposed to investigate the torsional vibration of the uniform circular shaft with multiple concentrated inertias. The governing equation is established based on the Hamiltonian principle and verified by the dynamical method. The theoretical solutions of frequencies and mode shapes under different boundary conditions are obtained using the separation variable method and integral transformation. The effectiveness of the proposed method is verified by comparison with existing literature. … Show more

“…In this work, we propose to use, for example, functions such as Brownian motion, fractional Levy motion, fractional color noise, fractional Gaussian noise, anti-synchronization, and others, as acting to correct or control the behavior of the simulated process [6,17,[21][22][23][24]. In this case, the spectrum of changes in the nature of dynamic processes can vary from quasiperiodic to hyper chaotic processes.…”

Deep Learning in Monitoring the Behavior of Complex Technical Systems

“…In this work, we propose to use, for example, functions such as Brownian motion, fractional Levy motion, fractional color noise, fractional Gaussian noise, anti-synchronization, and others, as acting to correct or control the behavior of the simulated process [6,17,[21][22][23][24]. In this case, the spectrum of changes in the nature of dynamic processes can vary from quasiperiodic to hyper chaotic processes.…”

Deep Learning in Monitoring the Behavior of Complex Technical Systems

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