A doctoral thesis at the University of Basrah discussing (Nonlinear oscillation in an induction motor-based drilling system: modeling, analysis and control)
a doctoral thesis at the College of Engineering at the University of Basrah discussing (Nonlinear oscillation in a drilling system based on an induction motor: modeling, analysis and control). Several numerically different attractants. Make
Chaotic and excessively chaotic dynamics of the designed engine speed finds an effective control strategy to eliminate
these dynamics. The Constant Time Synergistic Control Technology (FTSCT) controller is designed to control Nonlinear velocity fluctuations in IFOCIM and DTC driving systems.
The thesis aims to study the nonlinear oscillation in a drilling system based on an induction motor including modeling, analysis and control.

The thesis concluded by distinguishing hyperlink diagrams and a spectrum
Lyapunov established phase images and timelines and showed various nonlinear dynamics. Moreover
The system displays the presence of several different attractants. FTSCT was used to eliminate non-linear oscillations in the . system
Drilling where the controller can eliminate non-linear oscillations within a fixed maximum time limit.