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Electromechanical system (Matlab/simulink)
Consider an electromechanical motion device which actuates the load. The actuator has two independently excited stator and rotor windings as reported in the figure below. The magnetic coupling between the stator and rotor windings results in an electromagnetic torque T.. The developed torque is countered by the torsional spring which causes a counterclockwise rotation. The load torque Ti is considered. Derive the differential equations to describe the device dynamics
Also, find at least two applications of the electro-mechanical system above. Set the appropriate numerical values showing all units for all relevant system design parameters. Finally, simulate both application cases in Matlab/Simulink or Octave or Ptolemy.
Use the three-parameter zone finite element method or the boundary collocation method to calculate the stress intensity factor K, at the crack tip for the plate
Build a new and different simulation of your own using Newtons laws of motion and Show the code and describe how it works
Write the specification of LOAD MOVER detailed of the whole design and precise for automatic control section and divide the design into various modules and Is the kernel required if yes which one?
Aim of this project is to design an embedded system which can move loads from one place to another. The system can be operated manually, automatically and wirelessly.
Need an expert who can model a drill in Simulink. Working model of a drill needing for an improvment to behave more realistically as a drill to drill through plastic block.
Project is on load frequency control using FPID tuned using GA and PSO algorithm and the system is a two area system.
Let x be the number of packets received with time -
Build a Matlab based graphical user interface (GUI) that operates in conjunction with a base Matlab/ Simulink simulation program. Any base simulation is considered acceptable.
Simulate the standardised sum of independent and identically distributed variates - Fit a linear regression model as in Q5, and plot your estimates for β0 and β1 as N increases, together with a line indicating their true values. Supply your code.
Plot the original periodic square wave on the same graph. Comment on the difference between the original periodic square wave and its truncated Fourier series presentation.
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