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Aerospace Dynamics and Control (MMME2058) Year 2 Notes
Covers the entire module of Dynamics and Control Year 2 for part of the Aerospace Engineering Course.
- Package deal
- • 17 items •
- 1 - Intro to Flight Dynamics • Class notes
- 2 - Longitudinal Flight • Class notes
- 3 - Longitudinal Modes • Class notes
- 4 - Lateral/Directional Flight • Class notes
- 5 - Lateral / Directional Modes • Class notes
- And more ….
Covers the entire module of Dynamics and Control Year 2 for part of the Aerospace Engineering Course.
Control Part of Dynamics and Control Module (MMME2058) for Aerospace Engineering BEng or MEng Y2
Notes from Control in Year 2 of the Aerospace Engineering Course. Covers: Intro; PID Control; Model-Based Control Design; Performance of PID Control & Parameter Regulation; Controller Design; Routh-Hurwitz Stability; Simplification of Control Systems; and Motor Control in Aerospace Applications.
- Package deal
- • 7 items •
- 9 - Intro to Control Systems in Aerospace • Class notes
- 10 - PID Control • Class notes
- 11 - Model-Based Control Design • Class notes
- 12 - Performance of PID Control & Parameter Regulation • Class notes
- 13 - Controller Design based on Laplace Transform for Aircraft Systems • Class notes
- And more ….
Notes from Control in Year 2 of the Aerospace Engineering Course. Covers: Intro; PID Control; Model-Based Control Design; Performance of PID Control & Parameter Regulation; Controller Design; Routh-Hurwitz Stability; Simplification of Control Systems; and Motor Control in Aerospace Applications.
16 - Motor Control in Aerospace Applications
Notes taken from lecture 16 on motor control in aerospace applications. Covers: motor types; selection criteria; laplace transform of electrical elements; analysis of a DC motor; transfer function of a motor; simplification of the transfer function; and the final value theorem.
- Package deal
- Class notes
- • 4 pages •
Notes taken from lecture 16 on motor control in aerospace applications. Covers: motor types; selection criteria; laplace transform of electrical elements; analysis of a DC motor; transfer function of a motor; simplification of the transfer function; and the final value theorem.
15 - Simplification of Control Systems
Notes taken from lecture 15 on the simplification of control systems. Covers: Block diagrams; and the various methods of simplification of block diagrams.
- Package deal
- Class notes
- • 4 pages •
Notes taken from lecture 15 on the simplification of control systems. Covers: Block diagrams; and the various methods of simplification of block diagrams.
14 - Routh-Hurwitz Stability Criterion
Notes taken from lecture 14 on the Routh-Hurwitz Stability Criterion. Covers: PID control in the time domain; determining the equation for steady-state error; determining the steady-state error; assessing control performance (rise time, overshoot, steady-state error); the Routh-Hurwitz Stability Criterion; and the Routh Table.
- Package deal
- Class notes
- • 6 pages •
Notes taken from lecture 14 on the Routh-Hurwitz Stability Criterion. Covers: PID control in the time domain; determining the equation for steady-state error; determining the steady-state error; assessing control performance (rise time, overshoot, steady-state error); the Routh-Hurwitz Stability Criterion; and the Routh Table.
13 - Controller Design based on Laplace Transform for Aircraft Systems
Notes taken from lecture 13 on 'Controller Design based on Laplace Transform for Aircraft Systems'. Covers: the reason for using the Laplace transform; laplace transform definition; key properties of laplace; transfer functions; s-domain vs time domain; and an example of aircraft roll controller design.
- Package deal
- Class notes
- • 6 pages •
Notes taken from lecture 13 on 'Controller Design based on Laplace Transform for Aircraft Systems'. Covers: the reason for using the Laplace transform; laplace transform definition; key properties of laplace; transfer functions; s-domain vs time domain; and an example of aircraft roll controller design.
12 - Performance of PID Control & Parameter Regulation
Notes taken from lecture 12 on the Performance of PID control & Parameter Regulation. Covers: the control law; proportional control; integral control; derivative control; effect of disturbance; and steps of manual parameters regulation.
- Package deal
- Class notes
- • 3 pages •
Notes taken from lecture 12 on the Performance of PID control & Parameter Regulation. Covers: the control law; proportional control; integral control; derivative control; effect of disturbance; and steps of manual parameters regulation.
11 - Model-Based Control Design
Notes from lecture 11 on Model-Based Control Design. Covers: basics of system modelling; motivations for modelling; principles of system modelling; and how to create a system model.
- Package deal
- Class notes
- • 1 pages •
Notes from lecture 11 on Model-Based Control Design. Covers: basics of system modelling; motivations for modelling; principles of system modelling; and how to create a system model.
10 - PID Control
Notes taken from lecture 10 on PID Control. Covers: control system structure; stability of a control system; and gives an example system model.
- Package deal
- Class notes
- • 3 pages •
Notes taken from lecture 10 on PID Control. Covers: control system structure; stability of a control system; and gives an example system model.
9 - Intro to Control Systems in Aerospace
Lecture notes from the introduction lecture to control systems in aerospace. Covers: control systems; and types of control systems.
- Package deal
- Class notes
- • 1 pages •
Lecture notes from the introduction lecture to control systems in aerospace. Covers: control systems; and types of control systems.