Teaching Responsibility
LJMU Schools involved in Delivery:
LJMU Partner Taught
Learning Methods
Lecture
Practical
Tutorial
Module Offerings
6513USST-JAN-PAR
Aims
To develop knowledge and experience of analytic and simulative methods applied to
modelling of open and closed loop engineering systems with multi-physics dynamics.
Learning Outcomes
1.
Assess and apply modelling methods to derive the dynamic equations governing mechanical systems, thermal systems and fluid systems.
2.
Derive dynamic system models in State-Space or Transfer Function notation.
3.
Apply modern computer aided methods to simulate system dynamics.
4.
Design and implement open and closed loop control systems using frequency domain methods.
Module Content
Outline Syllabus:Outline syllabus
Use classical modelling methods to derive the differential equations for a dynamic system.
Apply Laplace methods to convert the governing differential equations into their Frequency Domain representations.
Apply simulation methods to solve the dynamic systems differential governing equations in the time and frequency domains.
Demonstrate an understanding about the differences between open loop and closed loop dynamic systems strategies.
Discuss the conversion of the open loop systems into their respective closed loop system formalisms.
Validate using simulation methods how this leads to improve system dynamics.
Additional Information:In this module the student develops knowledge and experience of analytic and simulative methods applied to modelling of open and closed loop engineering systems with multi-physics dynamics. The module exposes the student to modern object orientated simulation.