Course: Modelling and Simulation credits: 4
- Course code
- ELVH16AMS
- Name
- Modelling and Simulation
- Study year
- 2020-2021
- ECTS credits
- 4
- Language
- English
- Coordinator
- B.D. Williams
- Modes of delivery
-
- Lecture
- Practical / Training
- Assessments
-
- Modelling and Simulation - Assignment
Learning outcomes
- Translate a range of problems from a real-world situation into a mathematical form – i.e. a mathematical model.
- Translate a mathematical model of a real world situation into a simulation
- Translate the results of a mathematical model and simulation back to the real-life situation.
- Select the correct first order physical components for modelling a complex problem.
- Discuss the validity of a mathematical model and suggest possible improvements.
- Find the response to a step input for 1st and 2nd order systems using simulation.
- Designing control systems using simulation and keeping in mind design parameters.
- Determine the impact of discretization parameters by deriving and solving a difference equations.
- Perform simple numerical integration and differentiation using a simulation environment.
- Translate a mathematical model of a real world situation into a simulation
- Translate the results of a mathematical model and simulation back to the real-life situation.
- Select the correct first order physical components for modelling a complex problem.
- Discuss the validity of a mathematical model and suggest possible improvements.
- Find the response to a step input for 1st and 2nd order systems using simulation.
- Designing control systems using simulation and keeping in mind design parameters.
- Determine the impact of discretization parameters by deriving and solving a difference equations.
- Perform simple numerical integration and differentiation using a simulation environment.
Content
Included in programme(s)
School(s)
- Institute of Engineering