Teaching Responsibility
LJMU Schools involved in Delivery:
LJMU Partner Taught
Learning Methods
Lecture
Practical
Tutorial
Module Offerings
4506ICBTEL-APR-PAR
4506ICBTEL-JAN-PAR
4506ICBTEL-SEP_NS-PAR
Aims
This module will introduce the student to basics of Signals and Systems. In addition, student will be exposed to linear time-invariant systems and software packages such as Matlab to simulate signals in various conditions.
Learning Outcomes
1.
Demonstrate the basic knowledge of understanding continuous time and discrete time signals, plotting and applications.
2.
Demonstrate the basic knowledge of continuous time physical system mathematical modelling and find transfer functions.
3.
Solve problems related to time domain, frequency domain, plot CT/DT signals, DT convolution, Laplace transforms to understand the basic concepts of signals and systems.
4.
Apply Matlab or Simulink tools for analyse and simulate real signals or systems.
Module Content
Outline Syllabus:1. Introduction to CT and DT signals and systems. Discus real examples available in nature and manmade.
2. Mathematical physical modelling of CT systems
3. Laplace transformation and inverse Laplace transformation.
4. First order and second order CT transfer function for physical systems.
5. CT time response
6. CT convolution
7. DT signal and system representation and plotting.
8. DT system blocks and DT transfer function.
9. Introduction to Z- transform
10. Classification of DT systems
11. DT-Impulse response
12. Fourier series
13. Fourier transform
14. Matlab for signals or systems.
Additional Information:This content appears to be Signal & System both. Finally, student will be able to model, simulate and apply signal and systems in real engineering scenarios.