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Sensors, Signals and Control
Unit information: Sensors, Signals and Control in 2019/20
Please note: Due to alternative arrangements for teaching and
assessment in place from 18 March 2020 to mitigate against the restrictions in
place due to COVID-19, information shown for 2019/20 may not always be accurate.
Please note: you are viewing unit and programme information
for a past academic year. Please see the current academic year for up to date information.
| Unit name |
Sensors, Signals and Control |
| Unit code |
AENG31300 |
| Credit points |
20 |
| Level of study |
H/6
|
| Teaching block(s) |
Teaching Block 4 (weeks 1-24)
|
| Unit director |
Professor. Steve Burrow |
| Open unit status |
Not open |
| Pre-requisites |
None
|
| Co-requisites |
None
|
| School/department |
Department of Aerospace Engineering |
| Faculty |
Faculty of Engineering |
Description including Unit Aims
An introduction to the fundamental theory of sensing and control systems in the context of aerospace engineering, including sensor types and characteristics; signal processing and core feedback control concepts.
Aims:
- To introduce the fundamentals of sensor behaviour and signal processing techniques.
- To introduce design and analysis of control systems, with particular reference to aerospace applications.
Intended Learning Outcomes
On successful completion of the unit students will:
- be able to characterise sensors and their outputs;
- be able to apply linear systems theory to signal generation and processing;
- be aware of the implications of systems which work with sampled data;
- understand the steps involved in formulating control system problems and be able to identify important system performance criteria e.g. gain and phase margin, bandwidth, steady state error and stability;
- be able to conduct outline design studies for control systems and be aware of the design trade-off inherent in specifying effective compensation schemes.
Teaching Information
- 48 Lectures of 1 hour, including review/examples classes and guest lecture/s
- Simulink lab
- Quanser control lab
Assessment Information
- 70% - 3 Hour Examination in May/June
- 15% - Sensors & Signals coursework – output from Simulink Lab
- 15% - Control coursework – output from Quanser control lab
Reading and References
- Lynn, P. An Introduction to the Analysis and Processing of Signals, Hemisphere. 9780891169819, 1989, TK5102.5 LYN
- Rangan et al Instrumentation - Devices and Systems, TK7878
- Bryson, Control of Spacecraft and Aircraft, TL3260
- James, Advanced Modern Engineering Mathematics, TA330
- Franklin et al, Feedback Control of Dynamic Systems, TJ216
- Ogata, Modern Control Engineering, Prentice Hall, TJ213OGA
- Dorf & Bishop, Modern Control Systems, Pearson, TJ213DOR
