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Module Specifications

Current Academic Year 2012 - 2013
Please note that this information is subject to change.

Module Title Systems Analysis
Module Code EE406
School School of Electronic Engineering
Online Module Resources

Module Co-ordinatorSemester 1: Jennifer Bruton
Semester 2: Jennifer Bruton
Autumn: Jennifer Bruton
NFQ level 8 Credit Rating 5
Pre-requisite None
Co-requisite None
Compatibles None
Incompatibles None
Description
The purpose of this module is to enable students to develop a knowledge of: system stability using frequency response methods; disturbance rejection; nonlinear frequency response, basic feedback control for continuous and discrete-time systems. Students will attain skills in using software tools to represent, analyse, interpret and design system responses. This module is delivered in both on-campus and distance learning modes and students can avail of either or both modes to suit their own learning needs. Students are expected to engage in lectures and other module activities in either or both modes.

Learning Outcomes
1. Calculate system sensitivity and disturbance rejection and the effect of feedback on these
2. Analyse system stability and performance using graphical frequency response techniques
3. Analyse the behaviour of nonlinear elements using graphical frequency and state-space response techniques
4. Design, simulate and evaluate a basic feedback control system
5. Use appropriate software tools to present, analyse, design and simulate systems
6. Effectively present and discuss the analysis and/or design of systems by written means



Workload Full-time hours per semester
Type Hours Description
Lecture24Formal lecture (recorded and made available via web)
Tutorial12Problem based learning
Laboratory18Computer-based problem solving
Examination2End-of-Semester computer-based exam
Independent learning time29Revision and practice of computer-based content for Continuous Assessment
Independent learning time40Revision of material & preparation for Examination
Total Workload: 125

All module information is indicative and subject to change. For further information,students are advised to refer to the University's Marks and Standards and Programme Specific Regulations at: http://www.dcu.ie/registry/examinations/index.shtml

Indicative Content and Learning Activities
MATLAB & SIMULINK / SCILAB & SCICOS.
Introduction to MATLAB & SIMULINK or SCILAB & SCICOS and the use of appropriate software toolboxes to address the design and analysis needs of the module..

SYSTEM SENSITIVITY.
What are sensitivity functions and how is sensitivity to errors in forward path, feedback path and frequency dependence calculated? What is disturbance rejection? What are physical examples of disturbances? How are transfer functions between disturbance and output calculated and used? How does the frequency affect disturbance rejection?.

FREQUENCY RESPONSE FOR STABILITY & PERFORMANCE.
What is a Bode plot? What is a Nyquist plot? What is the Nyquist criterion? What is relative stability? How can frequency response plots be used to determine system stability?What is bandwidth? How can time-domain performance be represented in the frequency domain? How can frequency response techniques be applied to discrete-time systems?.

FEEDBACK CONTROL DESIGN.
What is steady-state error? How can feedback control effect this error? How can a frequency response plot be used for basic feedback control design?.

NON-LINEAR SYSTEMS.
What are common types of non-linearities? How can describing functions for non-linearities be derived? What is limit cycle stability and how can it be used in describing function analysis? How can phase-plane analysis be applied to linear and non-linear systems?.

Assessment Breakdown
Continuous Assessment15% Examination Weight85%
Course Work Breakdown
TypeDescription% of totalAssessment Date
Computerised test/examIn-Semester computer-based test15%Week 9
Reassessment Requirement
Resit arrangements are explained by the following categories;
1 = A resit is available for all components of the module
2 = No resit is available for 100% continuous assessment module
3 = No resit is available for the continuous assessment component
This module is category 1
Indicative Reading List
  • Dorf, Richard, C. and Bishop, Robert H.: 2008, Modern Control Systems, 11th Ed., 1-10 and 13, Pearson Prentice Hall, Upper Saddle River, N.J., 0132451921
Other Resources
1240, Website, Jennifer Bruton, 0, EE406 Module Notes, www.eeng.dcu.ie/~ee406,
Array
Programme or List of Programmes
BSSAStudy Abroad (DCU Business School)
BSSAOStudy Abroad (DCU Business School)
ECSAStudy Abroad (Engineering & Computing)
ECSAOStudy Abroad (Engineering & Computing)
EEBEng in Electronic Engineering
HMSAStudy Abroad (Humanities & Soc Science)
HMSAOStudy Abroad (Humanities & Soc Science)
MEB.Eng. in Mechatronic Engineering
SHSAStudy Abroad (Science & Health)
SHSAOStudy Abroad (Science & Health)
Timetable this semester: Timetable for EE406
Date of Last Revision27-SEP-10
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