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Module Title |
Signals
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Module Code |
EE314
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School |
School of Electronic Engineering
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Online Module Resources
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| Module Co-ordinator | Dr Ronan Scaife | Office Number | S355 |
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Level |
3
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Credit Rating |
10
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Pre-requisite |
EE203
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Co-requisite |
None
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Module Aims
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To provide the student with an understanding of modelling and analysis techniques for random and deterministic signals.
To provide the student with an understanding of basic probability and random processes.
To introduce students to analogue and digital modulation schemes.
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Learning Outcomes
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Students should understand:
7 basic deterministic models for signals,
7 the application of probability theory to random signals,
7 the choice of appropriate signal models to analyse real engineering systems,
7 basic probability,
7 the concepts of random variables and random processes,
7 basic modulation schemes and some of their variants,how deterministic signals are processed by above schemes.
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Indicative Time Allowances
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Hours
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Lectures |
60
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Tutorials |
12
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Laboratories |
18
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Seminars |
0
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Independent Learning Time |
60
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Total |
150
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Placements |
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Assignments |
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NOTE
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Assume that a 10 credit module load represents approximately 150 hours' work, which includes all teaching, in-course assignments, laboratory work or other specialised training and an estimated private learning time associated with the module.
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Indicative Syllabus
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Deterministic Signals
Continuous Time Signals & Systems: The impulse function, convolution integral, convolution property of the Laplace transform, transfer functions, response of systems to complex exponential, review of Fourier Series, Fourier transform & convolution property.
Discrete Time Signals and Systems: The unit sample function, convolution summation, convolution property of Z transform, Z transfer functions, simple filter designs.
Sampling and Reconstruction: Sampling, Nyquist sampling theorem, frequency domain effects, reconstruction, the Bandlimited Interpolation Formula.
Discrete Fourier Transform: Principles and simple applications; basics of FFT algorithms.
Stochastic Signals: Stationarity and ergodicity, autocorrelation and power spectrum, Parseval's theorem, Wiener-Khintchine theorem, processing of random signals by linear systems, mean-square value of output.
Probability and Random Processes
Basic Probability: Set theory, Joint and Conditional Probability, Bayes' Theorem, Bernoulli Trials.
Random Variables: Discrete and Continuous Random Variables, Distribution and Density Functions, Common Distributions and Densities, Functions of Random Variables, Multiple Random Variables.
Random Processes: Deterministic and Nondeterministic Processes, Stationarity and Independence, Correlation Functions, Common Random Processes.
Modulation
Amplitude modulation, methods for modulation and detection, DSBSC modulation, coherent detection, squaring loop, SSB modulation and demodulation.
Angle modulation, phase modulation, frequency modulation and detection. Sampling, quantization noise compansion, pulse code modulation.
Bandpass digital communications; ASK, PSK.
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| Assessment | | Continuous Assessment | 20% | Examination Weight | 80% |
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Indicative Reading List
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Essential:
M.L. Meade, C.R. Dillon, Signals and Systems (2/E), Chapman & Hall, 1991.
Supplemental:
Peyton Z. Peebles, Jr., Probability, Random Variables, and Random Signal Processing, McGraw-Hill,1993.
A.B. Carlson, P.B. Crilly, J.C. Rutledge, Communication Systems (4/E), McGraw Hill, 2002.
S. Haykin, Communications Systems.
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Programme or List of Programmes
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| BSSA | Study Abroad (DCU Business School) |
| BSSAO | Study Abroad (DCU Business School) |
| DME | B.Eng. in Digital Media Engineering |
| ECSA | Study Abroad (Engineering & Computing) |
| ECSAO | Study Abroad (Engineering & Computing) |
| EE | BEng in Electronic Engineering |
| ES | BEng in Electronic Systems |
| HMSA | Study Abroad (Humanities & Soc Science) |
| HMSAO | Study Abroad (Humanities & Soc Science) |
| SHSA | Study Abroad (Science & Health) |
| SHSAO | Study Abroad (Science & Health) |
| TC | BEng in Telecommunications Engineering |
| Archives: | |
