EECS2602

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 ====== Course Description ====== ====== Course Description ======
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 ===== Description  ===== ===== Description  =====
  
-The course introduces continuous-time (analogue) signals including an analysis and design of continuous-time systems. After reviewing core concepts in complex numbers, trigonometry, and functions, the course considers three alternate representations (differential equations, impulse response, and Laplace/Fourier transfer function) for linear, time invariant (LTI) systems in the continuous-time domain. The analysis of LTI systems is covered for each of the three representations. Frequency-selective filters are introduced as a special class of LTI systems for which design techniques are covered. Applications of continuous-time systems in communications and controls are also presented..  +The course introduces continuous-time (analogue) signals including an analysis and design of continuous-time systems. After reviewing core concepts in complex numbers, trigonometry, and functions, the course considers three alternate representations (differential equations, impulse response, and Laplace/Fourier transfer function) for linear, time invariant (LTI) systems in the continuous-time domain. The analysis of LTI systems is covered for each of the three representations. Frequency-selective filters are introduced as a special class of LTI systems for which design techniques are covered. Applications of continuous-time systems in communications and controls are also presented.   
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 +===== Course Learning Outcome ===== 
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 +By the end of the course, the students will be able to:  
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 +  * Describe a physical process in terms of signals and systems, and describe the properties. 
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 +  * Calculate the frequency representations of periodic and aperiodic CT signals. 
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 +  * Compute the steady state outputs of linear time-invariant systems in the continuous-time domain using three different but equivalent techniques: (i) solving differential equations, (ii) convolution with the impulse response, and; (iii) the Fourier (or, alternatively, the Laplace) transform. 
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 +  * Represent a CT linear time invariant system using its magnitude and phase spectrum. 
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 +  * Design CT frequency selective filters based on given specifications for the system. 
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 +  * Analyze practical applications in controls and communication systems using the analysis techniques covered in the course. 
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 +  * Represent CT signals/systems as discrete-time signals/systems and use MATLAB to analyze and design the CT signals/systems for selected real-world applications. 
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 +===== Lecture and Lab Time ===== 
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 +  * Lectures: Every Tuesdays and Thursdays 13:00-14:30 at CB115 
 +  * Labs: BRG 336 
 +  * LAB01, Monday 12:00-15:00 
 +  * LAB02, Friday 12:00-15:00 
 +  * LAB03, Wednesday 14:30-17:30  
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start.1482947717.txt.gz · Last modified: 2016/12/28 17:55 by egz