Continuous and discrete, periodic and aperiodic signals, impulse, unit step signals. Spectrum representation of a signal. Fourier series representation of periodic signals. System concept. Continuous and Discrete Finite Impulse Response (FIR) Systems. Linear Time Invariant (LTI) Systems. Impulse response and Frequency response of LTI systems. Fourier transform of aperiodic and periodic signals. Filtering in time and frequency domain. Sampling of continuous signals. Aliasing. Bandlimited reconstruction, interpolation. Basic Amplitude Modulation This course is also included in the core course pool of the EL and TE undergraduate programmes.

### Signals (ENS 211)

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Programs\Type | Required | Core Elective | Area Elective |

BA- Political Science | |||

BA-Cultural Studies | |||

BA-Cultural Studies | |||

BA-Economics | |||

BA-Economics | |||

BA-International Studies | |||

BA-International Studies | |||

BA-Management | |||

BA-Management | |||

BA-Political Sci.&Inter.Relat. | |||

BA-Political Sci.&Inter.Relat. | |||

BA-Social & Political Sciences | |||

BA-Visual Arts&Visual Com.Des. | |||

BA-Visual Arts&Visual Com.Des. | |||

BS-Biological Sci.&Bioeng. | |||

BS-Computer Science & Eng. | * | ||

BS-Computer Science & Eng. | * | ||

BS-Electronics Engineering | * | ||

BS-Electronics Engineering | * | ||

BS-Industrial Engineering | * | ||

BS-Manufacturing Systems Eng. | * | ||

BS-Materials Sci. & Nano Eng. | * | ||

BS-Materials Science & Eng. | * | ||

BS-Mechatronics | * | ||

BS-Mechatronics | * | ||

BS-Microelectronics | * | ||

BS-Molecular Bio.Gen.&Bioeng | |||

BS-Telecommunications | * |

### CONTENT

### OBJECTIVE

Major objectives of this course are:

1) To utilize mathematics as a tool for describing and understanding signals and systems.

2) To provide a broad introduction to signals.

3) To comprehend linear time invariant (LTI) system fundamentals both in time and frequency domains.

### LEARNING OUTCOME

Describe a periodic signal in time domain by defining its properties such as the fundamental period and fundamental frequency.

Define a periodic signal as a sum of sinusoids or complex exponentials, i.e., create the Fourier series representation of a periodic signal and reconstruct the signal back from such representation through Fourier analysis and synthesis equations.

Construct the spectrum representation of a periodic signal.

Identify Finite Impulse Response (FIR) systems, Linear Time Invariant (LTI) Systems, and their properties.

Define the impulse response of an LTI system both in continuous-time and discrete-time, and system properties such as stability and causality.

Define the frequency response of an LTI system and its properties.

Construct forward and inverse Fourier Transforms of both periodic and aperiodic continuous-time signals.

Describe ideal frequency selective filters (low-pass, high-pass, band-pass) in the frequency domain.

Perform frequency filtering over the spectrum of a signal.

Describe the Sampling Theorem and conversion between continuous time and discrete-time domains.

Describe basic principles of an Amplitude Modulation and Demodulation System.

### Update Date:

### ASSESSMENT METHODS and CRITERIA

Percentage (%) | |

Final | 37 |

Midterm | 53 |

Assignment | 10 |

### RECOMENDED or REQUIRED READINGS

Textbook |
Signal Processing First,by James H. McClellan, Ronald W. Schafer, Mark A. Yoder |