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Undergraduate courses taught by ISS faculty:
- EK130:Introduction to Engineering. Introduction to engineering analysis and/or design through a sequence of two modules or minicourses chosen from a selection of modules offered by participating engineering faculty. Each module presents students with key concepts and techniques relevant to an applied area of engineering.
- EK307: Electric Circuit Theory. Introduction to electric circuit analysis and design; voltage, current, and power, quantities, element I-V curves, circuit laws and theorems; energy storage; frequency domain, frequency response, and transient response; sinusoidal steady state and transfer functions; operational amplifiers, design.
- SC330: Applied Algorithms for Engineers. Introduction to the general concept of algorithms. Efficiency and run-time of algorithm. Various approaches to design of algorithms and their applications to numerous typical numerical and non-numerical problems.
- SC401: Signals and Systems. Continuous-time and discrete-time signals and systems. Convolution sum, convolution integral. Linearity, time-invariance, causality, and stability of systems. Frequency domain analysis of signals and systems. Filtering, sampling, and modulation. Laplace transform, z-transform, pole-zero plots. Linear feedback systems. Cannot be taken for credit in addition to ENG BE401.
- SC402: Control Systems. Analysis of linear feedback systems, their characteristics, performance, and stability. The Routh-Hurwitz, root-locus, Bode, and Nyquist techniques. Design and compensation of feedback control systems.
- SC415: Communications Systems. Signal analysis and transmission; amplitude modulation, angle modulation, pulse-amplitude and pulse-code modulation; amplitude shift-keying, frequency shift-keying, phase-shift keying. Case studies of practical communication systems.
- SC416: Digital Signal Processing. Introduces techniques of digital signal processing and application to deterministic as well as random signals. Topics include representation of discrete-time random signals, A/D conversion, D/A conversion, frequency domain and z-domain analysis of discrete-time signals and systems, discrete-time feedback systems, difference equation and FFT based realizations of digital filters, design of IIR Butterworth filters, window-based FIR filter design, digital filtering of random signals, FFT-based power spectrum analysis. Includes lab.
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