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Course Criteria
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3.00 Credits
Prerequisites: EEL 3473; EEL 3512. This course introduces basic concepts of sonar systems including acoustic propagation, transducers and projectors, target strength, reverberation, beamsteering, beamforming, beampatterns, and synthetic aperture sonar.
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1.00 Credits
Prerequisite: EEL3473. Applications of electromagnetic field theory. Experiments include field mapping, transmission lines, spectrum analysis, impedance matching, waveguides, antennas, radar, and fiber optics.
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3.00 Credits
Prerequisites: EEL 3473; EEL 3512. This course examines the basic concepts of optical sensors and essential optics. Topics include intensity, phase, and frequency modulated optical fiber sensors and their applications, distributive sensing systems and optical fibers in signal processing.
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3.00 Credits
3. Prerequisite: EEL3473. Antenna theory, including Hertzian dipoles, thin linear antennas, aperture antennas, arrays, loop antennas, slots, horns, and waveguides.
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3.00 Credits
Prerequisite: EEL 3135. Sinusoids, periodic signals, and Fourier spectra. Sampling of continuous-time signals, aliasing. Impulse response of linear, discrete-time systems, convolution. FIR filters and implementation. Frequency response of FIR filters. Z-transforms. IIR filters, poles and zeros, frequency response. Realization of IIR filters. Discrete Fourier transform and the FFT algorithm. MATLAB exercises are assigned.
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3.00 Credits
Prerequisite: EEL3512. Sampling principle, spectral analysis of digital waveforms and noise, pulse and digital transmission systems, digital multiplexing, error probabilities, and system performance.
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3.00 Credits
Prerequisites: EEL 3512; EEL 3473. Basic concepts of radar systems including: radar range equation, radar cross section calculations, random processes and noise, array antennas, beamsteering, droppler and range processing, FM and CW systems, pulse compression, synthetic aperture radar, clutter.
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3.00 Credits
Prerequisites: EEL 3473; EEL 3512. This course offers a review of the characteristics of basic optical components for optical communications systems. Topics include optical fibers, light sources, optical detectors and fiber connectors, signal degradation in optical fibers, optical analog and digital communication systems; and coherent optical fiber communications.
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3.00 Credits
Prerequisites: CGS 3408 or equivalent; EEL 3135; EEL 3512, EEL 4021. This course covers the fundamentals of wireless communications and systems. The core topics include radio-wave propagation characteristics of wireless channels; modulation and demodulation techniques for mobile radio; reception techniques for wireless systems; fundamentals of cellular communications; multiple access techniques; wireless networking; and hybrid networking of a wireless system and the Internet.
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3.00 Credits
Prerequisites: EEL 3512; EEL 4021. This course is designed to provide an in-depth knowledge of some of the advanced topics in communications, Topics covered include ideal communication systems, signal to noise ratio (S/N) for amplitude and angle modulation, design of systems to improve S/N ratio, satellite communication, and mobile communication.
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