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Course Criteria
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3.00 Credits
Introductory course in ocean instrumentation covering theory, design, and implementation of basic circuits through electronic subsystems used in robotic ocean instruments and autonomous underwater vehicles (AUVs). (Lec. 3) Pre: 205 and concurrent enrollment in 216.
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1.00 Credits
Introduction to the design of systems in ocean engineering featuring team-based, hands-on projects. Integrated approach includes socioeconomic, environmental, operational, and professional development aspects. (Lec. 1, Lab. 1) Pre: concurrent enrollment in 205.
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1.00 Credits
Continuation of 215 with increased project complexity and team independence. (Lec. 1, Lab. 1) Pre: 215 and concurrent enrollment in 206.
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4.00 Credits
Mathematical methods for the analysis of ocean phenomena; Fourier analysis; partial differential equations for modeling water wave and underwater acoustics; vector calculus in wave mechanics; fundamental probability theory and applied statistics. (Lec. 3) Pre: MTH 244 and OCE 205.
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3.00 Credits
Description of coastal areas, study of beach dynamics and coastal protection methods. Linearized gravity wave theory (celerity, velocity, pressure, wave groups, and wave energy). Wave transformations (reflection, refraction, diffraction, shoaling, and breaking). Waves and water-level prediction, design wave. Wave probability distributions and applied statistics. Nearshore ocean waves and currents. Littoral and sediment transport. (Lec. 3) Pre: MCE 354 and OCE 301 or permission of instructor.
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3.00 Credits
Basic ocean measurement and instrumentation exercises using boats and laboratories. Includes cruise design, navigation and mapping systems, sonar systems, water quality sensors, wave spectra, computer data acquisition, and signal processing. (Lec. 1, Lab. 2) Pre: 206 or permission of instructor.
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4.00 Credits
Exercises in basic coastal measurement from vessels, in situ, and in the laboratory. Experiments in measuring currents, surface elevation, wave and wave forces, geotechnical properties and applications, and acoustic propagation. (Lec. 2, Lab. 4) Pre: 310.
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3.00 Credits
Design of robotic ocean instrumentation systems featuring team-based, hands-on projects. Includes power, sensor, communication, propulsion, and control system design for remotely operated and autonomous ocean instruments and underwater vehicles. (Lec. 2, Lab. 3) Pre: 216 or permission of instructor.
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2.00 Credits
Introduction to professional practice in ocean engineering, including contemporary issues in the field, career planning and placement, lifelong learning strategies, professional licensure process, publication and presentation, and project management. (Lec. 2)
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3.00 Credits
Review of wave mechanics; design breaker; probability and random variables; probabilistic wave elevation height models; short-term and long-term wave statistics; probability distribution models for extreme events; selection of design waves and water levels; wave run-up and overtopping; design of rubble mound structures; design of vertical breakwaters/seawalls; wave forces on vertical piles. (Lec. 3) Pre: 307.
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