Ocean Engineering

OE 810 - Ocean Measurements Laboratory
Credits: 4.00
Measurements of fundamental ocean processes and parameters. Emphasis on understanding typical offshore measurements, their applications, and the use of the acquired data. The latter is in terms of the effects on structures and processes in the ocean.

OE 844 - Corrosion
Credits: 4.00
The course is split into three parts: (1) reviews and develops basic concepts of electrochemistry, kinetics, and measurement methods; (2) covers the details of specific corrosion mechanisms and phenomena including passivity, galvanic corrosion, concentration cell corrosion, pitting and cervice corrosion, and environmentally induced cracking; and (3) focuses on the effects of metallurgical structure on corrosion, corrosion in selected environments, corrosion prevention methods, and materials selection and design. Prereq: general chemistry, introduction to materials science or permission. (Also offered as MS 844.) Lab.

OE 845 - Environmental Acoustics I: Air and Water
Credits: 4.00
Sound and vibration; simple harmonic oscillators; characteristics and measurements of sound sources and receivers; acoustic wave equation (1D, 2D, 3D); sound reflection, transmission, refraction, and absorption in various media; room acoustics; basic sonar equation. Prereq: Physics II; Differential Equations w/Linear Algebra; Engineering Analysis, or permission. Lab. (Also listed as ECE 845.)

OE 854 - Ocean Waves and Tides
Credits: 4.00
Introduction to waves: small-amplitude, linear wave theory, standing and propagating waves, transformation in shallow water, energy and forces on structures, generation by wind and specification of a random sea, long waves with rotation, and internal waves. Introduction to tides: description of tides in ocean tidal generation forces, equilibrium tide, and tidal analysis. Lab/project: field and lab measurements with computer analysis. Prereq: general physics; differential equations;/ or permission. Lab.

OE 856 - Principles of Naval Architecture and Model Testing
Credits: 4.00
Fundamentals of naval architecture presented including hydrostatics, basics of resistance and propulsion, sea keeping and scaling. Concepts applied in experiments utilizing the tow/wave tank and associated instrumentation. Prereq: fluid dynamics, mechanics III, or equivalent. Lab.

OE 857 - Coastal Engineering and Processes
Credits: 3.00
Introduction to small-amplitude and finite-amplitude wave theories. Wave forecasting by significant wave method and wave spectrum method. Coastal processes and shoreline protection. Wave forces and wave structure interaction. Introduction to mathematical and physical modeling. Prereq: fluid dynamics or permission. (Also offered as CIE 857 and ME 857.)

OE 867 - Interactive Data Visualization
Credits: 3.00
Detailed discussion of how an understanding of human perception can help us design better interactive displays of data. Topics include: color, space perception, object perception and interactive techniques. Students write interactive programs, give presentations and undertake a project designing and evaluating a novel display technique. Prereq: Introductory level C or C++ programming course. (Also listed as CS 867.)

OE 870 - Introduction to Ocean Mapping
Credits: 4.00
An introduction to the principles and practices of hydrography and ocean mapping. Methods for the measurement and definition of the configuration of the bottoms and adjacent land areas of oceans, lakes, rivers, estuaries, harbors and other water areas, and the tides or water levels and currents that occur in those bodies of water. Prereq: college physics. (Also listed as ESCI 870.) Lab.

OE 871 - Geodesy and Positioning for Ocean Mapping
Credits: 3.00
The science and technology of acquiring, managing, and displaying geographically referenced information; the size and shape of the earth, datums and projections; determination of precise positioning of points on the earth and the sea, including classical terrestrial-based methods and satellite-based methods; shoreline mapping, nautical charting and electronic charts. Prereq: one year of calculus and one year of college physics. (Also listed as ESCI 871.)

OE 885 - Environmental Acoustics II: Air and Water
Credits: 4.00
General sonar equation: active, passive; sound generation, source level, directivity, calibration methods; sound propagation, rays and normal modes, acoustic waveguides; transmission loss, reverberation, scattering; ambient noise characteristics and measurements; sound reception and processing. Prereq: Environmental Acoustics I: Air and Water or permission. Lab. (Also listed as ECE 885.)

OE 895 - Special Topics
Credits: 2.00 to 4.00
New or specialized courses and/or independent study. May be repeated for credit.

OE 899 - Master's Thesis
Credits: 1.00 to 6.00
Cr/F.

OE 954 - Ocean Waves and Tides II
Credits: 4.00
Continuation of ocean waves and tides. Topics include nonlinear wave theory, long wave (tidal) equations with Coriolis acceleration and friction, turbulence, Reynold's stress, and estuarine fronts. Random seas studied with consideration of wave spectra, generation of random seas for numerical and physical modeling, and the response of marine vehicles and structures to wave loading. Prereq: OE 854.

OE 956 - Dynamics of Moored Systems
Credits: 4.00
Dynamic response to floating and submerged moored systems to currents and wave spectra studied. Examples include buoys, moored platforms, and ocean net pens. Prereq: OE 856 or permission.

OE 972 - Hydrographic Field Course
Credits: 4.00
A lecture, lab, and field course on the methods and procedures for the acquisition and processing of hydrographic and ocean mapping data. Practical experience in planning and conducting hydrographic surveys. Includes significant time underway (day trips and possible multi-day cruises) aboard survey vessel(s). Prereq: Introduction to Ocean Mapping, Geodesy and Positioning for Ocean Mapping; or permission. (Also listed as ESCI 972.)

OE 973 - Seafloor Characterization
Credits: 3.00
Remote characterization of seafloor properties using acoustic (echo sounders, sub-bottom profilers, side-scan, multibeam and interferometric sonars) and optical (video and laser linescanner) methods. Models of sound interaction with the seafloor will be explored as well as a range of possible geologic, geotechnical, morphologic, acoustic, and biologic descriptors. Prereq: permission. (Also listed as ESCI 973.)

OE 990 - Ocean Seminars I
Credits: 1.00
Various topics, including marine systems design, marine vehicle operation, data collecting and processing, and marine law. Cr/F.

OE 991 - Ocean Seminars II
Credits: 1.00
See description for OE 990. Cr/F.

OE 995 - Graduate Special Topics
Credits: 2.00 to 4.00
Investigation of graduate-level problems or topics in ocean engineering. May be repeated for a maximum of 16 credits.

OE 998 - Independent Study
Credits: 1.00 to 4.00
Independent theoretical and/or experimental investigation of an ocean engineering problem under the guidance of a faculty member.

OE 999 - Doctoral Research
Credits:
Cr/F.