Theses most similar to Numerical and experimental analysis of initial water impact of an air-dropped REMUS AUV (Roe, Stephen Michael; 2005) read it
- Advisors: Ain A. Sonin; Jerome H. Milgram
- Department of Mechanical Engineering; Department of Ocean Engineering
- Advisors: Ain A. Sonin; Jerome Milgram
- Department of Mechanical Engineering; Department of Ocean Engineering
- Advisor: Jerome H. Milgram
- Department of Ocean Engineering
An evaluation of the predictions of near bottom interaction forces and moments on unmanned undersea vehicles : validation, reduction, and implementation of the results of a computer code into a real-time simulation
Chatterton, Jacqueline Ruth (1994)
- Advisor: Michael S. Triantafyllou
- Department of Ocean Engineering
Verification of a six-degree of freedom simulation model for the REMUS autonomous underwater vehicle
Prestero, Timothy (Timothy Jason), 1970- (2001)
- Advisors: Christopher von Alt; Jerome Milgram
- Department of Mechanical Engineering; Department of Ocean Engineering
Analysis of the operational impacts of alternative propulsion configurations on submarine maneuverability
Heberley, Brian Douglas. (2011)
- Advisor: Michael S. Triantafyllou
- Department of Mechanical Engineering
Oscillating foils for propulsion and maneuvering of ships and underwater vehicles
Read, Douglas Andrew, 1975- (2001)
- Advisor: Michael S. Triantafyllou
- Department of Ocean Engineering
Integrating a RESON 7131 forward looking sonar into the REMUS 2500 underwater autonomous vehicle
Bruss, Robert Everett (2015)
- Advisors: Camila C. Francolin; Michael J. Ricar
- Department of Mechanical Engineering
Bio-inspired pressure sensing for active yaw control of underwater vehicles
Gao, Amy (Amy Ruiming) (2013)
- Advisor: Michael S. Triantafyllou
- Department of Mechanical Engineering
Model testing and computational analysis of a high speed planing hull with cambered planing surface and surface piercing hydrofoils
Williams, Matthew Josep (2015)
- Advisors: Patrick Hale; Stefano Brizzolara; System Desig
- Department of Mechanical Engineering; Engineering Systems Division