Theses most similar to those of author Timur, Mert
A parametric modelling tool for high speed displacement monohulls (2015) read it
A strip theory approximation for wave forces on submerged vehicles in finite depth water
Rybka Jan A. (Jan Andrzej) (2005)
- Advisor: Jerome Milgram
- Department of Mechanical Engineering; Department of Ocean Engineering
USe of seakeeping simulation capabilities in the preliminary phase of the design of multihull vessels
Malesci, Cosimo (2006)
- Advisors: Dick Y.P. Yue; Timothy J. Mc Coy
- Department of Mechanical Engineering
- Advisor: Dick K.P. Yue
- Department of Mechanical Engineering; Department of Ocean Engineering
- Advisor: Mark S. Welsh
- Department of Mechanical Engineering; Department of Mechanical Engineering. Center for Ocean Engineering
A tool to create hydrodynamically optimized hull-forms with geometrical constraints from internal arrangements
Nestoras, Konstantino (2013)
- Advisor: Chryssostomos Chryssostomidis
- Department of Mechanical Engineering; Engineering Systems Division
Design of a high speed planing hull with a cambered step and surface piercing hydrofoils
Faison, Leon Alexander (2014)
- Advisor: Chryssostomos Chryssostomidis
- Department of Mechanical Engineering
Design and analysis of mobile sensing systems : an environmental data collection swarm
Zoss, Brandon M (2016)
- Advisor: Dick K. P. Yue
- Department of Mechanical Engineering
CFD based design of a high speed planing hull with cambered planing surface, V-step and hydrofoil
Gray, Calley Dawn (2015)
- Advisor: Stefano Brizzolara
- Department of Mechanical Engineering
Design space exploration and optimization using modern ship design tools
Jones, Adam T. (Adam Thomas) (2014)
- Advisors: Jerod Ketcham; Patrick Hale
- Department of Mechanical Engineering; Engineering Systems Division
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