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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Undertow

Karlin, Adam 23 May 2019 (has links)
A short story collection that explores themes of culture, history, race, movement, stagnancy, and freedom. All stories are connected by elements of water, swimming, rivers, or wetlands. All contain characters seeking to escape their circumstances, with varying degrees of success. For some characters, the arc of their development lays in their movement; for others, it lays in their learning to live with a lack of movement.
2

A Comparative Performance Analysis of “Undertow” and “Xerxes” by John Mackey

Townsend, Jacqueline K. 17 March 2011 (has links)
No description available.
3

Integrace serveru Undertow se systémem Jenkins CI / Integration of Jenkins CI with Undertow

Barteček, Jakub January 2014 (has links)
This master's thesis deals with replacement of the servlet container in Jenkins CI with server Undertow. In the thesis, general information about programs, which are related to this topic, are described and current state of the servlet container is analyzed. The result is newly created servlet container for Jenkins CI. Both versions of the Jenkins CI were performance tested and the new version gave better results.
4

Numerical modeling of cross-shore sediment transport and sandbar migration

Cambazoglu, Mustafa Kemal 19 August 2009 (has links)
Nearshore processes on barred beaches are studied with a process-based numerical model. The two major goals of the study are to expand the body of knowledge about nearshore processes on barred beaches gaining a better understanding of the physical mechanisms affecting bar migration events and to enhance the numerical model in order to accomplish realistic simulations of bar migration events on storm time scales. The numerical model is used to study the effect of physical processes on the hydrodynamics and morphodynamics in the nearshore environment. The numerical model system consists of a linear spectral refraction-diffraction model, REF/DIF S, a quasi-3D nearshore circulation module, SHORECIRC, energetics-based sediment transport models, and a morphological evolution model. A laboratory experiment with an offshore bar migration case followed by an onshore bar migration case is used for modeling purposes and verifications. A number of enhancements are made to the wave and circulation modules of the numerical model system specifically for simulations on barred beaches. The model modifications and enhancements are: a combined breaking wave parameter with a spatial variation in the wave model, a method accounting for breaking wave persistence in the wave model, a method accounting for the new breaker roller lag in the wave model, the dynamic pressure component in the radiation stress forcing, a roller contribution with different depth variation options for the short wave forcing in the circulation model, wave height instead of water depth as the turbulent length scale in the eddy viscosity calculations in the circulation model, and a slope term for the default sediment transport formula. The effect of surface shape parameter and the roller face angle on radiation stress and mean water level predictions are investigated. In reality, the organized wave energy is transferred to roller development over a transition distance and the roller does not immediately contribute to the radiation stresses; therefore, showing the importance of the roller lag mechanism for mean water level predictions. The cross-shore variation of the vertical momentum balance is studied to observe the variation of forcing agents of the undertow current. The cross-shore pressure gradient is the most dominant forcing term affecting the depth structure of the undertow current. The effect of different depth variations of the roller contribution to the short wave forcing on the undertow current is investigated. The mechanism accounting for breaking wave persistence and the mechanism accounting for the roller lag are shown to be important for predictions of the undertow currents on barred beaches. The skewed wave orbital velocities are introduced to the linear wave model by an empirical parametrization method and are found to contribute strongly to the onshore bar migration. The enhancements made to the wave dissipation and roller are found to significantly affect the predicted migration of the bar as well as the maintainance of the trough.

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