Your search keyword '"Allen, Tony Jr."' showing total 4 results

1. OPTIMIZATION OF MULTI-JUNCTION SOLAR CELL FOR SPACE APPLICATIONS MODELED WITH RUBY, MATLAB, AND SILVACO

Author

Michael, Sherif N., Porter, Matthew A., Electrical and Computer Engineering (ECE), Allen, Tony Jr., Michael, Sherif N., Porter, Matthew A., Electrical and Computer Engineering (ECE), and Allen, Tony Jr.

Abstract

The purpose of this research is to document further research into the optimization techniques investigated by James Walsh and applied to Multi-junction Solar Cells. Walsh performed his research with the Near Orthogonal Latin Hypercube (NOLH) in order to optimize the design specifications for each layer of solar cell thickness and doping concentration. Walsh at the same time evaluated cell performance under the radiation effects of the space environment. This research performed a similar analysis, except for the radiation effects, but focused more on producing an algorithm that could be executed from single user input and significantly reducing the selected design space. This research produced an efficient program that seamlessly operates between Ruby, MATLAB, and Silvaco ATLAS in order to produce an optimal designed dual-junction solar cell for space applications, in a much smaller design space than the technique utilized by Walsh., http://archive.org/details/optimizationofmu1094564137, Captain, United States Marine Corps, Approved for public release; distribution is unlimited.

Published

2020

2. OPTIMIZATION OF MULTI-JUNCTION SOLAR CELL FOR SPACE APPLICATIONS MODELED WITH RUBY, MATLAB, AND SILVACO

Author

Allen, Tony Jr., Michael, Sherif N., Porter, Matthew A., and Electrical and Computer Engineering (ECE)

Subjects

efficiency, photovoltaic modeling, radiation effects, space solar cells, optimization

Abstract

The purpose of this research is to document further research into the optimization techniques investigated by James Walsh and applied to Multi-junction Solar Cells. Walsh performed his research with the Near Orthogonal Latin Hypercube (NOLH) in order to optimize the design specifications for each layer of solar cell thickness and doping concentration. Walsh at the same time evaluated cell performance under the radiation effects of the space environment. This research performed a similar analysis, except for the radiation effects, but focused more on producing an algorithm that could be executed from single user input and significantly reducing the selected design space. This research produced an efficient program that seamlessly operates between Ruby, MATLAB, and Silvaco ATLAS in order to produce an optimal designed dual-junction solar cell for space applications, in a much smaller design space than the technique utilized by Walsh. http://archive.org/details/optimizationofmu1094564137 Captain, United States Marine Corps Approved for public release; distribution is unlimited.

Published

2019

3. OPTIMIZATION OF MULTI-JUNCTION SOLAR CELL FOR SPACE APPLICATIONS MODELED WITH RUBY, MATLAB, AND SILVACO

Author

Michael, Sherif N., Porter, Matthew A., Electrical and Computer Engineering (ECE), Allen, Tony Jr., Michael, Sherif N., Porter, Matthew A., Electrical and Computer Engineering (ECE), and Allen, Tony Jr.

Abstract

The purpose of this research is to document further research into the optimization techniques investigated by James Walsh and applied to Multi-junction Solar Cells. Walsh performed his research with the Near Orthogonal Latin Hypercube (NOLH) in order to optimize the design specifications for each layer of solar cell thickness and doping concentration. Walsh at the same time evaluated cell performance under the radiation effects of the space environment. This research performed a similar analysis, except for the radiation effects, but focused more on producing an algorithm that could be executed from single user input and significantly reducing the selected design space. This research produced an efficient program that seamlessly operates between Ruby, MATLAB, and Silvaco ATLAS in order to produce an optimal designed dual-junction solar cell for space applications, in a much smaller design space than the technique utilized by Walsh.

Published

2019

4. Benefit didn't outweigh the risk

Author

Allen, Tony, Jr.

Subjects

General interest, Military and naval science

Abstract

We had had a successful night, considering our workload. Most of our work was done for the night, but we still had to op check a couple of lights on [...]

Published

2007