Restrictions in the far-field of antennas enclosed in bodies of revolution
(2016) EITM01 20152Department of Electrical and Information Technology
- Abstract
- Antennas can be found everywhere in our everyday life. One of the applications for them are space satellites, which can be used for communication, positioning and weather supervision. A satellite carries several components on its body, such as solar panels and cameras, therefore there is a volume restriction for the antenna to fit. This requirement gives rise to restrictions in the far-field for the radiation pattern.
The objective was to implement a calculation-tool by MATLAB, where theoretical surface currents on a structure could be calculated for a required far-field for a specified antenna outline. A genetic algorithm optimization generated feasible solutions and the MATLAB-tool evaluated the cost for it by comparing a far-field... (More) - Antennas can be found everywhere in our everyday life. One of the applications for them are space satellites, which can be used for communication, positioning and weather supervision. A satellite carries several components on its body, such as solar panels and cameras, therefore there is a volume restriction for the antenna to fit. This requirement gives rise to restrictions in the far-field for the radiation pattern.
The objective was to implement a calculation-tool by MATLAB, where theoretical surface currents on a structure could be calculated for a required far-field for a specified antenna outline. A genetic algorithm optimization generated feasible solutions and the MATLAB-tool evaluated the cost for it by comparing a far-field mask with the far-field given by the feasible solution.
The analysis was performed for two structures, a cylinder and a circular disc. Solutions were found when the dimensions of the structures were large, but the cost increased when the structures diminished. The solutions that were found were theoretical and not feasible in practice. A suggestion for excluding unphysical solutions is presented with a contribution to the cost function. (Less)
Please use this url to cite or link to this publication:
http://lup.lub.lu.se/student-papers/record/8871303
- author
- Bäck, Clara LU
- supervisor
- organization
- course
- EITM01 20152
- year
- 2016
- type
- H2 - Master's Degree (Two Years)
- subject
- keywords
- Antenna pattern synthesis, body of revolution, far-field restrictions, genetic algorithm
- report number
- LU/LTH-EIT 2016-495
- language
- English
- id
- 8871303
- date added to LUP
- 2016-04-21 13:15:58
- date last changed
- 2016-04-21 13:15:58
@misc{8871303, abstract = {{Antennas can be found everywhere in our everyday life. One of the applications for them are space satellites, which can be used for communication, positioning and weather supervision. A satellite carries several components on its body, such as solar panels and cameras, therefore there is a volume restriction for the antenna to fit. This requirement gives rise to restrictions in the far-field for the radiation pattern. The objective was to implement a calculation-tool by MATLAB, where theoretical surface currents on a structure could be calculated for a required far-field for a specified antenna outline. A genetic algorithm optimization generated feasible solutions and the MATLAB-tool evaluated the cost for it by comparing a far-field mask with the far-field given by the feasible solution. The analysis was performed for two structures, a cylinder and a circular disc. Solutions were found when the dimensions of the structures were large, but the cost increased when the structures diminished. The solutions that were found were theoretical and not feasible in practice. A suggestion for excluding unphysical solutions is presented with a contribution to the cost function.}}, author = {{Bäck, Clara}}, language = {{eng}}, note = {{Student Paper}}, title = {{Restrictions in the far-field of antennas enclosed in bodies of revolution}}, year = {{2016}}, }