Fractal antenna engineering: the theory and design of fractal antenna arrays 论文

1999IEEE Antennas and Propagation Magazine引用 452
Cellular Automata and ApplicationsStochastic processes and statistical mechanicsMicrowave Engineering and Waveguides

详细信息

发表期刊/会议
IEEE Antennas and Propagation Magazine
发表日期
1999-01-01
发表年份
1999

关键词

Cellular Automata and ApplicationsStochastic processes and statistical mechanicsMicrowave Engineering and Waveguides

摘要

A fractal is a recursively generated object having a fractional dimension. Many objects, including antennas, can be designed using the recursive nature of a fractal. In this article, we provide a comprehensive overview of recent developments in the field of fractal antenna engineering, with particular emphasis placed on the theory and design of fractal arrays. We introduce some important properties of fractal arrays, including the frequency-independent multi-band characteristics, schemes for realizing low-sidelobe designs, systematic approaches to thinning, and the ability to develop rapid beam-forming algorithms by exploiting the recursive nature of fractals. These arrays have fractional dimensions that are found from the generating subarray used to recursively create the fractal array. Our research is in its infancy, but the results so far are intriguing, and may have future practical applications.

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