W.F. Kraus scite author profile

-We present optimization results obtained for two type of antennas using evolutionary algorithms. A quadrifilar helical UHF antenna is currently flying aboard NASA's Mars Odyssey spacecraft and is due to reach final Martian orbit insertion in January, 2002. Using this antenna as a benchmark, we ran experiments employing a coevolutionary genetic algorithm to evolve a quadrifilar helical design in-situ -i.e., in the presence of a surrounding structure. Results show a 93% improvement at 400 MHz and a 48% improvement at 438 MHz in the average gain. The evolved antenna is also one-fourth the size. Yagi-Uda antennas are known to be difficult to design and optimize due to their sensitivity at high gain and the inclusion of numerous parasitic elements. Our fitness calculation allows the implicit relationship between power gain and sidelobe/backlobe loss to emerge naturally, a technique that is less complex than previous approaches. Our results include Yagi-Uda antennas that have excellent bandwidth and gain properties with very good impedance characteristics. Results exceeded previous Yagi-Uda antennas produced via evolutionary algorithms by at least 7.8% in mainlobe gain.

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Evolutionary design of an X-band antenna for NASA's Space Technology 5 mission

Lohn

Linden

Hornby³

et al. 2003

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Evolvable Hardware for Space Applications

Lohn

Globus²,

Hornby³

et al. 2004

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W.F. Kraus

Comparing a coevolutionary genetic algorithm for multiobjective optimization

Evolutionary design of an X-band antenna for NASA's Space Technology 5 mission

A 64-Mb Embedded FRAM Utilizing a 130-nm 5LM Cu/FSG Logic Process

Evolutionary Optimization of Yagi-Uda Antennas

Is male back space limiting? An investigation into the reproductive demography of the giant water bug,Abedus indentatus (Heteroptera: Belostomatidae)

Evolutionary optimization of a quadrifilar helical antenna

Evolutionary design of an X-band antenna for NASA's Space Technology 5 mission

Evolvable Hardware for Space Applications

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