Dynamically and Controllably Reconfigurable Antennas through Physical Deformation Proce... - 0 views
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MiamiOH OARS on 26 Nov 18The Air Force and the Department of Defense have need for deployable, reconfigurable, multifunctional antennas. They must be versatile, mechanically sound, and have predictable and reproducible properties. Physical reconfigurability is an especially effective means to enable such antennas. A goal is for these antennas to achieve in each configuration properties and performance over time equivalent to those of static, single-function antennas. Current approaches and capabilities do not allow for multiple-conformation, physically reconfigurable antennas to be realized fully. This research topic seeks novel approaches for physically reconfigurable hardware to complement software approaches to manipulating and adapting on-the-fly Radio Frequency (RF) properties through means of folding, deforming, and electromagnetic tuning. The end products of this approach are to be antennas and possibly other front-end RF components that provide significantly enhanced and adaptable electromagnetic capabilities compared to current devices. Mechanisms of physical reconfigurability can include, but are not limited to, approaches utilizing origami and kirigami designs.