Electronically Steerable Antenna Using Reconfigurable Power Divider Based on Cylindrical Electromagnetic Band Gap (CEBG) Structure

What is claimed: 1 . A method for operating an agile antenna having a radial waveguide structure affixed to a central line feed, the method comprising: emitting, from the central line feed, a radio frequency (RF) signal over the radial waveguide structure, wherein a plurality of active elements are affixed to the surface of the radial waveguide structure, and wherein a plurality of radiating elements are positioned along the circumference of the radial waveguide structure; and selectively activating fewer than all of the plurality of active elements to direct the propagation of the RF signal towards fewer than all of the radiating elements, thereby beamsteering a wireless signal emitted by the agile antenna. 2 . The method of claim 1 , wherein the RF signal is propagated across de-activated ones of the plurality of active elements. 3 . The method of claim 1 , wherein the RF signal is propagated across activated ones of the plurality of active elements. 4 . The method of claim 1 , wherein the RF signal is propagated across activated ones of the plurality of active elements when the RF signal comprises a wavelength within a range of wavelengths, and wherein the RF signal is propagated across de-activated ones of the plurality of active elements when the RF signal comprises a wavelength outside the range of wavelengths. 5 . The method of claim 1 further comprising: configuring the agile antenna for horizontal polarization. 6 . The method of claim 1 further comprising: configuring the agile antenna for circular polarization. 7 . The method of claim 1 further comprising: configuring the agile antenna for elliptical polarization. 8 . The method of claim 1 further comprising: configuring the agile antenna for dual polarization using two ports. 9 . An agile antenna comprising: a radial waveguide structure including a plurality of active elements and a plurality of radiating elements, the plurality of active elements affixed to the surface of the radial waveguide structure, and the plurality of radiating elements positioned along the circumference of the radial waveguide structure; a central line feed coupled to the radial waveguide structure, the central line feed configured to emit radio frequency (RF) signal over the radial waveguide structure; and a control configured to selectively activate fewer than all of the plurality of active elements to direct the propagation of the RF signal towards fewer than all of the radiating elements, thereby beamsteering a wireless signal emitted by the agile antenna. 10 . The agile antenna of claim 9 , wherein the RF signal is propagated across de-activated ones of the plurality of active elements. ii. The agile antenna of claim 9 , wherein the RF signal is propagated across activated ones of the plurality of active elements. 12 . The agile antenna of claim 9 , wherein the RF signal is propagated across activated ones of the plurality of active elements when the RF signal comprises a wavelength within a range of wavelengths, and wherein the RF signal is propagated across de-activated ones of the plurality of active elements when the RF signal comprises a wavelength outside the range of wavelengths. 13 . The agile antenna of claim 9 , wherein the agile antenna is configured for horizontal polarization. 14 . The agile antenna of claim 9 , wherein the agile antenna is configured for circular polarization. 15 . The agile antenna of claim 9 , wherein the agile antenna is configured for elliptical polarization. 16 . The agile antenna of claim 9 , wherein the agile antenna is configured for dual polarization using two ports. 17 . An agile antenna comprising: a processor; and a non-transitory computer readable storage medium storing programming for execution by the processor, the programming including instructions to: emit, from a central line feed, a radio frequency (RF) signal over a radial waveguide structure, wherein a plurality of active elements are affixed to the surface of the radial waveguide structure, and wherein a plurality of radiating elements are positioned along the circumference of the radial waveguide structure; and selectively activate fewer than all of the plurality of active elements to direct the propagation of the RF signal towards fewer than all of the radiating elements, thereby beamsteering a wireless signal emitted by the agile antenna. 18 . The agile antenna of claim 17 , wherein the RF signal is propagated across de-activated ones of the plurality of active elements. 19 . The agile antenna of claim 17 , wherein the RF signal is propagated across activated ones of the plurality of active elements. 20 . The agile antenna of claim 17 , wherein the RF signal is propagated across activated ones of the plurality of active elements when the RF signal comprises a wavelength within a range of wavelengths, and wherein the RF signal is propagated across de-activated ones of the plurality of active elements when the RF signal comprises a wavelength outside the range of wavelengths.