Apparatus and method of a dual polarized broadband agile cylindrical antenna array with reconfigurable radial waveguides

What is claimed is: 1. A radial waveguide structure in an antenna comprising: a first radial plate; a second radial plate substantially in parallel with the first radial plate; a plurality of conductive elements positioned vertically and distributed radially between the first radial plate and the second radial plate, wherein the conductive elements are connected to micro-strips and tunable elements; a plurality of direct current (DC) switches coupled to the tunable elements; and a plurality of quarter radio frequency (RF) chokes, wherein the RF chokes are connected to the conductive elements via the micro-strips and the tunable elements, wherein the first radial plate and the second radial plate are separated by a height determined according to a desired transmission frequency range for RF signals, a length of the micro-strips, a diameter of the conductive elements, and a diameter of a clearance space around each one of the conductive elements. 2. The radial waveguide structure of claim 1 , wherein the height is equal to about a quarter of a wavelength, the wavelength corresponding to a transmission frequency for the RF signals. 3. The radial waveguide structure of claim 1 , wherein the height of separation of the first radial plate and the second radial plate, the length of the micro-strips, the diameter of the conductive elements, and the diameter of the clearance space have dimensions determining a broadband transmission of the antenna, the broadband transmission overlapping with a frequency range from about 5 Gigahertz to about 6 Gigahertz. 4. The radial waveguide structure of claim 1 , wherein the height of separation of the first radial plate and the second radial plate, the length of the micro-strips, the diameter of the conductive elements, and the diameter of the clearance space have dimensions determining a broadband transmission of the antenna, the broadband transmission overlapping with a frequency range from about 1 Gigahertz to about 8 Gigahertz. 5. The radial waveguide structure of claim 1 , wherein the micro-strips connected to the conductive elements have variable lengths, and wherein the variable lengths of the micro-strips provide transmission over a wider range of frequencies in comparison to one length of the micro-strips. 6. The radial waveguide structure of claim 1 , wherein the tunable elements are diodes positioned between the micro-strips and the RF chokes, wherein the DC switches are coupled to a controller, the controller and the DC switches being configured to activate and deactivate the diodes, and wherein activation or deactivation of the DC switches directs propagation of the RF signals. 7. The radial waveguide structure of the claim 6 , wherein each one of the DC switches is connected to a corresponding group of the diodes and activates or deactivates all the diodes of the corresponding group. 8. The radial waveguide structure of claim 7 , wherein all activated or deactivated diodes of the corresponding group behave as a power divider determining a transmission direction and a transmission coefficient for the RF signals. 9. The radial waveguide structure of claim 6 , wherein the length of the micro-strips determines transmission of the RF signals in response to one of activating and deactivating the diodes. 10. The radial waveguide structure of claim 1 , wherein the tunable elements are micro-electromechanical systems (MEMS). 11. An antenna device comprising: a first radial waveguide structure comprising two first parallel radial plates and a plurality of first conductive elements connected to first tunable elements and positioned vertically between the two first parallel radial plates, wherein the two first parallel radial plates are separated by a height determined according to desired transmission frequency range for radio frequency (RF) signals, a diameter of the first conductive elements, and a clearance space around each one of the first conductive elements; a second radial waveguide structure comprising two second parallel radial plates and a plurality of second conductive elements connected to second tunable elements, wherein the second conductive elements have a same clearance space as the first conductive elements and are positioned vertically between the two second parallel radial plates, and wherein the two second parallel radial plates are separated by a same height of separation of the first two parallel radial plates; a plurality of direct current (DC) switches connected to the first tunable elements and the second tunable elements; and a plurality of radiating elements positioned between the first radial waveguide structure and the second radial waveguide structure, and distributed radially around a circumference of the first radial waveguide structure and a circumference of the second radial waveguide structure, wherein the first radial waveguide structure and the second radial waveguide structure are substantially in parallel. 12. The antenna device of claim 11 further comprising: a first line feed connected substantially to a center of a surface of the first radial waveguide structure and to a RF signal source; a second line feed connected to substantially a center of a surface of the second radial waveguide structure and to the RF signal source; and a controller for the DC switches, the controller enabling activating and deactivating the first tunable elements and the second tunable elements by switching the DC switches ON and OFF. 13. The antenna device of claim 12 , wherein each one of the first and second conductive elements is connected to a micro-strip and a diode, and wherein the antenna device further comprises a plurality of RF chokes, each one of the RF chokes being connected to one of the diodes. 14. The antenna device of claim 13 , wherein the same height of separation of the two first parallel radial plates and of the two second parallel radial plates is determined in accordance with a length of the micro-strip, the diameter of the first and second conductive elements, and the clearance space around each one of the first and second conductive elements. 15. The antenna device of claim 14 , wherein the height, the length of the micro-strip, the diameter of the first and second conductive elements, and the clearance space determine a broadband transmission of the antenna device, the broadband transmission overlapping with a frequency range from about 5 Gigahertz to about 6 Gigahertz. 16. The antenna device of claim 14 , wherein the height, the length of the micro-strip, the diameter of the first and second conductive elements, and the clearance space determine a broadband transmission of the antenna device, the broadband transmission overlapping with a frequency range from about 1 Gigahertz to about 8 Gigahertz. 17. The antenna device of claim 11 , wherein the DC switches are connected to corresponding groups of the first tunable elements and to corresponding groups of the second tunable elements. 18. The antenna device of claim 17 , wherein the first radial waveguide structure and the second radial waveguide structure have a diameter greater than 100 millimeters (mm), the height of separation between each one of the two first parallel radial plates and the two second parallel radial plates is equal to 10 mm, a total number of each one of the first tunable elements and the second tunable elements is 36 tunable elements, and a total number of each one of the corresponding groups of the first tunable elements and the corresponding groups of the second tunable elements is 18 groups.