Radial antenna and methods for use therewith

What is claimed is: 1. A communication device comprising: a coupler configured to receive first channel signals based on guided electromagnetic waves bound to a physical structure of a transmission medium of a guided wave communication system; processing circuitry configured to select and amplify one or more of the first channel signals to generate one or more amplified first channel signals; and an antenna configured to wirelessly transmit the one or more amplified first channel signals to at least one device, the antenna comprising: a first plurality of antenna elements radially arranged at a corresponding first plurality of angles in a first plane; a second plurality of antenna elements, radially arranged at a corresponding second plurality of angles in a second plane that is angularly displaced from the first plurality of angles, wherein the second plane is vertically displaced a first distance from the first plane; a third plurality of antenna elements, radially arranged in a third plane at a corresponding third plurality of angles that is angularly displaced from the first plurality of angles and the second plurality of angles to radially overlap first beam patterns from the first plurality of antenna elements oriented at the corresponding first plurality of angles with second beam patterns from the second plurality of antenna elements oriented at the corresponding second plurality of angles and third beam patterns from the third plurality of antenna elements oriented at the corresponding third plurality of angles so that a major lobe of each of the first beam patterns is oriented at one of the corresponding first plurality of angles and falls within a major lobe of an adjacent one of the second beam patterns oriented at one of the corresponding second plurality of angles and falls within a major lobe of an adjacent one of the third beam patterns oriented at one of the corresponding third plurality of angles, wherein the third plane is displaced a second distance from the first plane; wherein the first plurality of antenna elements includes n first antenna elements, the second plurality of antenna elements includes n second antenna elements, the third plurality of antenna elements includes n third antenna elements; wherein the second plurality of angles is angularly displaced from the first plurality of angles by an angle Δθ 1 , that equals 2π/3n; and wherein the second plurality of angles is angularly displaced from the third plurality of angles by an angle Δθ 2 , that equals Δθ 1 . 2. The communication device of claim 1 , wherein the guided electromagnetic waves are guided by an outer surface of the physical structure and propagate longitudinally along the transmission medium of the guided wave communication system. 3. The communication device of claim 1 , wherein the first plane is substantially parallel to the second plane, wherein the first plurality of antenna elements is radially arranged about a central axis and wherein the second plurality of antenna elements is radially arranged about the central axis. 4. The communication device of claim 3 , wherein the second plane is displaced the first distance from the first plane along the central axis. 5. The communication device of claim 1 , wherein the first plurality of antenna elements includes n horn antennas and the second plurality of antenna elements includes n horn antennas. 6. The communication device of claim 1 , wherein the first plurality of antenna elements wirelessly receives second channel signals from the at least one device, the second plurality of antenna elements wirelessly receives third channel signals from the at least one device, and the third plurality of antenna elements wirelessly receives fourth channel signals from the at least one device. 7. A method comprising: receiving, via a waveguide system of a guided wave communication system, first channel signals based on first guided electromagnetic waves bound to a physical structure of a transmission medium of the guided wave communication system; amplifying the first channel signals to generate amplified first channel signals; and wirelessly transmitting one or more of the amplified first channel signals to at least one device via a first plurality of antenna elements radially arranged in a first plane at a corresponding first plurality of angles, via a second plurality of antenna elements, radially arranged at a corresponding second plurality of angles that is angularly displaced from the first plurality of angles in a second plane that is vertically displaced a first distance from the first plane and via a third plurality of antenna elements, radially arranged in a third plane at a corresponding third plurality of angles that is angularly displaced from the first plurality of angles and the second plurality of angles to radially overlap first beam patterns from the first plurality of antenna elements oriented at the corresponding first plurality of angles with second beam patterns from the second plurality of antenna elements oriented at the corresponding second plurality of angles and third beam patterns from the third plurality of antenna elements oriented at the corresponding third plurality of angles so that a major lobe of each of the first beam patterns is oriented at one of the corresponding first plurality of angles and falls within a major lobe of an adjacent one of the second beam patterns oriented at one of the corresponding second plurality of angles and falls within a major lobe of an adjacent one of the third beam patterns oriented at one of the corresponding third plurality of angles, wherein the third plane is displaced a second distance from the first plane; wherein the first plurality of antenna elements includes n first antenna elements, the second plurality of antenna elements includes n second antenna elements, the third plurality of antenna elements includes n third antenna elements; wherein the second plurality of angles is angularly displaced from the first plurality of angles by an angle Δθ 1 , that equals 2π/3n; and wherein the second plurality of angles is angularly displaced from the third plurality of angles by an angle Δθ 2 , that equals Δθ 1 . 8. The method of claim 7 wherein the transmission medium includes a wire and the first guided electromagnetic waves are guided by an outer surface of the wire. 9. The method of claim 7 , further comprising: wirelessly receiving second channel signals from the at least one device via the first plurality of antenna elements via the second plurality of antenna elements and via the third plurality of antenna elements; amplifying the second channel signals to generate amplified second channel signals; and guiding the amplified second channel signals to the transmission medium of the guided wave communication system to propagate as second guided electromagnetic waves. 10. An antenna comprising: a first plurality of antenna elements radially arranged in a first plane to wirelessly transmit first channel signals to a plurality of client devices of a guided wave communication system via a first plurality of beams having first beam patterns at a corresponding first plurality of angles, wherein the first channel signals are received from a physical transmission medium of the guided wave communication system; a second plurality of antenna elements, radially arranged in a second plane that is vertically displaced a first distance from the first plane, wherein the second plurality of antenna elements wirelessly transmits second channel signals to the plurality of client devices via a second plurality of beams having second beam patterns at a corresponding second plurality of angles that is angularly displaced from the