Transmission device with mode division multiplexing and methods for use therewith

What is claimed is: 1 . An antenna system comprising: at least one antenna; at least one transceiver that facilitates modulation of data to generate a plurality of first electromagnetic waves; and a plurality of couplers that facilitates coupling at least a portion of the plurality of first electromagnetic waves to a dielectric transmission medium that facilitates wireless network connectivity via the at least one antenna, wherein the plurality of couplers generates a plurality of second electromagnetic waves that propagates on the dielectric transmission medium via differing ones of a plurality of guided wave modes. 2 . The antenna system of claim 1 wherein the plurality of guided wave modes includes a first non-fundamental mode and a second non-fundamental mode. 3 . The antenna system of claim 2 . wherein the first non-fundamental mode has a first electromagnetic field pattern that includes a first lobe at a first azimuthal orientation to a. longitudinal axis of the dielectric transmission medium and the second non-fundamental mode has a second electromagnetic field pattern that includes a second lobe at a second azimuthal orientation to the longitudinal axis of the dielectric transmission medium, and wherein the first azimuthal orientation differs from the second azimuthal orientation. 4 . The antenna system of claim 2 wherein the first non-fundamental mode has a first electromagnetic field strength that varies helically along a longitudinal axis of the dielectric transmission medium and the second non-fundamental mode has a second electromagnetic field strength that varies helically along the longitudinal axis of the dielectric transmission medium. 5 . The antenna system of claim 1 wherein a first portion of the plurality of first electromagnetic waves propagates within the dielectric transmission medium and a second portion of the plurality of first electromagnetic waves propagates outside the dielectric transmission medium. 6 . The antenna system of claim 5 wherein a first portion of the plurality of second electromagnetic waves propagates within the dielectric transmission medium and a second portion of the plurality of second electromagnetic waves propagates outside the dielectric transmission medium. 7 . The antenna system of claim 1 wherein the dielectric transmission medium facilitates the wireless network connectivity to a mobile device. 8 . A method, comprising: modulating data, by at least one transceiver, to generate a plurality of first electromagnetic waves; and coupling, by a plurality of couplers, at least a portion of each of the plurality of first electromagnetic waves onto a conductorless transmission medium that is coupled to an antenna, wherein the plurality of couplers induces a plurality of second electromagnetic waves that propagates along the conductorless transmission medium, wherein the plurality of second electromagnetic waves propagates via differing ones of a plurality of guided wave modes. 9 . The method of claim 8 wherein the plurality of guided wave modes includes a first non-fundamental mode and a second non-fundamental mode. 10 . The method of claim 9 wherein the first non-fundamental mode has a first electromagnetic field strength that varies with an azimuthal orientation to a longitudinal axis of the conductorless transmission medium and the second non-fundamental mode has a second electromagnetic field strength that varies with the azimuthal orientation to the longitudinal axis of the conductorless transmission medium. 11 . The method of claim 9 wherein the first non-fundamental mode has a first electromagnetic field pattern that includes a first lobe at a first azimuthal orientation to a longitudinal axis of the conductorless transmission medium and the second non-fundamental mode has a second electromagnetic field pattern that includes a second lobe at a second azimuthal orientation to the longitudinal axis of the conductorless transmission medium, and wherein the first azimuthal orientation differs from the second azimuthal orientation. 12 . The method of claim 11 wherein a first portion of the first electromagnetic field pattern is within the conductorless transmission medium and a second portion of the first electromagnetic field pattern is outside the conductorless transmission medium. 13 . The method of claim 9 wherein the first non-fundamental mode has a first electromagnetic field strength that varies helically along a longitudinal axis of the conductorless transmission medium and the second non-fundamental mode has a second electromagnetic field strength that varies helically along the longitudinal axis of the conductorless transmission medium. 14 . The method of claim 8 wherein the antenna provides wireless network connectivity. 15 . A transmission device comprising: at least one transceiver configured to modulate data to generate a plurality of first electromagnetic waves; and a plurality of couplers configured to couple at least a portion of the plurality of first electromagnetic waves to a conductorless transmission medium via an antenna that radiates free space wireless signals, wherein the plurality of couplers generates a plurality of mode division multiplexed second electromagnetic waves that propagates along the conductorless transmission medium. 16 . The transmission device of claim 15 wherein one of the plurality of mode division multiplexed second electromagnetic waves propagates along the conductorless transmission medium via a first non-fundamental mode and another of the plurality of mode division multiplexed second electromagnetic waves propagates along the conductorless transmission medium via a second non-fundamental mode. 17 . The transmission device of claim 16 wherein the first non-fundamental mode has a first electromagnetic field strength that varies with an azimuthal orientation to a longitudinal axis of the conductorless transmission medium and the second non-fundamental mode has a second electromagnetic field strength that varies with the azimuthal orientation to the longitudinal axis of the conductorless transmission medium. 18 . The transmission device of claim 16 wherein the first non-fundamental mode has a first electromagnetic field pattern that includes a first lobe at a first azimuthal orientation to a longitudinal axis of the conductorless transmission medium and the second non-fundamental mode has a second electromagnetic field pattern that includes a second lobe at a second azimuthal orientation to the longitudinal axis of the conductorless transmission medium, and wherein the first azimuthal orientation differs from the second azimuthal orientation. 19 . The transmission device of claim 15 wherein the free space wireless signals provide wireless network connectivity. 20 . The transmission device of claim 15 wherein the conductorless transmission medium comprises a dielectric. 21 . The transmission device of claim 15 wherein the free space wireless signals provide wireless network connectivity to a mobile device. 22 . A transmission device comprising: at least one transceiver configured to modulate data to generate a plurality of first electromagnetic waves; and a plurality of couplers configured to couple at least a portion of the plurality of first electromagnetic waves to a dielectric transmission medium at spatially diverse points along a longitudinal axis of the dielectric transmission medium, wherein the dielectric transmission medium