Mitigation of polarization mismatch between reflector and feed antennas by feed predistortion

What is claimed is: 1. A method comprising: configuring a horn-type feed unit of a reflector antenna system to generate a first wave having a first polarization; determining a polarization mismatch between the first polarization of the first wave generated by the feed unit and a second polarization associated with a reflector unit of the reflector antenna system; pre-distorting the first wave to achieve a compensated polarization for reducing and/or eliminating the polarization mismatch by disposing a first pin through a first interior side of the feed unit, disposing a second pin through a second interior side of the feed unit, and exciting the first pin and the second pin to generate the first wave with the compensated polarization, and wherein the second interior side is orthogonal to the first interior side; illuminating the reflector unit with the pre-distorted first wave having the compensated polarization; reflecting, by the reflector unit, at least a re-radiated wave; determining at least one property of one or more of the first wave, the pre-distorted first wave, the re-radiated wave, a scattered wave reflected by the reflector unit, and a specular wave reflected by the reflector unit; and adjusting the pre-distorting of the first wave based on the determined at least one property; and wherein a level of the re-radiated wave is increased as a result of the pre-distortion. 2. The method of claim 1 , wherein exciting the first pin and the second pin comprises: applying a first electric field having a predetermined amplitude and phase to the first pin; and applying a second electric field having a predetermined amplitude and phase to the second pin. 3. The method of claim 1 , further comprising: retrieving an axial ratio associated with the reflector unit; and pre-distorting the first polarization based, at least in part, on the retrieved axial ratio. 4. An apparatus comprising: a horn-type feed unit, including a first pin disposed through a first interior side of the feed unit, and a second pin disposed through a second interior side of the feed unit, the second interior side being orthogonal to the first interior side; a reflector unit; a controller configured to excite the first pin and the second pin to generate the first wave having the compensated polarization; and one or more sensors; and wherein the feed unit is configured to generate a first wave having a first polarization, wherein the reflector unit is configured to reflect at least a re-radiated wave, wherein the re-radiated wave reflects a second polarization associated with the reflector unit, the second polarization being mismatched relative to the first polarization, wherein the feed unit is configured to pre-distort the first wave to achieve a compensated polarization for reducing and/or eliminating the polarization mismatch, and to output the pre-distorted first wave having the compensated polarization, wherein the one or more sensors is/are configured to determine at least one property of one or more of the first wave, the pre-distorted first wave, the re-radiated wave, a scattered wave reflected by the reflector unit, and a specular wave reflected by the reflector unit; and wherein the controller is configured to adjust the pre-distorting of the first wave based on the determined at least one property, and wherein a level of the re-radiated wave is increased as a result of the pre-distortion. 5. The apparatus of claim 4 , wherein the controller is further configured to apply a first electric field having a predetermined amplitude and phase to the first pin; and apply a second electric field having a predetermined amplitude and phase to the second pin. 6. The apparatus of claim 4 , wherein the feed unit is configured to determine the polarization mismatch based, at least in part, on an axial ratio associated with the reflector unit.