Systems and methods for efficient reception and combining of similar signals received on two or more antennas

What is claimed is: 1. A radio signal processing system comprising: a first antenna; a second antenna; a switch switchably coupling the first antenna and the second antenna to a wideband multi-channel receiver; a processing unit communicatively coupled to the wideband multi-channel receiver; wherein the processing unit is configured to receive both a first signal and a second signal from the first antenna through the wideband multi-channel receiver when the system is operating in a first mode and the switch is in a first position, wherein the first signal is an instrument landing system (ILS) mode localizer signal, wherein the second signal is a VHF Omnidirectional Range (VOR) signal; wherein the processing unit is configured to receive both the first signal and the second signal from the second antenna through the wideband multi-channel receiver when the system is operating in the first mode and the switch is in a second position; wherein the processing unit is configured to receive both a third signal and the second signal from the first antenna through the wideband multi-channel receiver when the system is operating in a second mode and the switch is in the first position, wherein the third signal is a VHF Data Broadcast (VDB) signal; and wherein the processing unit is configured to receive both the third signal and the second signal from the second antenna through the wideband multi-channel receiver when the system is operating in the second mode and the switch is in the second position. 2. The system of claim 1 , wherein the first antenna is positioned at a nose of an aircraft; and wherein the second antenna is positioned at a vertical tail fin of the aircraft. 3. The system of claim 1 , wherein the first mode is an instrument landing system (ILS) mode and the second mode is a GNSS landing system (GLS) mode. 4. A method for receiving radio signals comprising: receiving an operation mode selection; when a first operation mode is selected and a switch coupled between a first antenna and a wideband multi-channel receiver is in a first position, receiving both a first signal and a second signal from the first antenna through the wideband multi-channel receiver, wherein the first signal is an instrument landing system (ILS) mode localizer signal, wherein the second signal is a VHF Omnidirectional Range (VOR) signal; when a first operation mode is selected and the switch coupled between the first antenna and the wideband multi-channel receiver is in a second position, receiving both the first signal and the second signal from the second antenna through the wideband multi-channel receiver; when a second operation mode is selected and the switch coupled between a second antenna and the wideband multi-channel receiver is in the first position, receiving both the third signal and the second signal from the first antenna through the wideband multi-channel receiver, wherein the third signal is a VHF Data Broadcast (VDB) signal; and when a second operation mode is selected and the switch coupled between the second antenna and the wideband multi-channel receiver is in the second position, receiving both the third signal and the second signal from the second antenna through the wideband multi-channel receiver. 5. The method ( 700 ) of claim 4 , wherein the first antenna ( 104 ) is positioned at a nose of an aircraft ( 100 ); and wherein the second antenna ( 106 ) is positioned at a vertical tail fin of an aircraft ( 100 ). 6. The method of claim 4 , wherein the first operation mode is an instrument landing system (ILS) mode and the second operation mode is a GNSS landing system (GLS) mode. 7. A radio signal processing system comprising: a first means for receiving wireless signals; a second means for receiving wireless signals; a means for selecting between the first means for receiving wireless signals and the second means for receiving wireless signals; a wideband multi-channel means for receiving signals from the means for selecting; a means for processing the signals received from the wideband multi-channel means for receiving the signals; wherein the means for processing is configured to receive both a first signal and a second signal from the first means for receiving wireless signals through the wideband multi-channel means for receiving signals when the system is operating in a first mode and the means for selecting is selecting the first means for receiving wireless signals, wherein the first signal is an instrument landing system (ILS) mode localizer signal, wherein the second signal is a VHF Omnidirectional Range (VOR) signal; wherein the means for processing is configured to receive both the first signal and the second signal from the second means for receiving wireless signals through the wideband multi-channel means for receiving signals when the system is operating in the first mode and the means for selecting is selecting the second means for receiving first signals wirelessly; wherein the means for processing is configured to receive both a third signal and the second signal from the first means for receiving wireless signals through the wideband multi-channel means for receiving signals when the system is operating in a second mode and the means for selecting is selecting the first means for receiving wireless signals, wherein the third signal is a VHF Data Broadcast (VDB) signal; and wherein the means for processing is configured to receive both the third signal and the second signal from the second means for receiving wireless signals through the wideband multi-channel means for receiving signals when the system is operating in the second mode and the means for selecting is selecting the second means for receiving wireless signals. 8. The system of claim 7 , wherein the first means for receiving wireless signals is positioned at a nose of an aircraft; and wherein the second means for receiving wireless signals is positioned at a vertical tail fin of the aircraft. 9. The system of claim 7 , wherein the first mode is an instrument landing system (ILS) mode and the second mode is a GNSS landing system (GLS) mode.