Remote interference cancellation for communications systems

What is claimed: 1. An interference cancellation system (ICS) comprising: an interference estimation processor configured to: select a first interference estimation technique of a plurality of interference estimation techniques for estimating an interference signal that is received from a remote location, wherein the first interference estimation technique is selected based on at least a power level of the interference signal relative to a power level of a signal of interest (SOI), and generate an estimated interference signal using the first interference estimation technique; and an interference cancellation processor configured to: receive the estimated interference signal and a combined signal, wherein the combined signal comprises a combination of the interference signal and the SOI, convert the estimated interference signal and the combined signal to optical signals, apply a 180 degree phase shift to one of the estimated interference signal or the combined signal, variably attenuate and variably time delay one or more of the estimated interference signal or the combined signal, combine the estimated interference signal and the combined signal, and convert the combination of the estimated interference signal and the combined signal into a radio frequency (RF) signal. 2. The ICS according to claim 1 , wherein the interference estimation processor is configured to select a time diversity interference estimation technique as the first interference estimation technique when the power level of the interference signal exceeds the power level of the SOI by more an a threshold level. 3. The ICS according to claim 2 , wherein the interference signal corresponds to a narrowband signal with and the SOI corresponds to a wideband signal, and the narrowband interference signal is within the bandwidth of the wideband SOI. 4. The ICS according to claim 1 , wherein the interference estimation processor is configured to select a spatial diversity interference estimation technique as the first interference estimation technique when the power level of the interference signal does not exceed the power level of the SOI by more an a threshold level. 5. The ICS according to claim 4 , wherein the threshold level corresponds the power level of the interference signal being approximately ten times the power level of the SOI. 6. The ICS according to claim 4 , further comprising an antenna array comprising a plurality of antennas, wherein the interference estimation processor is configured to generate the estimated interference signal using the spatial diversity interference estimation technique based on performing an independent component analysis of the interference signal components as received via the antenna array. 7. The ICS according to claim 6 , wherein the interference estimation processor is configured to perform the independent component analysis by performing a second order decorrelation of the interference signal components as received via the antenna array. 8. The ICS according to claim 7 , wherein the interference estimation processor is configured to perform the independent component analysis by normalizing the interference signal components after performing the second order decorrelation. 9. The ICS according to claim 1 , wherein the interference cancellation processor is further configured to: determine whether the interference signal has been cancelled from the RF signal such that any remaining portions of the interference signal within the RF signal are below a threshold based on measuring a power level of the RF signal; and cancel at least one other portion of the interference signal based on another estimated interference signal received from the interference estimation processor based on the remaining portions of the interference signal within the RF signal not being below the threshold. 10. A method for cancelling interference, the method comprising: selecting a first interference estimation technique of a plurality of interference estimation techniques for estimating an interference signal that is received from a remote location, wherein the first interference estimation technique is selected based on at least a power level of the interference signal relative to a power level of a signal of interest (SOI); generating an estimated interference signal using the first interference estimation technique; receiving a combined signal, wherein the combined signal comprises a combination of the interference signal and the SOI; converting the estimated interference signal and the combined signal to optical signals, applying a 180 degree phase shift to one of the estimated interference signal or the combined signal; variably attenuating and variably time delaying one or more of the estimated interference signal or the combined signal; combining the estimated interference signal and the combined signal, and converting the combination of the estimated interference signal and the combined signal into a radio frequency (RF) signal. 11. The method according to claim 10 , wherein a time diversity interference estimation technique is selected as the first interference estimation technique when the power level of the interference signal exceeds the power level of the SOI by more an a threshold level. 12. The method according to claim 11 , wherein the interference signal corresponds to a narrowband signal with and the SOI corresponds to a wideband signal, and the narrowband interference signal is within the bandwidth of the wideband SOI. 13. The method according to claim 10 , wherein a spatial diversity interference estimation technique is selected as the first interference estimation technique when the power level of the interference signal does not exceed the power level of the SOI by more an a threshold level. 14. The method according to claim 13 , wherein generating the estimated interference signal using the spatial diversity interferences estimation technique comprises performing an independent component analysis of interference signal components received via an antenna array comprising a plurality of antennas. 15. The method according to claim 14 , wherein performing the independent component analysis comprises performing a second order decorrelation of the interference signal components. 16. The method according to claim 15 , wherein performing the independent component analysis further comprises normalizing the interference signal components after performing the second order decorrelation. 17. The method according to claim 16 , wherein performing the independent component analysis further comprises performing a fourth order decorrelation of the interference signal components after performing the second order decorrelation and normalization. 18. The method according to claim 10 , further comprising: determining whether the interference signal has been cancelled from the RF signal such that any remaining portions of the interference signal within the RF signal are below a threshold based on measuring a power level of the RF signal; and cancelling at least one other portion of the interference signal based on another estimated interference signal received based on the remaining portions of the interference signal within the RF signal not being below the threshold. 19. An interference cancellation system (ICS) comprising: an interference estimation processor configured to: select a first interference estimation technique of a plurality of interference estimation techniques for estimating an interference signal that is received fr