Systems and methods for out-of band-interference mitigation

1 . A system for out-of-band interference mitigation comprising: a transmit coupler, communicatively coupled to an RF transmit signal of a communication system, that samples the RF transmit signal to create a sampled RF transmit signal; wherein the RF transmit signal has a first RF carrier frequency in a transmit band; a transmit analog canceller that transforms, according to a first configuration state, the sampled RF transmit signal to a first RF interference cancellation signal; a first receive coupler, communicatively coupled to an RF receive signal of the communication system having a second RF carrier frequency in a receive band, that combines, in order to remove a first portion of interference in the transmit band, the first RF interference cancellation signal and the RF receive signal to generate a composite RF receive signal; a sampling analog canceller that transforms, according to a second configuration state, the sampled RF transmit signal to a second RF interference cancellation signal; a cleaning coupler that combines, in order to remove interference in the transmit band, the sampled RF transmit signal and the second RF interference cancellation signal to generate a cleaned transmit signal; a first frequency downconverter that converts the cleaned transmit signal to a BB transmit signal having a BB frequency, wherein the BB frequency is less than the first RF carrier frequency; a second frequency downconverter that converts the composite RF receive signal to a composite BB receive signal; an analog-to-digital converter that converts the BB transmit signal to a digital transmit signal; a digital canceller that transforms the digital transmit signal to a digital interference cancellation signal; a digital-to-analog converter that converts the digital interference cancellation signal to a digitally-sourced interference cancellation signal; and a second receive coupler that combines, in order to remove a second portion of interference in the receive band, the digitally-sourced interference cancellation signal and the composite BB receive signal. 2 . The system of claim 1 , further comprising a tuning circuit, wherein the tuning circuit receives the composite BB receive signal from the receive path, and wherein the tuning circuit sets the first configuration state and the second configuration state based on changes in the composite BB receive signal. 3 . The system of claim 1 , wherein the transmit band and the receive band are non-overlapping. 4 . The system of claim 1 , wherein the digital canceller comprises: an adaptive filter that transforms the digital composite transmit signal into the digital cancellation signal according to a transform configuration; a receive analog-to-digital converter that converts the baseband composite receive signal to a digital feedback signal; and a transform adaptor that dynamically sets the transform configuration in response to changes in the digital feedback signal. 5 . The system of claim 1 , wherein the transmit analog canceller and the sampling analog canceller each comprise a signal divider, a set of scalers and delayers, and a signal combiner. 6 . A system for out-of-band interference mitigation comprising: a transmit coupler, communicatively coupled to a transmit signal of a communication system, that samples the transmit signal to create a sampled transmit signal; wherein the transmit signal has a first center frequency in a transmit band and a signal power in the transmit band; a first canceller that transforms the sampled transmit signal to a first interference cancellation signal and a cleaned transmit signal; wherein the cleaned transmit signal has a reduced signal power in the transmit band; a first receive coupler, communicatively coupled to a receive signal of the communication system having a second center frequency in a receive band, that combines, in order to remove a first portion of interference in the transmit band, the first interference cancellation signal and the receive signal to produce a first composite receive signal; a second canceller that generates a second interference cancellation signal based on the cleaned transmit signal; and a second receive coupler, communicatively coupled to the receive path, that combines, in order to remove a second portion of interference in the receive band, the second interference cancellation signal and the first composite receive signal; and a tuning circuit; wherein the first canceller transforms the sampled transmit signal to the first interference cancellation signal according to a configuration state; wherein the tuning circuit dynamically sets the configuration state in response to changes in the first composite receive signal. 7 . (canceled) 8 . The system of claim 6 , wherein the transmit band and the receive band are non-overlapping. 9 . The system of claim 8 , further comprising a receive-band filter, communicatively coupled to the transmit path between the transmit coupler and a transmit antenna, that filters the transmit signal to remove signal components of the transmit signal within the receive band. 10 . The system of claim 6 , wherein the transmit signal is a digital transmit signal, wherein the first canceller is a first digital canceller, wherein the first interference cancellation signal is a first digital interference cancellation signal, wherein the second canceller is a second digital canceller, and wherein the second interference cancellation signal is a second digital interference cancellation signal. 11 . The system of claim 10 , wherein the first digital canceller comprises: a signal component generation system, coupled to the digital transmit signal, that generates a set of signal components from the digital transmit signal; a multi-rate adaptive filter that transforms the set of signal components into the first digital interference cancellation signal according to a transform configuration; and a transform adaptor that dynamically sets the transform configuration in response to changes in the first composite receive signal. 12 . The system of claim 10 , further comprising: a first digital-to-analog converter (DAC) that converts the first digital interference cancellation signal to a first digitally-sourced baseband cancellation signal; and a first frequency upconverter that converts the first digitally-sourced baseband cancellation signal to a first digitally-sourced RF cancellation signal; wherein the first receive coupler combines the first digitally-sourced RF cancellation signal with the receive signal to produce the first composite receive signal. 13 . The system of claim 12 , wherein the first digital canceller further comprises a second digital-to-analog converter (DAC) and second frequency upconverter; wherein the first digital canceller generates the cleaned transmit signal by generating a transmit cancellation signal, converting the transmit cancellation signal from a digital signal to an RF signal, and combining the RF transmit cancellation signal with the transmit signal at RF; wherein the system further comprises a frequency downconverter and analog-to-digital converter (ADC) that convert the cleaned RF transmit signal to a cleaned digital transmit signal; wherein the second digital canceller generates the second digital interference cancellation signal based on the cleaned digital transmit signal. 14 . The system of claim 13 , wherein the second receive coupler combines the second digital interference cancellation signal and a digital composite receive signal; and wherein the second digital canceller generates the second digital interference cancellation s