Nonlinear filtering using polyphase filter banks

What is claimed is: 1. A method for analyzing an input signal, the method comprising: receiving the input signal at an analysis filter system comprising a plurality of analysis filter banks corresponding to a plurality of orders of nonlinearity, wherein the input signal has a bandwidth; and decomposing, by each of the plurality of analysis filter banks, the input signal into a plurality of output subband signals to form a nonlinear component of the input signal that corresponds to a corresponding order of nonlinearity in the plurality of orders of nonlinearity of the each of the plurality of analysis filter banks, wherein each of the plurality of output subband signals is for a different frequency subband within the bandwidth of the input signal. 2. The method of claim 1 , wherein decomposing, by the each of the plurality of analysis filter banks, the input signal into the plurality of output subband signals comprises: decomposing, by a first order analysis filter bank in the plurality of analysis filter banks corresponding to a first order of nonlinearity, the input signal into a plurality of first order subband signals to form a first order nonlinear component of the input signal. 3. The method of claim 1 , wherein decomposing, by the each of the plurality of analysis filter banks, the input signal into the plurality of output subband signals comprises: decomposing, by a second order analysis filter bank in the plurality of analysis filter banks corresponding to a second order of nonlinearity, the input signal into a plurality of second order subband signals to form a second order nonlinear component of the input signal. 4. The method of claim 1 , wherein decomposing, by the each of the plurality of analysis filter banks, the input signal into the plurality of output subband signals comprises: decomposing, by an i th order analysis filter bank in the plurality of analysis filter banks corresponding to an i th order of nonlinearity, the input signal into a plurality of i th order subband signals to form an i th order nonlinear component of the input signal. 5. The method of claim 4 , wherein decomposing, by the i th order analysis filter bank in the plurality of analysis filter banks corresponding to the i th order of nonlinearity, the input signal into the plurality of i th order subband signals to form the i th order component of the input signal comprises: performing a number of layers of processing to form the plurality of i th order subband signals, wherein each of the number of layers includes a sub-layer of filtering and a subsequent sub-layer of modulation and wherein the number of layers is equal in number to i. 6. The method of claim 1 further comprising: receiving an analog signal at an analog to digital converter; and converting the analog signal into a digital signal using the analog to digital converter to form the input signal. 7. An apparatus comprising: a plurality of polyphase filter banks corresponding to a plurality of orders of nonlinearity, wherein each of the plurality of polyphase filter banks is configured to process an input signal with respect to a plurality of selected frequency subbands to generate an output signal that corresponds to a corresponding order of the each of the plurality of polyphase filter banks, wherein: the plurality of polyphase filter banks comprises: 1) a first plurality of polyphase discrete Fourier transform (DFT) analysis filter banks and 2) a second plurality of polyphase DFT synthesis filter banks; and a processor configured to combine a first result of operation of the first plurality and a second result of operation of the second plurality to create a combined signal. 8. The apparatus of claim 7 , wherein the plurality of polyphase filter banks is selected from one of a plurality of analysis filter banks that form an analysis filter system and a plurality of synthesis filter banks that form a synthesis filter system. 9. The apparatus of claim 8 , wherein each of the plurality of analysis filter banks is configured to decompose the input signal into a plurality of output subband signals to form a nonlinear component of the input signal that corresponds to a corresponding order of nonlinearity in the plurality of orders of nonlinearity of the each of the plurality of analysis filter banks and wherein each of the plurality of output subband signals is for a different frequency subband within a bandwidth of the input signal. 10. The apparatus of claim 9 , wherein the plurality of analysis filter banks comprises: a first order analysis filter bank corresponding to a first order of nonlinearity, wherein the first order analysis filter bank is configured to decompose the input signal into a plurality of first order subband signals to form a first order nonlinear component of the input signal; and an i th order analysis filter bank corresponding to an i th order of nonlinearity, wherein the i th order analysis filter bank is configured to decompose the input signal into a plurality of i th order subband signals to form an i th order nonlinear component of the input signal. 11. The apparatus of claim 10 , wherein the i th order analysis filter bank comprises: a plurality of filter-modulation layers equal in number to i wherein a particular layer in the plurality of filter-modulation layers comprises: a plurality of filters equal in number to K subbands; and a set of modulators having a number corresponding to an index of the particular layer and K. 12. The apparatus of claim 8 , wherein each of the plurality of synthesis filter banks is configured to receive a nonlinear input component comprising a plurality of input subband signals for selected frequency subbands and form an output component that corresponds to a corresponding order of each synthesis filter bank using the nonlinear input component received and wherein the output component formed by the each synthesis filter bank in the plurality of synthesis filter banks is combined to form an output signal having a bandwidth that includes all of the selected frequency subbands. 13. The apparatus of claim 12 , wherein the plurality of synthesis filter banks comprises: a first order synthesis filter bank configured to receive a first order input component comprising a plurality of first order subband signals for the selected frequency subbands and form a first order output component using the plurality of first order subband signals; and an i th order synthesis filter bank configured to receive an i th order input component comprising a plurality of i th order subband signals for the selected frequency subbands and form an i th order output component using the plurality of i th order subband signals. 14. The apparatus of claim 13 , wherein the i th order synthesis filter bank comprises: a plurality of modulation-filter layers equal in number to i, wherein a particular layer in the plurality of modulation-filter layers comprises: a set of modulators having a number corresponding to an index of the particular layer and K; and a plurality of filters equal in number to K, wherein K is a total number of the selected frequency subbands and wherein each of the plurality of filters is configured to form a filtered signal. 15. The apparatus of claim 7 , wherein the first plurality and the second plurality comprise Volterra filter banks. 16. The apparatus of claim 7 further comprising: a transmultiplexer configured to perform nonlinear transmultiplexing to convert time multiplexed components of the signal to frequency multiplexed components of the sig