System and method for iterative compensation for linear and nonlinear interference in system employing FTN symbol transmission rates

The invention claimed is: 1. An apparatus comprising: a receiver configured to process a signal received over a non-linear wireless channel, wherein the received signal reflects a source signal comprising a plurality of source symbols, and includes linear and non-linear interference effects induced based on a faster-than-Nyquist (FTN) signaling rate applied to the source signal and high-power amplification and filtering for transmission over the non-linear wireless channel; wherein the receiver is configured to estimate the plurality of source symbols of the received signal based on a plurality of outer-loop decoding iterations, wherein a current outer-loop decoding iteration is employed to at least determine an improved estimate of one or more of the plurality of source symbols based on a set of soft information of the current outer-loop decoding iteration, and the improved estimate of the one or more of the plurality of source symbols is fed to a next outer-loop decoding iteration to further improve the estimate of the one or more of the plurality of source symbols, and wherein the receiver comprises: a likelihood metric processor configured to generate the set of soft information of the current outer-loop decoding iteration based on a current estimate of one or more of the source symbols and a final set of soft information from a previous outer-loop decoding iteration; wherein the current estimate of the one or more source symbols is based on a previous estimate of the linear and non-linear interference effects exhibited by the received signal, which is based on the final set of soft information from the previous outer-loop decoding iteration. 2. The apparatus of claim 1 , wherein the likelihood metric processor comprises a log-likelihood ratio (LLR) processor, and the set of soft information of the current outer-loop decoding iteration comprises a set of extrinsic log-likelihood ratios (LLRs), generated by the LLR processor based on the current estimate of the one or more source symbols, and a set of extrinsic LLRs from the previous outer-loop decoding iteration. 3. The apparatus of claim 1 , wherein the receiver further comprises: a mapping processor configured to bit-to-symbol map the final set of soft information from the previous outer-loop decoding iteration; a filter configured to process the bit-to-symbol mapped information generated by the mapper module to generate the previous estimate of the linear and non-linear interference effects; and an arithmetic processor configured to generate the current estimate of the one or more source symbols by subtracting the previous estimate of the linear and non-linear interference effects generated by the filter module from the received signal. 4. The apparatus of claim 3 , wherein the filter comprises a Volterra filter configured to generate the estimate of the linear and non-linear interference effects, wherein the Volterra filter comprises: a first order component configured to generate an estimate of the first order interference, which reflects the linear interference effects; and a third order component configured to generate an estimate of the third order interference, which reflects the non-linear interference effects. 5. The apparatus of claim 1 , wherein the final set of soft information from the previous outer-loop decoding iteration is generated based on a plurality of inner-loop likelihood metric computation iterations, wherein: for each inner-loop likelihood metric computation iteration (except for a first iteration), the likelihood metric computing processor is configured to generate an updated set of soft information based on a set of soft information of a previous inner-loop likelihood metric computation iteration; and the final set of soft information is based on the updated set of soft information generated by the likelihood metric computing processor as a result of a final inner-loop likelihood metric computation iteration. 6. The apparatus of claim 5 , wherein the receiver further comprises: a decoder configured to decode, for each inner-loop likelihood metric computation iteration, the updated set of soft information generated by the likelihood metric computing processor; wherein the final set of soft information is based on the decoded information generated by the decoder as a result of the final inner-loop likelihood metric computation iteration. 7. The apparatus of claim 6 , wherein the receiver further comprises: a deinterleaver configured to deinterleave, for each inner-loop likelihood metric computation iteration, the updated set of soft information generated by the likelihood metric computing processor prior to being decoded by the decoder; and an interleaver configured to interleave, for each inner-loop likelihood metric computation iteration, the decoded information generated by the decoder to generate the set of soft information of the previous inner-loop likelihood metric computation iteration; wherein the final set of soft information is comprised of the interleaved information generated by the interleaver as a result of the final inner-loop likelihood metric computation iteration. 8. The apparatus of claim 7 , wherein the receiver further comprises: a mapping processor configured to bit-to-symbol map the final set of soft information; a filter configured to process the bit-to-symbol mapped information generated by the mapping processor to generate the previous estimate of the linear and non-linear interference effects; and an arithmetic processor configured to generate the current estimate of the one or more source symbols by subtracting the previous estimate of the linear and non-linear interference effects generated by the filter from the received signal. 9. The apparatus of claim 8 , wherein the filter comprises a Volterra filter configured to generate the estimate of the linear and non-linear interference effects, wherein the Volterra filter comprises: a first order component configured to generate an estimate of the first order interference, which reflects the linear interference effects; and a third order component configured to generate an estimate of the third order interference, which reflects the non-linear interference effects. 10. The apparatus of claim 9 , wherein the likelihood metric computing processor comprises a log-likelihood ratio (LLR) processor, and the set of soft information of the current outer-loop decoding iteration comprises a set of extrinsic log-likelihood ratios (LLRs), generated by the LLR computation module based on the current estimate of the one or more source symbols, and a set of extrinsic LLRs from the previous outer-loop decoding iteration. 11. A method comprising: processing a signal received over a non-linear wireless channel, wherein the received signal reflects a source signal comprising a plurality of source symbols, and includes linear and non-linear interference effects induced based on a faster-than-Nyquist (FTN) signaling rate applied to the source signal and high-power amplification and filtering of a transponder for transmission over the non-linear wireless channel; wherein the processing of the received signal comprises estimating the plurality of source symbols of the received signal based on a plurality of outer-loop decoding iterations, wherein a current outer-loop decoding iteration is employed to at least determine an improved estimate of one or more of the plurality of source symbols based on a set of soft information of the current outer-loop decoding iteration, and the improved estimate of the one or more of the plurality of source symbols is fed to a next outer-loop decoding iteration to further improve the estimate of the one or more