System and method for enhancing the binaural representation for hearing-impaired subjects

What is claimed is: 1. A hearing enhancement device, comprising: one or more first microphones structured and configured to generate a first signal in response to a plurality of sound sources; one or more second microphones structured and configured to generate a second signal in response to the plurality of sound sources; and a processing apparatus structured and configured to: filter the first signal and the second signal into a plurality of frequency bands; responsive to the filtering of the first signal into the plurality of frequency bands, for each of the plurality of frequency bands, estimate an instantaneous binaural cue between the first signal and the second signal using a correlation algorithm, the estimated instantaneous binaural cues being a plurality of estimated binaural cues of a first type; responsive to the estimating of the instantaneous binaural cue between the first signal and the second signal for each of the plurality of frequency bands, convert each of the plurality of estimated binaural cues of the first type to a corresponding binaural cue of a second type different than the first type; and use one or more of the corresponding binaural cues of the second type to generate an adjusted first signal; wherein the hearing, enhancement device is structured and configured to use the adjusted first signal to generate a number of signals to be delivered to a subject by the hearing enhancement device for enhancing the hearing of the subject. 2. The hearing enhancement device according to claim 1 , wherein the plurality of estimated binaural cues of a first type are a plurality of estimated interaural time differences, and wherein each corresponding binaural cue of a second type different than the first type is a corresponding interaural level difference. 3. The hearing enhancement device according to claim 1 , wherein the processing apparatus is structured and configured to se the one or more of the corresponding binaural cues of the second type to generate the adjusted first signal by using each of the corresponding binaural cues of the second type to generate the adjusted first signal. 4. The hearing enhancement device according to claim 3 , wherein the hearing enhancement device is structured and configured to use the adjusted first signal and the second signal to generate the number of signals to be delivered to the subject by the hearing enhancement device for enhancing the hearing of the subject. 5. The hearing enhancement device according to claim 1 , wherein the hearing enhancement device is a cochlear implant or a hearing aid. 6. The hearing enhancement device according to claim 1 , wherein the correlation algorithm is a windowed sliding cross correlation algorithm. 7. The hearing enhancement device according to claim 1 , wherein each of the estimated binaural cues of the first type and each of the corresponding binaural cues of the second type is associated with a respective one of the plurality of frequency bands, and wherein the processing apparatus is structured and configured to use the one or more of the corresponding binaural cues of the second type to generate the adjusted first signal by attenuating a value of each of the plurality of frequency bands using the associated corresponding binaural cue of the second type to create a plurality of adjusted frequency bands and summing at least the plurality of adjusted frequency bands to form the adjusted first signal. 8. The hearing enhancement device according to claim 7 , wherein the first plurality of frequency bands have a frequency of 1500 Hz or less. 9. The hearing enhancement device according to claim 1 , wherein the converting each of the estimated binaural cues of the first type to the corresponding binaural cue of the second type different than the first type employs a predetermined scheme. 10. The hearing enhancement device according to claim 9 , wherein the predetermined scheme comprises a look-up table. 11. A hearing enhancement system, comprising: one or more first microphones structured and configured to generate a first signal in response to a plurality of sound sources; one or more second microphones structured and configured to generate a second signal in response to the plurality of sound source; and an apparatus coupled to the one or more first microphones and the one or more second microphones, the apparatus being structured and configured to implement an algorithm, wherein the algorithm is structured and configured to: filter the first signal and the second signal into a plurality of frequency bands; responsive to the filtering of the first signal and the second signal into plurality of frequency bands, for each of the plurality of frequency bands, estimate an instantaneous binaural cue between the first signal and the second signal using a correlation algorithm, the estimated instantaneous binaural cues being a plurality of estimated binaural cues of a first type; responsive to the estimating of the instantaneous binaural cue between the first signal and the second sign for each of the plurality of the frequency bands, a convert each of the plurality of estimated binaural cues of the first type to a corresponding binaural cue of a second type different than the first type; and use one or more of the corresponding binaural cues of the second type to generate an adjusted first signal; wherein the system is structured and configured to use the adjusted first signal to generate a number of signals to be delivered to a subject for enhancing the hearing of the subject. 12. The hearing enhancement system according to claim 11 , wherein the one or more first microphones and the one or more second microphones are part of a hearing enhancement device, and wherein the hearing enhancement device is structured and configured to generate the number of signals to be delivered to the subject for enhancing the hearing of the subject. 13. The hearing enhancement system according to claim 12 , wherein the hearing enhancement device is a cochlear implant or a hearing aid. 14. The hearing enhancement system according to claim 11 , wherein the plurality of estimated binaural cues of a first type are a plurality of estimated interaural time differences, and wherein each corresponding binaural cue of a second type different than the first type is a corresponding interaural level difference. 15. The hearing enhancement system according to claim 11 , wherein the apparatus is structured and configured to use the one or more of the corresponding binaural cues of the second type to generate the adjusted first signal by using each of the corresponding binaural cues of the second type to generate the adjusted first signal. 16. The hearing enhancement system according to claim 15 , wherein the system is structured and configured to use the adjusted first signal and the second signal to generate the number of signals to be delivered to the subject for enhancing the hearing of the subject. 17. The hearing enhancement system according to claim 11 , wherein the correlation algorithm is a windowed sliding cross correlation algorithm. 18. The hearing enhancement system according to claim 11 , wherein each of the estimated binaural cues of the first type and each of the corresponding binaural cues of the second type is associated with a respective one of the plurality of frequency bands, and wherein the algorithm is structured and configured to use the one or more of the corresponding binaural cues of the second type to generate the adjusted first signal by attenuating a value of each of