Project Summary/Abstract Communicating in environments containing multiple talkers (restaurants, parties, etc.) is the biggest challenge faced by listeners with hearing loss. Previous work has shown that this difficulty stems from both monaural and binaural deficits. Current hearing aids do not fully compensate for these deficits and thus do not offer adequate improvements in multitalker environments. In some cases they even introduce additional distortions that may be particularly detrimental in such situations. The goal of the proposed project is to leverage our understanding of these different issues to explore ways of improving speech perception for hearing-aid wearers in multitalker environments. Aim 1 will focus on restoring audibility, which is the primary goal of a hearing aid. Since amplification strategies are mostly optimized for restoring speech audibility in quiet, they may not be optimized for speech presented in multitalker mixtures. In particular, the speech of interest in multitalker mixtures may only be available in rather sparse regions of time and frequency (or “glimpses”). The experiments proposed in Aim 1 will compare the ability of different amplification strategies to restore the audibility and intelligibility of glimpsed speech. This work will demonstrate the impact that even small variations in audibility can have on real-world speech understanding, and reveal potentially important differences between current amplification strategies. Aim 2 is motivated by the fact that some listeners with hearing loss also demonstrate reduced sensitivity to binaural cues, which weakens the perception of location and may hinder selective attention. The experiments in this aim will investigate speech enhancement strategies that are designed to enhance the representation of speech in noise to improve intelligibility. Because they operate by altering the speech envelope, a secondary benefit may be to increase the salience of binaural cues carried in the envelope. Enhancement will be applied to speech stimuli across a range of spatial tasks, to identify conditions under which a binaural benefit is observed. This work will open up a new avenue for improving the representation of complex acoustic scenes in hearing-aid wearers. Finally, while appropriate amplification and binaural enhancement have the potential to improve speech perception in multitalker mixtures, it is vitally important that hearing devices do not offset these benefits by introducing distortions that have the opposite effect. Aim 3 will focus on one such distortion that has been identified. While empirical data is limited, there are many indications that hearing aids increase the tendency for external sounds to be perceived close to or inside the head. This disorienting effect may have particularly serious consequences in multitalker mixtures, where distinct spatial locations are critical for segregating competing voices. The experiments proposed in Aim 3 will systematically e...