Tely beneath. Especially, we argue that the outcomes suggest an influence of decreased TFS processing potential for the reduce (1000-Hz) carrier center frequency, and an influence of lowered frequency selectivity for the greater (4000-Hz) carrier center frequency.1. Impaired STM sensitivity at 1000 Hz: Lowered TFS processing abilityFor the 1000-Hz carrier center frequency, reduced STM sensitivity was CC122 price observed for HI PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/19920667 listeners for any high spectral ripple density (2 c/o) along with a low temporal modulation price (4 or 12 Hz). This pattern of benefits is inconsistent with an explanation according to lowered temporal resolution, exactly where a roll-off in efficiency at higher modulation rates could be anticipated. The outcomes of experiment two argue against the possibility that the observed pattern of outcomes is attributable to the use of a spectral-edge to detect the STM at larger temporal modulation prices: the identical pattern of decreased STM sensitivity for any 1000-Hz carrier center frequency persisted even with the spectral-edge cue removed. The truth that poorer STM sensitivity to get a 1000-Hz carrier was observed for greater (2 c/o) but not for reduce spectral ripple densities (0.five and 1 c/o) does suggest a achievable influence of decreased frequency selectivity. Having said that, Summers et al. (2013) measured frequency selectivity for exactly the same group of HI listeners from the present study making use of the notched-noise strategy and discovered their typical auditory-filter bandwidths at 1000 Hz to be comparable to these for any group of NH listeners. As an alternative, the observed pattern of decreased STM sensitivity for any 1000-Hz carrier center frequency–with efficiency negatively impacted by hearing loss for low but not for high temporal modulation rates–appears to become most constant with an explanation depending on the inability to utilize TFS info to track dynamic spectral info. Moore and Sek (1996) proposed that the detection of frequency modulation (FM) is often achieved either by detecting AM cues, or by using phase-locking facts that encodes changes inside the instantaneous frequency from the carrier. They showed that for low carrier frequencies, when AM was added to each order Src Inhibitor 1 intervals of a FM-detection trial to disrupt induced-AM cues, functionality for NH listeners worsened for higher (but not for low) carrier frequencies, and for high (but not forJ. Acoust. Soc. Am., Vol. 136, No. 1, Julylow) FM rates. This recommended that listeners have been using TFS facts to detect FM only for low carrier frequencies and low temporal modulation rates. Their interpretation was that at higher carrier frequencies, TFS information was not accessible on account of roll-off in auditory-nerve phase locking towards the cycle-by-cycle variation in the carrier frequency (Johnson, 1980). At higher temporal modulation rates, TFS facts was not accessible as a result of sluggish nature from the TFS encoding mechanism. Moore and Skrodzka (2002) showed related benefits whilst investigating the effects of hearing loss on FM detection overall performance. For low carrier frequencies, hearing loss impacted FM detection overall performance extra for low than higher temporal modulation prices, in contrast to higher carrier frequencies exactly where the impact of hearing loss on FM detection was continuous across temporal modulation price. These results have been as a result constant together with the notion that for low carrier frequencies, NH listeners had been able to produce use of TFS info to detect FM, but that this course of action was impaired for the HI listeners. The STM stimuli employed inside the curren.Tely beneath. Particularly, we argue that the outcomes recommend an influence of reduced TFS processing capacity for the decrease (1000-Hz) carrier center frequency, and an influence of reduced frequency selectivity for the greater (4000-Hz) carrier center frequency.1. Impaired STM sensitivity at 1000 Hz: Decreased TFS processing abilityFor the 1000-Hz carrier center frequency, reduced STM sensitivity was observed for HI PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/19920667 listeners for any high spectral ripple density (2 c/o) and a low temporal modulation rate (four or 12 Hz). This pattern of final results is inconsistent with an explanation determined by decreased temporal resolution, exactly where a roll-off in efficiency at high modulation rates would be anticipated. The results of experiment two argue against the possibility that the observed pattern of final results is attributable to the use of a spectral-edge to detect the STM at larger temporal modulation prices: exactly the same pattern of lowered STM sensitivity for a 1000-Hz carrier center frequency persisted even using the spectral-edge cue removed. The fact that poorer STM sensitivity for any 1000-Hz carrier was observed for higher (two c/o) but not for reduced spectral ripple densities (0.5 and 1 c/o) does recommend a attainable influence of reduced frequency selectivity. On the other hand, Summers et al. (2013) measured frequency selectivity for the same group of HI listeners in the existing study making use of the notched-noise process and found their average auditory-filter bandwidths at 1000 Hz to be comparable to those for any group of NH listeners. Instead, the observed pattern of decreased STM sensitivity to get a 1000-Hz carrier center frequency–with overall performance negatively impacted by hearing loss for low but not for higher temporal modulation rates–appears to become most consistent with an explanation depending on the inability to make use of TFS data to track dynamic spectral information. Moore and Sek (1996) proposed that the detection of frequency modulation (FM) is usually achieved either by detecting AM cues, or by utilizing phase-locking info that encodes adjustments inside the instantaneous frequency with the carrier. They showed that for low carrier frequencies, when AM was added to each intervals of a FM-detection trial to disrupt induced-AM cues, performance for NH listeners worsened for high (but not for low) carrier frequencies, and for high (but not forJ. Acoust. Soc. Am., Vol. 136, No. 1, Julylow) FM rates. This suggested that listeners have been using TFS info to detect FM only for low carrier frequencies and low temporal modulation prices. Their interpretation was that at higher carrier frequencies, TFS information was not accessible as a result of roll-off in auditory-nerve phase locking towards the cycle-by-cycle variation in the carrier frequency (Johnson, 1980). At larger temporal modulation rates, TFS information and facts was not offered due to the sluggish nature from the TFS encoding mechanism. Moore and Skrodzka (2002) showed equivalent outcomes although investigating the effects of hearing loss on FM detection efficiency. For low carrier frequencies, hearing loss impacted FM detection efficiency much more for low than high temporal modulation prices, in contrast to higher carrier frequencies where the impact of hearing loss on FM detection was continual across temporal modulation rate. These benefits had been hence consistent with all the idea that for low carrier frequencies, NH listeners had been able to produce use of TFS details to detect FM, but that this approach was impaired for the HI listeners. The STM stimuli employed within the curren.
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