Unit for Visually Impaired People (U-VIP), Center for Human Technologies, Fondazione Istituto Italiano di Tecnologia, Genoa, Italy; Institute for Mind, Brain and Technology Ivcher School of Psychology Inter-Disciplinary Center (IDC), Herzeliya, Israel.
Unit for Visually Impaired People (U-VIP), Center for Human Technologies, Fondazione Istituto Italiano di Tecnologia, Genoa, Italy.
Hear Res. 2022 Apr;417:108468. doi: 10.1016/j.heares.2022.108468. Epub 2022 Feb 13.
The distance of sound sources relative to the body can be estimated using acoustic level and direct-to-reverberant ratio cues. However, the ability to do this may differ for sounds that are in front compared to behind the listener. One reason for this is that vision, which plays an important role in calibrating auditory distance cues early in life, is unavailable for rear space. Furthermore, the filtering of sounds by the pinnae differs if they originate from the front compared to the back. We investigated auditory distance discrimination in front and rear space by comparing performance for auditory spatial bisection of distance and minimum audible distance discrimination (MADD) tasks. In the bisection task, participants heard three successive bursts of noise at three different distances and indicated whether the second sound (probe) was closer in space to the first or third sound (references). In the MADD task, participants reported which of two successive sounds was closer. An analysis of variance with factors task and region of space showed worse performance for rear than for front space, but no significant interaction between task and region of space. For the bisection task, the point of subjective equality (PSE) was slightly biased towards the body, but the absolute magnitude of the PSE did not differ between front and rear space. These results are consistent with the hypothesis that visual information is important in calibrating the auditory representation of front space in distance early in life.
声源与身体的距离可以通过声级和直达-混响比线索来估计。然而,对于位于听者前方和后方的声音,这种能力可能会有所不同。原因之一是,在生命早期,视觉在校准听觉距离线索方面起着重要作用,但对于后方空间来说,视觉是不可用的。此外,如果声音来自前方或后方,耳廓对声音的过滤也会有所不同。我们通过比较听觉空间二分法距离和最小可听距离辨别(MADD)任务,来研究前方和后方空间的听觉距离辨别。在二分法任务中,参与者听到三个不同距离的三个连续噪声爆发,并指出第二个声音(探针)在空间上是否更接近第一个或第三个声音(参考)。在 MADD 任务中,参与者报告两个连续声音中哪个更近。方差分析的因素有任务和空间区域,结果显示,后方空间的表现比前方空间差,但任务和空间区域之间没有显著的相互作用。对于二分法任务,主观相等点(PSE)稍微偏向身体,但前方和后方空间的 PSE 绝对值没有差异。这些结果与假设一致,即视觉信息对于校准生命早期前方空间的听觉距离表示很重要。
