双峰刺激的最佳增益控制步长
Optimal gain control step sizes for bimodal stimulation.
作者信息
Spirrov Dimitar, van Dijk Bas, Francart Tom
机构信息
a ExpORL, Department of Neurosciences , K.U. Leuven , Leuven , Belgium and.
b Cochlear Technology Centre , Belgium.
出版信息
Int J Audiol. 2018 Mar;57(3):184-193. doi: 10.1080/14992027.2017.1403655. Epub 2017 Nov 24.
OBJECTIVE
Cochlear implants (CI) and hearing aids (HA) have a gain control that allows the bimodal user to change the loudness. Due to differences in dynamic range between CI and HA, an equal change of the gains of the two devices results in different changes in loudness. The objective was to relate and individualise the step sizes of the loudness controls to obtain a similar perceptual effect in the two ears.
DESIGN
We used loudness models parametrised for individual users to find a relation between the controls of the CI and the HA such that each step resulted in an equal change in loudness. We conducted loudness balancing experiments to validate the results.
STUDY SAMPLE
Eleven bimodal users of whom six were tested in a prior study.
RESULTS
The difference between the optimal gain from the loudness balancing procedure and actual gain was 3.3 dB when the new relation was applied. In contrast, the difference was 8 dB if equal step sized were applied at both sides.
CONCLUSION
We can relate the controls such that each step results in a similar loudness difference.
目的
人工耳蜗(CI)和助听器(HA)都有增益控制,这使得双耳佩戴者能够改变响度。由于CI和HA的动态范围存在差异,两种设备增益的同等变化会导致响度产生不同的变化。目的是关联并个性化响度控制的步长,以便在双耳获得相似的感知效果。
设计
我们使用针对个体用户参数化的响度模型,来找出CI和HA控制之间的关系,使得每一步都能导致响度的同等变化。我们进行了响度平衡实验以验证结果。
研究样本
11名双耳佩戴者,其中6名在之前的研究中已接受测试。
结果
应用新关系时,响度平衡程序得出的最佳增益与实际增益之间的差异为3.3dB。相比之下,如果两侧应用相同步长,差异为8dB。
结论
我们能够关联控制,使得每一步都能产生相似的响度差异。
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