Kokabi, OmidBrinkmann, FabianWeinzierl, Stefan2019-09-132019-09-132018-11-160001-4966https://depositonce.tu-berlin.de/handle/11303/10014http://dx.doi.org/10.14279/depositonce-9005The two most important aspects in binaural speech perception—better-ear-listening and spatial-release-from-masking—can be predicted well with current binaural modeling frameworks operating on head-related impulse responses, i.e., anechoic binaural signals. To incorporate effects of reverberation, a model extension was proposed, splitting binaural room impulse responses into an early, useful, and late, detrimental part, before being fed into the modeling framework. More recently, an interaction between the applied splitting time, room properties, and the resulting prediction accuracy was observed. This interaction was investigated here by measuring speech reception thresholds (SRTs) in quiet with 18 normal-hearing subjects for four simulated rooms with different reverberation times and a constant room geometry. The mean error with one of the most promising binaural prediction models could be reduced by about 1 dB by adapting the applied splitting time to room acoustic parameters. This improvement in prediction accuracy can make up a difference of 17% in absolute intelligibility within the applied SRT measurement paradigm.en620 Ingenieurwissenschaften und zugeordnete Tätigkeiten534 Schall und verwandte Schwingungenspeech perceptionlisteningacoustic environmenthearingroom adaptationbinaural de-reverberationArticle1520-8524