Evaluation of auditory impressions induced by HVAC sound using predictive model

H. Yano, T. Takiguchi, Y. Ariki, M. Kamiya, S. Nakagawa
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Abstract

The evaluation of subjective impressions induced by environmental sounds using neurophysiological indices has been proposed in recent years. In this paper, we focus on the evaluation of HVAC (heating, ventilation and air conditioning) sounds, and models that predict subjective coolness/preference induced by time-varying HVAC sound from brain activities were constructed. First, magnetoencephalographic (MEG) measurements were carried out to measure brain activities while hearing HVAC sound with paired comparison task. Second, feature vectors representing time-frequency components of brain activities on the whole head were extracted from MEG data using the time-frequency analysis and nonnegative tensor factorization (NTF). And third, two kinds of predictive model were constructed from the brain feature vectors and comparative judgments to pairs of stimuli using a regression model or an SVM-based method. Evaluation experiments show that the SVM-based method is more effective than the regression model.
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用预测模型评价暖通空调声音诱发的听觉印象
近年来,人们提出用神经生理指标评价环境声音引起的主观印象。本文以暖通空调声音的评价为研究对象,构建了预测大脑活动中时变暖通空调声音引起的主观凉爽/偏好的模型。首先,采用配对比较任务对被试在听暖通空调声音时的脑活动进行脑磁图测量。其次,利用时频分析和非负张量分解(NTF)从脑电数据中提取表征整个头部脑活动时频分量的特征向量;第三,利用回归模型和基于支持向量机的方法,将脑特征向量和对刺激对的比较判断构建两种预测模型。评价实验表明,基于支持向量机的方法比回归模型更有效。
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