TY - GEN
T1 - Auditory-based smoothing for equalization of headphone-to-eardrum transfer function
AU - Li, Guangju
AU - Jiang, Ziran
AU - Sang, Jinqiu
AU - Zheng, Chengshi
AU - Peng, Renhua
AU - Li, Xiaodong
N1 - Publisher Copyright:
© 143rd Audio Engineering Society Convention 2017, AES 2017. All rights reserved.
PY - 2017
Y1 - 2017
N2 - Binaural headphone reproduction can be improved by equalization of headphone-to-eardrum transfer function (HETF) in an appropriate way. Direct inversion of HETF targeting at a flat frequency response cannot keep the peaks and valleys due to pinna and ear canal filtering that might help auditory perception. Moreover, direct inversion might induce annoying high Q peak values due to variability across listeners. Smoothing the HETF before direct inversion can avoid over equalization. Two auditory-based spectral smoothing methods were studied in this research. One is based on roex filtering that can simulate human auditory filtering in the basilar membrane, and the other is cepstral smoothing that can simulate the auditory perception characteristic of frequency resolution. Subjective experiments show that, in comparison to direct inversion, the two proposed methods can improve binaural headphone reproduction.
AB - Binaural headphone reproduction can be improved by equalization of headphone-to-eardrum transfer function (HETF) in an appropriate way. Direct inversion of HETF targeting at a flat frequency response cannot keep the peaks and valleys due to pinna and ear canal filtering that might help auditory perception. Moreover, direct inversion might induce annoying high Q peak values due to variability across listeners. Smoothing the HETF before direct inversion can avoid over equalization. Two auditory-based spectral smoothing methods were studied in this research. One is based on roex filtering that can simulate human auditory filtering in the basilar membrane, and the other is cepstral smoothing that can simulate the auditory perception characteristic of frequency resolution. Subjective experiments show that, in comparison to direct inversion, the two proposed methods can improve binaural headphone reproduction.
UR - https://www.scopus.com/pages/publications/85059035791
M3 - 会议稿件
AN - SCOPUS:85059035791
T3 - 143rd Audio Engineering Society Convention 2017, AES 2017
SP - 580
EP - 586
BT - 143rd Audio Engineering Society Convention 2017, AES 2017
PB - Audio Engineering Society
T2 - 143rd Audio Engineering Society Convention 2017, AES 2017
Y2 - 18 October 2017 through 20 October 2017
ER -