We previously proposed an improved method for restoring the power
envelope from a reverberant signal, based on the modulation transfer
function (MTF) concept in order to resolve the problems of Hirobayashi's
method. In this paper, to apply our improved method to reverberant
speech, we consider three issues related to speech applications: (i) how
to apply the improved method to speech dereverberation based on
co-modulation characteristics; (ii) whether the MTF concept can also be
applied in the sub-band for reverberant signals; and (iii) whether power
envelope inverse filtering should be done separately in each channel. We
propose an extended filterbank model based on these considerations. We
have carried out 15,000 simulations of the power envelope restoration
for reverberant speech signals, and our results have shown that the
proposed model can adequately restore the power envelopes in all
channels from reverberant speech signals. We also found that the
estimation of the reverberation time should be done separately in each
channel to improve the restoration accuracy of the power envelope.
Keywords: power envelope, reverberation time, inverse filtering,
modulation transfer function (MTF), co-modulation characteristics
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