Bone-conducted (BC) speech captures speech signals based on the vibrations of a speaker's skull. It is thus not affected by noise sources from environments and hence …
HP Liu, Y Tsao, CS Fuh - Speech Communication, 2018 - Elsevier
Bone-conduction microphones (BCMs) capture speech signals based on the vibrations of the speaker's skull and exhibit better noise-resistance capabilities than normal air …
Previous studies have proven that integrating video signals, as a complementary modality, can facilitate improved performance for speech enhancement (SE). However, video clips …
In this paper, we compare air‐conducted (AC) speech with bone‐conducted (BC) speech for the purpose of utilizing them in packet loss concealment (PLC) for speech quality of voice …
This paper gives an overview to speech enhancement algorithms using a bone-conducted (BC) microphone. Unlike conventional air-conducted (AC) microphones picking up particle …
Bone-conduction (BC) microphones capture speech signals by converting the vibrations of the human skull into electrical signals. BC sensors are insensitive to acoustic noise, but …
Bone and tissue conducted speech has been used in noisy environments to provide a relatively high signal-to-noise ratio signal. However, the limited bandwidth of bone and …
MS Rahman, T Shimamura - 2011 IEEE 54th International …, 2011 - ieeexplore.ieee.org
This paper proposes an intelligibility enhancement technique for bone conducted (BC) speech without exploiting any spectral characteristics of normal air conducted (AC) speech …
HQ Nguyen, M Unoki - Journal of Signal Processing, 2020 - jstage.jst.go.jp
Bone-conducted (BC) speech has a significant advantage as a solution for speech communication in an extremely noisy environment because of its stability against …