Body-conductive acoustic sensors in human-robot communication

Panikos Heracleous, Carlos Ishi, Takahiro Miyashita, Norihiro Hagita


Abstract
In this study, the use of alternative acoustic sensors in human-robot communication is investigated. In particular, a Non-Audible Murmur (NAM) microphone was applied in teleoperating Geminoid HI-1 robot in noisy environments. The current study introduces the methodology and the results of speech intelligibility subjective tests when a NAM microphone was used in comparison with using a standard microphone. The results show the advantage of using NAM microphone when the operation takes place in adverse environmental conditions. In addition, the effect of Geminoid's lip movements on speech intelligibility is also investigated. Subjective speech intelligibility tests show that the operator's speech can be perceived with higher intelligibility scores when operator's audio speech is perceived along with the lip movements of robots.
Anthology ID:
L12-1029
Volume:
Proceedings of the Eighth International Conference on Language Resources and Evaluation (LREC'12)
Month:
May
Year:
2012
Address:
Istanbul, Turkey
Editors:
Nicoletta Calzolari, Khalid Choukri, Thierry Declerck, Mehmet Uğur Doğan, Bente Maegaard, Joseph Mariani, Asuncion Moreno, Jan Odijk, Stelios Piperidis
Venue:
LREC
SIG:
Publisher:
European Language Resources Association (ELRA)
Note:
Pages:
3340–3344
Language:
URL:
http://www.lrec-conf.org/proceedings/lrec2012/pdf/160_Paper.pdf
DOI:
Bibkey:
Cite (ACL):
Panikos Heracleous, Carlos Ishi, Takahiro Miyashita, and Norihiro Hagita. 2012. Body-conductive acoustic sensors in human-robot communication. In Proceedings of the Eighth International Conference on Language Resources and Evaluation (LREC'12), pages 3340–3344, Istanbul, Turkey. European Language Resources Association (ELRA).
Cite (Informal):
Body-conductive acoustic sensors in human-robot communication (Heracleous et al., LREC 2012)
Copy Citation:
PDF:
http://www.lrec-conf.org/proceedings/lrec2012/pdf/160_Paper.pdf