Dhany Arifianto

Personal Information

Name : Dr. Eng. Dhany Arifianto, ST., M.Eng.
NIDN : 0007107302
NIP : 197310071998021001
Position : Assistant Professor (Head of Internet of Things & Defense Technology Research Center)
Email : dhany@ep.its.ac.id
Laboratory : Laboratory of Vibration and Acoustics
ORCID ID : https://orcid.org/0000-0001-9805-598X
Personal Website : http://vibrastic.ep.its.ac.id/
Reserach Interest : 1. Acoustical Signal Processing
2. Auditory Neuroscience
3. Vibration Analysis
Research Page : Google Scholar | SINTA | Scopus | ResearchGate
Curriculum Vitae : (Download)

Education

  1. Teknik Fisika (ST.), ITS, Indonesia, 1997
  2. Information Processing (M. Eng.), Tokyo Institute of Technology, Japan, 2002
  3. Information Processing (Dr. Eng.), Tokyo Institute of Technology, Japan, 2005

(Selected) Publications

  1. Plack, C. J., Oxenham, A. J., Simonson, A. M., O’Hanlon, C. G., Drga, V., & Arifianto, D. (2008). Estimates of compression at low and high frequencies using masking additivity in normal and impaired earsThe Journal of the Acoustical Society of America123(6), 4321-4330.
  2. Plack, C. J., & Arifianto, D. (2010). On-and off-frequency compression estimated using a new version of the additivity of forward masking techniqueThe Journal of the Acoustical Society of America128(2), 771-786.
  3. Tanaka, T., Kobayashi, T., Arifianto, D., & Masuko, T. (2002, May). Fundamental frequency estimation based on instantaneous frequency amplitude spectrum. In 2002 IEEE International Conference on Acoustics, Speech, and Signal Processing (Vol. 1, pp. I-329). IEEE.
  4. Arifianto, D. (2007, April). Dual parameters for voiced-unvoiced speech signal determination. In 2007 IEEE International Conference on Acoustics, Speech and Signal Processing-ICASSP’07 (Vol. 4, pp. IV-749). IEEE.
  5. Arifianto, D., Tanaka, T., Masuko, T., & Kobayashi, T. (2004). Robust F 0 Estimation of Speech Signal Using Harmonicity Measure Based on Instantaneous FrequencyIEICE TRANSACTIONS on Information and Systems87(12), 2812-2820.
  6. Purnami, N., Palandeng, R. W., Arifianto, D., & Moon, I. S. (2021). Validity of automated audiometry for hearing examination in patients with multidrug-resistant tuberculosisF1000Research10(1277), 1277.
  7. Arifianto, D., Azmi, F. U., Ashilah, N., Herlambang, B. A., & Purnami, N. (2021). Performance evaluation on three-forced choice pure tone audiometry in open space environmentThe Journal of the Acoustical Society of America150(4), A142-A143.
  8. Arifianto, D., Asyraf, M. A., Amelia, R. R., & Fajriyah, L. (2021). Speech Intelligibility evaluation in the presence of speech masker of cochlear implant in a reverberant roomThe Journal of the Acoustical Society of America150(4), A340-A340.
  9. Arifianto, D., Ihsannur, H., Eka Rini, B. N., & Radityo, M. R. (2021). Infrasound sound source localization for early tsunami detectionThe Journal of the Acoustical Society of America150(4), A215-A215.
  10. Indrani, H. C., Ekasiwi, S. N. N., & Arifianto, D. (2021, April). Conceptual model of soundscape perception based on working behaviour in open-plan offices. In Journal of Physics: Conference Series (Vol. 1896, No. 1, p. 012014). IOP Publishing.

Teaching Courses

1 Sinyal dan Sistem 6 Kontrol Vibrasi
(Signals and Systems) (Vibration Control)
2 Getaran 7 Pemelihataan Prediktif
(Vibration) (Predictive Maintenance)
3 Akustik 8 Komputasi Vibrasi
(Acoustic) (Vibration Computation)
4 Fisika Bangunan 9 Pemrosesan Sinyal
(Building Physics) (Signal Processing)
5 Saraf Pendengaran 10 Monitoring Getaran
(Auditory Neuroscience) (Vibration Monitoring)

Open Position

  1. Wireless Acoustic Sensor Network (BRIN, 2022-2024)
  2. Open Space Audiometry (LPDP Rispro, 2021-2023)