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Assoc. Prof. Mehmet Berke Gür

Bahçeşehir University, Faculty of Engineering and Natural Sciences

Mechatronics Engineering Department

JOURNAL

  1. B. Gur (2014). “Particle velocity gradient based acoustic mode beamforming for short linear vector sensor arrays,” J. Acoust. Soc. Am. 135(6), 3463-3473.
  2. B. Gur, C. Niezrecki (2011). “A wavelet packet adaptive filtering algorithm for enhancing manatee vocalizations,” J. Acoust. Soc. Am. 129(4), pp. 2059-2067.
  3. B. Gur, C. Niezrecki (2009). “A source separation approach to enhancing marine mammal vocalizations,” J. Acoust. Soc. Am. 126(6), pp. 3062-3070.
  4. B. Gur, C. Niezrecki (2007). “Autocorrelation based denoising of manatee vocalizations using the undecimated discrete wavelet transform,” J. Acoust. Soc. Am. 122(1), pp. 188-199.

CONFERENCE PAPER

  1. Y. Yoon, B. Gur (2018). “Parameter estimation and control of non-holonomic mobile robots: A model-based approach,” Proc. 6th International Conference on Control Engineering and Information Technology (CEIT), Istanbul, Turkey.
  2. B. Gur (2017). “Modal beamforming for small circular arrays of particle velocity sensors,” Proc. 25th European Signal Processing Conf. (EUSIPCO), Kos, Greece.
  3. B. Gur (2017). “A modal beamforer for circular arrays of 1-dimensional particle velocity sensors,” Proc. 173rd ASA Mtg., Boston, USA.
  4. B. Gur (2012). “Gradient based processing for linear vector sensor arrays,” Proc. 11th European Conf. Underwater Acoustics (ECUA), POMA 17(1), 070084, Edinburgh, Scotland.
  5. B. Gur, H.-E. de Bree, T. Akal (2010). “A comparative analysis of triplet and vector sensor arrays,” Proc. 10th European Conf. Underwater Acoustics (ECUA), Vol. II, pp. 927-930, İstanbul, Turkey.
  6. B. Gur (2013). “Vektör sensör dizinleri için akustik mod hüzme oluşturucu,” Proc. 10th National Acoustics Congress, pp. 349-358, İstanbul, Turkey (in Turkish).
  7. B. Gur (2013). “Particle velocity gradient based acoustic mode beamforming for linear vector sensor arrays,” Proc. 21st SIU Conf., pp. 1-4, Girne, North Cyprus (in Turkish).
  8. B. Gur, T. Akal, H.-E. de Bree (2011). “Hydroflown: MEMS sualtı akustik vektör algılayıcısı,” Proc. 9th National Acoustics Congress, pp. 260-265, Ankara, Turkey (in Turkish).
  9. H.-E. de Bree, B. Gur, T. Akal (2009). “The Hydroflown: MEMS-based underwater acoustical particle velocity sensor-The sensor, its calibration and some possible localization techniques,” Proc. 3rd Inter. Conf. Underwater Acoustic Measurements, pp. 35-42, Nafplion, Greece.
  10. B. Gur, C. Niezrecki, P. Avitabile (2008). “Improvements in modal parameter extraction through post-processing frequency response function estimates,” Proc. IMAC XXVI (ISBN: 978-1-60560-066-6), Vol. II, Sec. 22A, pp. 1131-1141, Orlando, FL.
  11. B. Gur, C. Niezrecki (2007). “Nonlinear median transform domain denoising of frequency response functions,” Proc. 36th InterNoise Conf. (INTER-NOISE 2007, ISBN: 978-1-60560385-8), Vol. VII, pp. 4547-4555, Istanbul, Turkey.
  12. B. Gur, C. Niezrecki (2007). “Detection of coherent bioacoustic signals in underwater noise,” Proc. 2nd Inter. Conf. Underwater Acoustic Measurements, Heraklion, Greece.
  13. R. Shaw, B. Gur, P. Avitabile, J. Sherwood (2006). “Baseball bat model identification and detection of system changes through in situ experimental modal models developed on the field,” Proc. IMAC XXIV (ISBN: 978-1-60423502-9) , Vol. II, Sec. 11, pp. 525-532.
  14. B. Gur (2007). “Wavelet domain estimation of frequency response functions,” Proc. 10th SEM Annual Conf., Springfield, MA.
  15. B. Gur (2017). “Küçük boyutlu vektör algılayıcılı dizinler: Deneyler ve doğrulama,” Proc. 12th National Acoustics Congress, pp. 85-94, Urla-İzmir, Turkey (in Turkish).
  16. B. Gur (2017). “Modal beamforming for circular acoustic vector sensor arrays,” Proc. 25th SIU Conf., pp.1-4, Antalya, Turkey (in Turkish).
  17. S. Kormaz, B. Gur (2016). “Eksik tahrikli seri eklemli bir robotun izdüşüm yöntemi ile konum kontrolü,” Proc. 3rd ToRK Conf., pp. 81-84, İstanbul, Turkey (in Turkish).
  18. B. Gur (2014). “Vector sensor array based higher order acoustic sensors,” Proc. 22st SIU Conf., pp. 1814-1817, Trabzon, Turkey (in Turkish).

BOOK