dr. S.M. (Sietse) van Netten

Deputy Director of Education AI

E-mail:
s.m.van.netten rug.nl

Research

Postal address:
Nijenborgh9
Gebouw 5161, ruimte 0336
9747 AG
Groningen
Netherlands
Phone: +31 50 363 8769Fax: +31 50 363 6687
  1. 2019
  2. Wolf, B., & van Netten, S. (2019). Training submerged source detection for a 2D fluid flow sensor array with Extreme Learning Machines. In Eleventh International Conference on Machine Vision (ICMV 2018) (Vol. 11041, pp. 1104126). SPIE.Digital Library. https://doi.org/10.1117/12.2522667
  3. 2018
  4. van der Meulen, P., Wolf, B., Pirih, P., & van Netten, S. (2018). Performance of Neural Networks in Source Localization using Artificial Lateral Line Sensor Configurations. Poster session presented at ICT OPEN 2018: The Interface for Dutch ICT-Research, Amersfoort, Netherlands.
  5. 2017
  6. 2014
  7. Desmonds, T., Kirkwood, N., Goodyear, R., Derudas, M., Gale, J., van Netten, S., ... Kros, C. J. (2014). Positional gradients and voltage dependence of block of the hair cell's mechano-electrical transducer channel by the d-HIVTAT and d-JNKi1 peptides. 150-151. Abstract from 37th Annual Midwinter meeting Association for Research in Otolaryngology, San Diego, United States.
  8. Pirih, P., Sendin, G. C., & van Netten, S. (2014). Techniques for Studying Neuromast Function in Zebrafish. In H. Bleckmann (Ed.), Flow Sensing in Air and Water Berlin: Springer. https://doi.org/10.1007/978-3-642-41446-6_14
  9. van Netten, S., & McHenry, M. J. (2014). The Biophysics of the Fish Lateral Line. In S. Coombs (Ed.), The Lateral Line: Springer Handbook of Auditory Research (Vol. 48). (Springer Handbook of Auditory Research). Springer. https://doi.org/10.1007/978-1-4614-8851-4
  10. 2009
  11. 2008
  12. 2007
  13. van Netten, S. M., & Kros, C. J. (2007). Insights into the pore of the hair cell transducer channel from experiments with permeant blockers. In OP. Hamill (Ed.), MECHANOSENSITIVE ION CHANNELS, PT B (pp. 375-398). (Current Topics in Membranes; Vol. 59). SAN DIEGO: Academic Press. https://doi.org/10.1016/S1063-5823(06)59013-1
  14. 2006
  15. Meulenberg, C. J. W., & Van Netten, S. M. (2006). Hair cell transducer channel properties and accuracy of cochlear signal-processing. In AL. Nuttal (Ed.), Auditory Mechanisms: Processes and Models (pp. 293-294). SINGAPORE: World Scientific Publishing.
  16. Coombs, S., & van Netten, S. (2006). THE HYDRODYNAMICS AND STRUCTURAL MECHANICS OF THE LATERAL LINE SYSTEM. In G. Lauder, & R. Shadwick (Eds.), Fish Biomechanics: FISH PHYSIOLOGY (Vol. 23). Elsevier.
  17. 2005
  18. 2003
  19. Dinklo, T., & Van Netten, SM. (2003). Signal processing by transducer channels in mammalian outer hair cells. In AW. Gummer (Ed.), BIOPHYSICS OF THE COCHLEA: FROM MOLECULES TO MODELS (pp. 73-80). SINGAPORE: World Scientific Publishing.
  20. 2002
  21. 2000
  22. 1998
  23. 1997
  24. 1994
  25. 1993
  26. Duifhuis, H., Horst, J., van Dijk, P., & van Netten, S. (Eds.) (1993). Biophysics of Hair Cell Sensory Systems. World Scientific Publishing.
  27. van Netten, S. M., & KHANNA, SM. (1993). MECHANICAL DEMODULATION OF HYDRODYNAMIC STIMULI PERFORMED BY THE LATERAL-LINE ORGAN. In JHJ. Allum, DJ. Alummecklenburg, FP. Harris, & R. Probst (Eds.), NATURAL AND ARTIFICIAL CONTROL OF HEARING AND BALANCE (pp. 45-51). (PROGRESS IN BRAIN RESEARCH; Vol. 97). AMSTERDAM: Elsevier.
  28. 1991
  29. 1989
  30. 1988
  31. 1987
  32. 1982
  33. HUYGEN, PEM., VANKLINKEN, J., LAKSHMINARAYANA, N. V., van Netten, S., & VENEMA, WZ. (1982). SEARCH FOR A 70-MS TRANSITION OF VERY LOW-ENERGY IN NB-90. Physical Review C, 25(1), 671-672.

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