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Embedded flexible optical shear sensor

Jeroen Missinne UGent, Erwin Bosman, Bram Van Hoe, Geert Van Steenberge UGent, Peter Van Daele UGent and Jan Vanfleteren UGent (2010) IEEE Sensors. p.987-990
abstract
Monitoring shear stresses is increasingly important in the medical sector, where the sensors need to be unobtrusive, compact and flexible. A very thin and flexible sensor foil is presented based on the shear stress dependent coupling change of optical power between a laser and photodiode chip that were separated by a deformable sensing layer. These opto-electronic components were embedded in a very thin foil of only 40 mu m thick. The sensitivity and measurement range can be modified by selecting the material properties of the sensing layer. The sensor response showed to be reproducible and the influence of normal pressure on the sensor was very limited.
Please use this url to cite or link to this publication:
author
organization
year
type
conference (proceedingsPaper)
publication status
published
subject
in
IEEE Sensors
issue title
2010 IEEE sensors
pages
987 - 990
publisher
IEEE
place of publication
New York, NY, USA
conference name
2010 IEEE Sensors conference
conference location
Waikoloa, HI, USA
conference start
2010-11-01
conference end
2010-11-04
Web of Science type
Proceedings Paper
Web of Science id
000287982100219
ISSN
1930-0395
ISBN
9781424481682
DOI
10.1109/ICSENS.2010.5690919
language
English
UGent publication?
yes
classification
P1
copyright statement
I have transferred the copyright for this publication to the publisher
id
1058211
handle
http://hdl.handle.net/1854/LU-1058211
date created
2010-10-13 10:46:48
date last changed
2017-01-02 09:52:19
@inproceedings{1058211,
  abstract     = {Monitoring shear stresses is increasingly important in the medical sector, where the sensors need to be unobtrusive, compact and flexible. A very thin and flexible sensor foil is presented based on the shear stress dependent coupling change of optical power between a laser and photodiode chip that were separated by a deformable sensing layer. These opto-electronic components were embedded in a very thin foil of only 40 mu m thick. The sensitivity and measurement range can be modified by selecting the material properties of the sensing layer. The sensor response showed to be reproducible and the influence of normal pressure on the sensor was very limited.},
  author       = {Missinne, Jeroen and Bosman, Erwin and Van Hoe, Bram and Van Steenberge, Geert and Van Daele, Peter and Vanfleteren, Jan},
  booktitle    = {IEEE Sensors},
  isbn         = {9781424481682},
  issn         = {1930-0395},
  language     = {eng},
  location     = {Waikoloa, HI, USA},
  pages        = {987--990},
  publisher    = {IEEE},
  title        = {Embedded flexible optical shear sensor},
  url          = {http://dx.doi.org/10.1109/ICSENS.2010.5690919},
  year         = {2010},
}

Chicago
Missinne, Jeroen, Erwin Bosman, Bram Van Hoe, Geert Van Steenberge, Peter Van Daele, and Jan Vanfleteren. 2010. “Embedded Flexible Optical Shear Sensor.” In IEEE Sensors, 987–990. New York, NY, USA: IEEE.
APA
Missinne, J., Bosman, E., Van Hoe, B., Van Steenberge, G., Van Daele, P., & Vanfleteren, J. (2010). Embedded flexible optical shear sensor. IEEE Sensors (pp. 987–990). Presented at the 2010 IEEE Sensors conference, New York, NY, USA: IEEE.
Vancouver
1.
Missinne J, Bosman E, Van Hoe B, Van Steenberge G, Van Daele P, Vanfleteren J. Embedded flexible optical shear sensor. IEEE Sensors. New York, NY, USA: IEEE; 2010. p. 987–90.
MLA
Missinne, Jeroen, Erwin Bosman, Bram Van Hoe, et al. “Embedded Flexible Optical Shear Sensor.” IEEE Sensors. New York, NY, USA: IEEE, 2010. 987–990. Print.