Biomedical Engineering Reference
In-Depth Information
3. Kolesar, E.S. and Dyson, C.S. (1995) Object imaging with a piezoelectric robotic tactile sensor.
Journal
of Microelectromechanical Systems
,
4
, 87 - 96.
4. Metha, M. (1996) A micromachined capacitive pressure sensor for use in endoscopic surgery. Master of
Applied Science, Engineering Science, Simon Fraser University.
5. Dargahi, J. and Payandeh, S. (1998) Surface texture measurements by combining signals from two sens-
ing elements of a piezoelectric tactile sensor. Proceedings of the SPIE International Conference, 1998,
pp. 58 - 62.
6. Fisher, H., Neisius, B., Trapp, R.
et al
. (1995) Tactile feedback for endoscopic surgery,
Interactive Tech-
nology and a New Paradigm for Health Care
(ed. K. Morgan, R.M. Satava, H.B. Seiburg, R. Mattheus,
and J.P. Chris), IOC Press and Ohmsha, pp. 114 - 117.
7. Bicchi, A., Canepa, G., Rossi, D.D.
et al
. (1996) A sensorized minimally invasive surgery tool for detect-
ing tissue elastic properties. Proceedings of the 1999 IEEE International Conference on Robotics and
Automation, Minneapolis, MN, pp. 884 - 888.
8. Faraz, A., Payandeh, S., and Salvarinov, A. (1998) Design of haptic interface through stiffness modulation
for endosurgery: theory and experiments. Proceedings of the 1998 IEEE International Conference on
Robotics and Automation, 1998, vol. 2, pp. 1007 - 1012.
9. Howe, R.D., Peine, W.J., Kantarinis, D.A., and Son, J.S. (1995) Remote palpation technology.
Engineering
in Medicine and Biology Magazine, IEEE
,
14
, 318 - 323.
10. Rebello, K.J. (2004) Applications of MEMS in surgery.
Proceedings of the IEEE
,
92
, 43 - 55.
11. Microline Surgical Company (2011) Grasper Tips, www.microlinesurgical.com, accessed 2011.
12. Hetenyi, M. (1964)
Beams on Elastic Foundation
, University of Michigan Press, pp. 38 - 49.
13. Ruska, W.S. (1987)
Microelectronic Processing
, McGraw-Hill.
14. Dargahi, J. (1993)
The Application of Polyvinylidene Fluoride as a Robotic Tactile Sensor
, Glasgow Cale-
donian University.
15. Dargahi, J. (1998) Piezoelectric and pyroelectric transient signal analysis for detection of the temperature
of a contact object for robotic tactile sensing.
Sensors and Actuators A: Physical
,
71
, 89 - 97.
16. Dargahi, J. Eastwood, A.R., and Kemp, I.J. (1997) Combined force and position polyvinylidene fluoride
(PVDF) robotic tactile sensing system. Proceedings of the SPIE International Conference on Sensor Fusion:
Architectures, Algorithms and Applications, Orlando, FL, 20 - 25 April 1997, pp. 160 - 170.
17. Goodfellow, Technical Information for Polyvinylidenefluoride (PVDF), www.goodfellow.com, accessed
2007.
18. He, J.H., Sun, S., Ye, J., and Lim, T.M. (2006) Self -assembly carbon nanotubes on cantilever biosensor
for sensitivity enhancement.
Journal of Physics: Conference Series
,
34
, 423 - 428.
19. Qi, H.J., Joyce, K., and Boyce, M.C. (2003) Durometer hardness and the stress - strain behavior of elas-
tomeric materials.
Rubber Chemistry and Technology
,
76
, 419 - 435.
20. Falanga, V. and Bucalo, B. (1993) Use of a durometer to assess skin hardness.
Journal of the American
Academy of Dermatology
,
29
, 47 - 51.
21. Ladeji-Osias, J.O. and Langrana, N.A. (2000) Analytical evaluation of tumors surrounded by soft tis-
sue. Engineering in Medicine and Biology Society, 2000. Proceedings of the 22nd Annual International
Conference of the IEEE, 2000, vol. 3, pp. 2114 - 2117.
