Title :
Shape characterization of a multi-modal tactile display device for biomedical applications
Author :
Mansour, N.A. ; El-Bab, A.M.R.F. ; Abdellatif, Mohamed
Author_Institution :
Mechatron. & Robot. Dept., Egypt-Japan Univ. of Sci. & Technol., Alexandria, Egypt
Abstract :
Tactile display has recently been attracting much attention in medical applications such as Minimally Invasive Surgery-MIS. It is needed for surgeons to feel the tissue hardness during MIS. In this paper, a multi modal tactile display device is presented for displaying both shape and stiffness of soft tissues. The concept of design is built upon simple use of several springs which are made from Shape Memory Alloy, SMA, to control shape and stiffness. The mechanical design of the device is described, and sensors (displacement, current and force) are integrated with the device to control the SMA springs. The elongation spring, responsible for displaying the shape is characterized and controlled experimentally. The device shows it can display a displacement of 5 mm in 5 seconds with PI controller using LabVIEW software.
Keywords :
PI control; biological tissues; biomedical equipment; design engineering; displacement control; force sensors; haptic interfaces; hardness; intelligent actuators; shape memory effects; shapes (structures); springs (mechanical); surgery; tactile sensors; virtual instrumentation; LabVIEW software; MIS; PI controller; SMA spring; biomedical application; current sensor; displacement sensor; elongation spring; force sensor; mechanical design; minimally invasive surgery; multimodal tactile display device; shape characterization; shape control; shape memory alloy; soft tissue; stiffness conttrol; tissue hardness; PI controller; SMA coil actuation; SMA control; Tactile display;
Conference_Titel :
Innovative Engineering Systems (ICIES), 2012 First International Conference on
Conference_Location :
Alexandria
Print_ISBN :
978-1-4673-4440-1
DOI :
10.1109/ICIES.2012.6530836
