Title :
A haptic catheter operating system using magnetorheological fluids
Author :
Xuanchun Yin ; Shuxiang Guo ; Chunfeng Yue ; Yu Wang
Author_Institution :
Grad. Sch. of Eng., Kagawa Univ., Takamatsu, Japan
Abstract :
Minimally invasive surgery and Therapy (MIST) is popular used both for diagnosis and for surgery. Teleoperation, a new kind of surgery, is used to protect the surgeon from X-ray radiation. However, some safety problem should be considered because the surgeon was separated from the patient remotely. A most effective address method is design of a haptic interface as a master console, which can provide the `immersive´ operation to the surgeon. In this paper, a new haptic interface is design for catheter operation surgery through controlling smart material-magnetorheological fluids. Magnetic field, haptic interface and haptic performance calibration mechanism have been designed and fabricated. Some experiments have been done to verify the efficiency of haptic interface, which can be used as master console as well as training simulator for non-experience surgeon.
Keywords :
calibration; catheters; haptic interfaces; intelligent materials; magnetorheology; medical computing; remote consoles; surgery; telemedicine; MIST; X-ray radiation; catheter operation surgery; haptic catheter operating system; haptic interface; haptic performance calibration mechanism; immersive operation; magnetic field; master console; minimally invasive surgery-and-therapy; patient diagnosis; safety problem; smart material-magnetorheological fluids; teleoperation; Catheters; Coils; Fluids; Force; Haptic interfaces; Magnetic liquids; Surgery; Catheter Operating System; Haptic Interface; Magnetorheological Fluids (MRFs); Minimally Invasive Surgery and Therapy (MIST); Stability; Telerobotics; Transparency;
Conference_Titel :
Mechatronics and Automation (ICMA), 2014 IEEE International Conference on
Conference_Location :
Tianjin
Print_ISBN :
978-1-4799-3978-7
DOI :
10.1109/ICMA.2014.6885944
