Title :
Haptic bone drilling interaction based on a mechanistic model
Author :
Jie Kou ; Qiong Wang ; Jing Qin ; Jianying Li ; Pheng Ann Heng
Author_Institution :
Shenzhen Inst. of Adv. Technol., Shenzhen, China
Abstract :
Haptic drilling simulation is important but challenging in a virtual orthopedic operations training system. A mechanistic force model is proposed to realize the bone drilling haptic interaction, which can realistically predict the thrust force, radius force and tang force. This detailed model describes the cutting action at the drill area and divided it into three parts: forces on the cutting lips, inner portion of the chisel edge and outer portion of the chisel edge. We optimally modeled the drillbit geometry and experimental results demonstrate that our method can provide effective and stable simulating forces that could be used in the surgical training and rehearsal.
Keywords :
biomedical education; computer based training; cutting; drilling; haptic interfaces; medical computing; surgery; bone drilling haptic interaction; chisel edge; cutting action; cutting lips; drillbit geometry modeling; force simulation; haptic bone drilling interaction; haptic drilling simulation; mechanistic force model; mechanistic model; radius force prediction; surgical rehearsal; surgical training; tang force; thrust force prediction; virtual orthopedic operations training system; Bones; Computational modeling; Drilling machines; Force; Haptic interfaces; Lips; Solid modeling; Bone drilling; haptic interaction; surgical simulation;
Conference_Titel :
Information Science and Technology (ICIST), 2014 4th IEEE International Conference on
Conference_Location :
Shenzhen
DOI :
10.1109/ICIST.2014.6920547
