Title :
A new design for the BirthSIM simulator to improve realism
Author :
Herzig, Nicolas ; Moreau, Richard ; Redarce, Tanneguy
Author_Institution :
Lab. Ampere, Univ. de Lyon, Villeurbanne, France
Abstract :
This paper presents a new design of the BirthSIM simulator. Its goal is to help obstetricians and midwives to train and improve their skills during childbirth delivery. The new version of the BirthSIM is more actuated than the previous version in order to be more biofidelic and cover various scenarios. The direct and inverse geometric models of the haptic interface are presented. The working space reached by the fetal head is computed and validates the proposed design which allows to reproduce all fetal head trajectories inside the pelvis. The novelty is illustrated by an example which presents a simulated trajectory stemmed from a sacrum shape measure. The inverse geometric model allows to compute the actuators displacements and thus to validate the chosen components.
Keywords :
biomedical education; computer based training; haptic interfaces; medical computing; obstetrics; BirthSIM simulator design; actuator displacements; childbirth delivery; direct geometric model; fetal head trajectories; haptic interface; improve realism; inverse geometric model; midwives; obstetricians; pelvis; sacrum shape measure; simulated trajectory; working space; Haptic interfaces; Head; Numerical models; Pelvis; Robots; Training; Trajectory;
Conference_Titel :
Engineering in Medicine and Biology Society (EMBC), 2014 36th Annual International Conference of the IEEE
Conference_Location :
Chicago, IL
DOI :
10.1109/EMBC.2014.6944022
