AI Article Synopsis
- This paper introduces a method to assess the postural stability of individuals using a lower limb exoskeletal robot, focusing on the HAT (Head-Arm-Trunk) model to estimate the body's Center of Mass (CoM) despite lacking sensors in upper body segments.
- The HAT model was validated by comparing CoM estimates from a full human body model with VICON motion data, showing a difference of less than 20 mm for various movements, indicating its accuracy.
- Using the HAT model, the study demonstrates that the Extrapolated Center of Mass (XCoM) can predict postural instability 20-250 milliseconds earlier than the traditional CoM method, enhancing safety measures for users of
Article Abstract
This paper proposes a method of detecting the postural stability of a person wearing the lower limb exoskeletal robot with the HAT(Head-Arm-Trunk) model. Previous studies have shown that the human posture is stable when the CoM(Center of Mass) of the human body is placed on the BoS(Base of Support). In the case of the lower limb exoskeletal robot, the motion data, which are used for the CoM estimation, are acquired by sensors in the robot. The upper body, however, does not have sensors in each segment so that it may cause the error of the CoM estimation. In this paper, the HAT(Head-Arm-Trunk) model which combines head, arms, and torso into a single segment is considered because the motion of head and arms are unknown due to the lack of sensors. To verify the feasibility of HAT model, the reflecting markers are attached to each segment of the whole human body and the exact motion data are acquired by the VICON to compare the COM of the full body model and HAT model. The difference between the CoM with full body and that with HAT model is within 20mm for the various motions of head and arms. Based on the HAT model, the XCoM(Extrapolated Center of Mass) which includes the velocity of the CoM is used for prediction of the postural stability. The experiment of making unstable posture shows that the XCoM of the whole body based on the HAT model is feasible to detect the instance of postural instability earlier than the CoM by 20-250 msec. This result may be used for the lower limb exoskeletal robot to prepare for any action to prevent the falling down.
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