Stability and Control of Human Trunk Movement During Walking |
| |
Authors: | Q WU N SEPEHRI A B THORNTON-TRUMP M ALEXANDER |
| |
Institution: | 1. Department of Mechanical and Industrial Engineering;2. Faculty of Physical Education, The University of Manitoba Winnipeg , Manitoba, R3T 5V6, Canada |
| |
Abstract: | A mathematical model has been developed to study the control mechanisms of human trunk movement during walking. The trunk is modeled as a base-excited inverted pendulum with two-degrees of rotational freedom. The base point, corresponding to the bony landmark of the sacrum, can move in three-dimensional space in a general way. Since the stability of upright posture is essential for human walking, a controller has been designed such that the stability of the pendulum about the upright position is guaranteed. The control laws are developed based on Lyapunov' stability theory and include feedforward and linear feedback components. It is found that the feedforward component plays a critical role in keeping postural stability, and the linear feedback component, (resulting from viscoelastic function of the musculoskeletal system) can effectively duplicate the pattern of trunk movement. The mathematical model is validated by comparing the simulation results with those based on gait measurements performed in the Biomechanics Laboratory at the University of Manitoba. |
| |
Keywords: | Postural stability trunk movement Lyapunov's stability theory controls simulations |
|
|