Abstract
Orthoses for the lower limbs support patients to perform movements that they could not perform on their own. In traditional devices, generic gait models for a limited set of supported movements restrict the patients mobility and device acceptance. To overcome such limitations, we propose a modular neural control approach with user feedback for personalizable Knee-Ankle-Foot-Orthoses (KAFO). The modular controller consists of two main neural components: neural orthosis control for gait phase tracking and neural internal models for gait prediction and selection. A user interface providing online feedback allows the user to shape the control output that adjusts the knee damping parameter of a KAFO. The accuracy and robustness of the control approach were investigated in different conditions including walking on flat ground and descending stairs as well as stair climbing. We show that the controller accurately tracks and predicts the user's movements and generates corresponding gaits. Furthermore, based on the modular control architecture, the controller can be extended to support various distinguishable gaits depending on differences in sensory feedback.
Highlights
Bipedal gait is inherently unstable (Winter, 1995; Milton et al, 2009) and requires constant balancing and support from the lower limbs
We focus on a knee-ankle-foot-orthosis (KAFO), a device which is attached to the lower limbs and provides mechanical support to its users
In this study we present gait dependent damping modulation based on gait phase tracking
Summary
Bipedal gait is inherently unstable (Winter, 1995; Milton et al, 2009) and requires constant balancing and support from the lower limbs. We focus on a knee-ankle-foot-orthosis (KAFO), a device which is attached to the lower limbs and provides mechanical support to its users. Selecting and fitting such a supportive device for a patient are performed by professional staff. Based on a given patient’s condition, the professional staff determines a device providing the support needed to enable or improve the patient’s locomotion. This choice has to take into account the patient’s remaining abilities, balancing the patient’s need for support against the danger of excessive support which might prevent use of the patient’s remaining abilities.
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