A biologically inspired soft exosuit for walking assistance
نویسندگان
چکیده
We present the design and evaluation of a multi-articular soft exosuit that is portable, fully autonomous, and provides assistive torques to the wearer at the ankle and hip during walking. Traditional rigid exoskeletons can be challenging to perfectly align with a wearer’s biological joints and can have large inertias, which can lead to the wearer altering their natural motion patterns. Exosuits, in comparison, use textiles to create tensile forces over the body in parallel with the muscles, enabling them to be light and not restrict the wearer’s kinematics. We describe the biologically inspired design and function of our exosuit, including a simplified model of the suit’s architecture and its interaction with the body. A key feature of the exosuit is that it can generate forces passively due to the body’s motion, similar to the body’s ligaments and tendons. These passively-generated forces can be supplemented by actively contracting Bowden cables using geared electric motors, to create peak forces in the suit of up to 200N. We define the suit-human series stiffness as an important parameter in the design of the exosuit and measure it on several subjects, and we perform human subjects testing to determine the biomechanical and physiological effects of the suit. Results from a five-subject study showed a minimal effect on gait kinematics and an average best-case metabolic reduction of 6.4%, comparing suit worn unpowered vs powered, during loaded walking with 34.6kg of carried mass including the exosuit and actuators (2.0kg on both legs, 10.1kg total).
منابع مشابه
Title : Ankle Optimization with a Soft Exosuit Reduces Metabolic Cost of Loaded Walking
[1] Panizzolo et al, A biologically-inspired multi-joint soft exosuit that can reduce the energy cost of loaded walking, JNER, 2016 [2] Quinlivan et al, Assistance magnitude versus metabolic cost reductions for a tethered multiarticular soft exosuit, Sci Robot, 2017 [3] Lee et al, Controlling Negative and Positive Power at the Ankle with a Soft Exosuit, ICRA, 2016 [4] Malcolm et al, Varying neg...
متن کاملComparison of Ankle Moment Inspired and Ankle Positive Power Inspired Controllers for a Multi - articular Soft Exosuit for Walking Assistance
Mobility can be limited due to age or impairments. Wearable robotics provide the chance to increase mobility and thus independence. A powered soft exosuit was designed that assist with both ankle plantarflexion and hip flexion through a multi-articular suit architecture. So far, the best method to reduce metabolic cost of human walking with external forces is unknown. Two basic control strategi...
متن کاملAssistance magnitude versus metabolic cost reductions for a tethered multiarticular soft exosuit
When defining requirements for any wearable robot for walking assistance, it is important to maximize the user’s metabolic benefit resulting from the exosuit assistance while limiting the metabolic penalty of carrying the system’s mass. Thus, the aim of this study was to isolate and characterize the relationship between assistance magnitude and the metabolic cost of walking while also examining...
متن کاملReducing Circumduction and Hip Hiking During Hemiparetic Walking Through Targeted Assistance of the Paretic Limb Using a Soft Robotic Exosuit.
OBJECTIVE The aim of the study was to evaluate the effects on common poststroke gait compensations of a soft wearable robot (exosuit) designed to assist the paretic limb during hemiparetic walking. DESIGN A single-session study of eight individuals in the chronic phase of stroke recovery was conducted. Two testing conditions were compared: walking with the exosuit powered versus walking with ...
متن کاملBiomechanical mechanisms underlying exosuit-induced improvements in walking economy after stroke.
Stroke-induced hemiparetic gait is characteristically asymmetric and metabolically expensive. Weakness and impaired control of the paretic ankle contribute to reduced forward propulsion and ground clearance - walking subtasks critical for safe and efficient locomotion. Targeted gait interventions that improve paretic ankle function after stroke are therefore warranted. We have developed textile...
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ورودعنوان ژورنال:
- I. J. Robotics Res.
دوره 34 شماره
صفحات -
تاریخ انتشار 2015