Robust Motion Control Architecture for an Upper-Limb Rehabilitation Exosuit

Abstract: Upper-limb exosuits are light wearable devices suitable for applications such as rehabilitation or assistance in industrial environments. One of the main drawbacks of these systems is the amount of uncertainties intrinsic to the nature of the device. Moreover, the direct interaction between the exosuit and its user adds disturbances to the system. Therefore, a robust control architecture to these phenomena is required for its appropriate control. In this article, a robust motion (position and speed) control ar… Show more

“…Their purpose is to improve the performance of the human body, reducing energy consumption, delaying fatigue, and increasing body speed. Wearable exoskeleton devices have a high development space in medical rehabilitation, power assistance and military fields [2,3]. One example is the IHMC exoskeleton or BLEEX [4,5].…”

An Unpowered Knee Exoskeleton for Walking Assistance and Energy Capture

“…Their purpose is to improve the performance of the human body, reducing energy consumption, delaying fatigue, and increasing body speed. Wearable exoskeleton devices have a high development space in medical rehabilitation, power assistance and military fields [2,3]. One example is the IHMC exoskeleton or BLEEX [4,5].…”

An Unpowered Knee Exoskeleton for Walking Assistance and Energy Capture

A Two Loop Sliding Mode Controller for Upper Limb Exosuit in Presence of Actuator Non-linearities