The control system for the Berkeley lower extremity exoskeleton (BLEEX) requires ground contact pressure information to operate safely and effectively. Commercially available in-sole sensors do not have sufficient bandwidth, accuracy and reliability for such a system. We have designed and prototyped an in-sole ground contact sensor that uses MEMS pressure transducers placed in an array of hermetically sealed cavities. This system provides a robust method to monitor ground contact pressures.

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Exoskeletons are mechatronic systems worn by a person in such a way that the physical interface permits a direct transfer of mechanical power and exchange of information. These robotic mechanisms have been applied in telemanipulation, man-amplifier, rehabilitation and to assist impaired human motor control. In addition, the neuromotor control research can benefit from anexoskeleton in order to manipulate human arm movements within its natural workspace, which is not possible with traditional robotic manipulandum because of its constraints. The aim of this paper is to describe a set of experiments in motor control and the application of powered upper limb exoskeleton in which the mechanical requirements of the movement will be modified, e.g. removal of the interaction torques in order to identify their impact on the production of complex coordination patterns in healthy subjects with the possibility for a future application to neurologically impaired subjects. As preliminary results, are shown responses to changes in viscosity and inertia when external perturbations (viscous load and inertia) are applied during execution of elbow angular cyclical movements using a robotic exoskeleton.

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The development of innovative exoskeletons for the upper limb requires a strong collaboration between robotics and neuroscience. The robotic system will be deeply coupled to the human user and the exoskeleton design should be based on the human model in terms of biomechanics, and control and learning strategies. This paper presents the preliminary results of the design process of the Neurobotics exoskeleton (NEUROexos). A bioinspired three joints-three links robotic arm is under development for implementing bioinspired control strategies and for obtaining a human-like robotic arm to be used for assessing active exoskeletons in fully safe conditions. In particular, this paper presents the shoulder joint-first link prototype, the selected actuation system, the actuator modelling and identification, and the experimental evaluation of the prototype capability to replicate the human shoulder kinematics during the execution of a catching task.

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Stroke forms one of the leading causes of death amongst adults in industrialized countries, and although survival rates are comparatively high in up to 1/3 of patients there is functional impairments (particularly in the upper limbs) that can persist even after rehabilitation training. Tasked based rehabilitation therapy (shaping) is a new approach that seems to offer good success compared to traditional methods, however, the technique requires very intensive and prolonged treatment. Robot mediated physiotherapy is the recent answer to the shortage of staff and the cost associated with this. In this paper a robotic approach to task based therapy is shown. The work focuses on how a robotic exoskeleton operating in a 3D volume can be used in conjunction with a Virtual Environment rehabilitation suite for training patients in relearning daily motor tasks. Salford RehabilitationExoskeleton (SRE) is used as an assistive device which helps individuals retrain in performing motor tasks by assisting them to complete therapy regimes. EMG recordings are used to show the capacity of the system to mediate the level of assistance provided from full assistance to zero aid.

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