Power-Assist for lower-limb is expected by many physically weak persons to assist their daily activities. It is important for the power-assist robots that the assist motion is generated based on users motion intention. This paper presents a muscle-model-oriented EMG-based (electromyogram-based) control method to activate a lower-limb power-assist robot according to the users motion intention since the EMG directly reflects the users muscle activities. In the proposed method, a matrix which expresses the relationship between the muscle activities and the generating joint torque is applied to estimate the users motion intention in real-time. The effectiveness of the proposed control method was evaluated by performing experiments.

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In order to assist the lower limb disabled people to walk, walking-support exoskeletons with bio/kinesthetic sensors such as EMG (Electromyography), gyroscope, and FSR (Force Sensing Resistor) have been developed. It is important to implicitly recognize the walking intention and control the walking-support mechanism. The objective of this work is to examine the walking intention while a person is walking with Lofstrand crutches by analyzing multiple bio/kinesthetic sensor signals. We developed watch/glove and shoe-insoles sensor modules using FSR sensors to recognize the user’s walking states as well as intention to walk. The FSR signals measuring force at the palm and Gyro sensor signals reflecting the pose of the upper limb were used as clues for recognizing walking intention. While seventeen normal subjects walked for five gate cycles based on the triped walking (i.e., placing crutches in forward and then moving one step) with crutches, the FSR and Gyro signals were acquired from their palms and area of vertebrae lumbales. The result showed that the combination of FSR and Gyro signals could recognize user’s implicit intention to walk — start walking, keep walking, and stop walking.

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Existing lower extremity exoskeletons lack sufficient foot support area to guarantee safe operation for rehabilitation of patients, and normal posture/gait for users carrying heavy loads on backpack. In order to enhance the stability of lower extremity exoskeletons, an adaptive foot system is presented. It consists of two foot extensions, one extending behind the toe and another on the heel side that extends the support area behind the heel when the foot is flat and retracts when the heel is off the ground. Such a system has an important application in rehabilitation for enhancing stability where safety of patients is critical. We present a detailed description of the adaptive foot system and analyze the stability in sagittal plane.

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Carrying a load increases the metabolic costs of movement: exoskeletons are devices developed primarily to minimize the operatorpsilas energetic contribution for the action. The rise of the exoskeletons research can be set in the second half of the past century. The most important contribution given by these early attempts to develop supporting structures for human use, was to identify and focus the researcherpsilas attention on some key aspects, fundamental for a further implementation of these devices. Among them, the importance of efficient and small supply systems, of precision and control, o simple human interface and of the knowledge of locomotion biomechanics. The aim is a technological approach capable to match the artificial system with the human beings with minimum interactions and maximum synergy. This work deal with the state of art of the projects facing with the development of exoskeletons and active orthoses for the lower limbs. It focuses the actuators problem showing advantages and disadvantages of a variety of technological alternatives. The work is the starting point for a new exoskeleton design.

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