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Control of trunk posture to improve gait rehabilitation
Recently featured in “Scientific Reports”, a rehabilitation robotic system that controls trunk posture in closed-loop improves locomotor performance during gait rehabilitation after spinal cord injury. To date, rehabilitation robotics has primarily focused on assistive devices that guide leg movements in order to maximize locomotor consistency and effort during training. Despite the importance of trunk posture …
Continue reading “Control of trunk posture to improve gait rehabilitation”
Prof. Robert Riener NCCR Co-Director & Professor Management Team and Sensory-Motor Systems Lab (SMS), ETH Zurich riener@hest.ethz.ch +41 44 632 66 79
Prof. Walter Karlen Professor Mobile Health Systems Laboratory (MHSL), ETH Zurich walter.karlen@hest.ethz.ch +41 44 633 77 54
Dr. Jaime Duarte Postdoctoral Researcher Sensory-Motor Systems Lab (SMS), ETH Zurich jaime.duarte@hest.ethz.ch +41 44 632 57 95
Stefan Schrade Doctoral Student Rehabilitation Engineering Laboratory (RELab), ETH Zurich stefan.schrade@hest.ethz.ch +41 44 510 72 31
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Neurorehabilitation Technology, ch. The human in the loop
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In classical man-machine interfaces applied to rehabilitation, the primary goal is to control the (bio)mechanical interaction between the human and the machine or environment. However, integrating the human into the loop can be considered not only from a biomechanical view but also with regard to psychophysiological aspects. Biomechanical integration involves ensuring that the system to be used is ergonomically acceptable and “user cooperative.” Psychophysiological integration involves recording and controlling the patient’s physiological reactions so that the patient receives appropriate stimuli and is challenged in a moderate but engaging way without causing undue stress or harm. In this chapter, we present examples of biomechanical and psychophysiological integration of patients that have been verified with the gait robot Lokomat.
Posted on: March 22, 2012