2023
DOI: 10.3390/s23167203
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Machine Learning for Human Motion Intention Detection

Abstract: The gait pattern of exoskeleton control conflicting with the human operator’s (the pilot) intention may cause awkward maneuvering or even injury. Therefore, it has been the focus of many studies to help decide the proper gait operation. However, the timing for the recognization plays a crucial role in the operation. The delayed detection of the pilot’s intent can be equally undesirable to the exoskeleton operation. Instead of recognizing the motion, this study examines the possibility of identifying the transi… Show more

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Cited by 2 publications
(1 citation statement)
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“…In addition, the dataset of activities to be recognized can be enlarged so as to include other clinically relevant transitional motor actions (e.g., stand-to-walk, stand-to-sit, walkto-sit, or lying-to-sit). In so doing the proposed framework could be even addressed for evaluations of either motor or cognitive impact, such as motion intent recognition [68][69][70]. Furthermore, acquiring inertial signals during stair ambulation would offer the possibility to investigate another motor pattern in which some patients would exhibit an abnormal execution of the task due to the fear of falling [15].…”
Section: Discussionmentioning
confidence: 99%
“…In addition, the dataset of activities to be recognized can be enlarged so as to include other clinically relevant transitional motor actions (e.g., stand-to-walk, stand-to-sit, walkto-sit, or lying-to-sit). In so doing the proposed framework could be even addressed for evaluations of either motor or cognitive impact, such as motion intent recognition [68][69][70]. Furthermore, acquiring inertial signals during stair ambulation would offer the possibility to investigate another motor pattern in which some patients would exhibit an abnormal execution of the task due to the fear of falling [15].…”
Section: Discussionmentioning
confidence: 99%