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Machine Learning for Human Motion Intention Detection
Machine Learning for Human Motion Intention Detection
by Hsu, Che-Kang , Hsu, Wei-Li , Wang, Fu-Cheng , Tsao, Tsu-Chin , Yen, Jia-Yush , Lin, Jun-Ji
in Calibration / Data collection / feedforward neural network (FNN) / Gait / human intention detection / human–robot interaction / inertial measurement unit (IMU) / Kinematics / long short-term memory (LSTM) / Machine learning / Mobile applications / Neural networks / Robotics / Robots / Sensors / Technical Note / Wireless telephone software
2023
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Machine Learning for Human Motion Intention Detection
by Hsu, Che-Kang , Hsu, Wei-Li , Wang, Fu-Cheng , Tsao, Tsu-Chin , Yen, Jia-Yush , Lin, Jun-Ji
in Calibration / Data collection / feedforward neural network (FNN) / Gait / human intention detection / human–robot interaction / inertial measurement unit (IMU) / Kinematics / long short-term memory (LSTM) / Machine learning / Mobile applications / Neural networks / Robotics / Robots / Sensors / Technical Note / Wireless telephone software
2023
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Machine Learning for Human Motion Intention Detection
Machine Learning for Human Motion Intention Detection
by Hsu, Che-Kang , Hsu, Wei-Li , Wang, Fu-Cheng , Tsao, Tsu-Chin , Yen, Jia-Yush , Lin, Jun-Ji
in Calibration / Data collection / feedforward neural network (FNN) / Gait / human intention detection / human–robot interaction / inertial measurement unit (IMU) / Kinematics / long short-term memory (LSTM) / Machine learning / Mobile applications / Neural networks / Robotics / Robots / Sensors / Technical Note / Wireless telephone software
2023

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Mohammed Bin Rashid Library /
Catalogue /
Machine Learning for Human Motion Intention Detection
Machine Learning for Human Motion Intention Detection
Journal Article

Machine Learning for Human Motion Intention Detection

Hsu, Che-Kang,
Hsu, Wei-Li,
Wang, Fu-Cheng,
Tsao, Tsu-Chin,
Yen, Jia-Yush,
Lin, Jun-Ji
2023
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Overview
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 transition between gaits to achieve in-time detection. This study used the data from IMU sensors for future mobile applications. Furthermore, we tested using two machine learning networks: a linearfFeedforward neural network and a long short-term memory network. The gait data are from five subjects for training and testing. The study results show that: 1. The network can successfully separate the transition period from the motion periods. 2. The detection of gait change from walking to sitting can be as fast as 0.17 s, which is adequate for future control applications. However, detecting the transition from standing to walking can take as long as 1.2 s. 3. This study also find that the network trained for one person can also detect movement changes for different persons without deteriorating the performance.
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Publisher
MDPI AG,MDPI
Subject

Calibration

/ Data collection

/ feedforward neural network (FNN)

/ Gait

/ human intention detection

/ human–robot interaction

/ inertial measurement unit (IMU)

/ Kinematics

/ long short-term memory (LSTM)

/ Machine learning

/ Mobile applications

/ Neural networks

/ Robotics

/ Robots

/ Sensors

/ Technical Note

/ Wireless telephone software

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