Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
about
Lower Limb Rehabilitation Using Patient Data.The effectiveness of powered, active lower limb exoskeletons in neurorehabilitation: A systematic review.A robust nonlinear observer for real-time attitude estimation using low-cost MEMS inertial sensors.High path tracking control of an intelligent walking-support robot under time-varying friction and unknown parameters
P2860
Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
description
journal article; published in Advanced Robotics in 2012
@en
journal article; published in Advanced Robotics in 2012
@en-ca
journal article; published in Advanced Robotics in 2012
@en-gb
name
Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
@en
Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
@en-ca
Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
@en-gb
type
label
Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
@en
Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
@en-ca
Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
@en-gb
prefLabel
Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
@en
Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
@en-ca
Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
@en-gb
P2093
P2860
P356
P1433
P1476
Lower-Limb Movement Assistance through Wearable Robots: State of the Art and Challenges
@en
P2093
Hala Rifai
Samer Mohammed
Yacine Amirat
P2860
P356
10.1163/016918611X607356
P577
2012-01-01T00:00:00Z