ISSN 0169-1864 (Print); ISSN 1568-5535 (Online)
Publisher: Taylor and Francis Ltd
Clinical-Based, Task-Specific and Subject-Oriented Approaches Essential to Effective Robotics Rehabilitation pp. 1851-1855(5) Authors: Low, K. H.; Ohnishi, Kengo; Agrawal, Sunil K.
Gait Recovery in Healthy Subjects: Perturbations to the Knee Motion with a Smart Knee Brace pp. 1857-1877(21) Authors: Temel, Mehmet; Rudolph, Katherine S.; Agrawal, Sunil K.
Stroke Survivors' Gait Adaptations to a Powered Ankle–Foot Orthosis pp. 1879-1901(23) Authors: Ward, Jeffrey; Sugar, Thomas; Boehler, Alexander; Standeven, John; Engsberg, Jack R.
Gait Pattern Adaptation for an Active Lower-Limb Orthosis Based on Neural Networks pp. 1903-1925(23) Authors: Gomes, M. A.; Silveira, G. L. M.; Siqueira, A. A. G.
Initial System Evaluation of an Overground Rehabilitation Gait Training Robot (NaTUre-gaits) pp. 1927-1948(22) Authors: Wang, Ping; Low, K. H.; Tow, Adela; Lim, P. H.
Rehabilitation Robot with Patient-Cooperative Control for Bimanual Training of Hemiparetic Subjects pp. 1949-1968(20) Authors: Trlep, Matic; Mihelj, Matjaž; Puh, Urška; Munih, Marko
Modeling and Verification of a Bimanual-Coordinated Training System pp. 1969-1989(21) Authors: Li, Chunguang; Inoue, Yoshio; Liu, Tao; Shibata, Kyoko; Sun, Lining
Clinical-Based Engineering Assessment and Data Interpretation of Hand Strength for Task-Oriented Robotic Rehabilitation pp. 1991-2018(28) Authors: Huang, Y. Y.; Low, K. H.; McGregor, A. H.; Kong, K. H.