Documents. Figure 10. Most cited 2012, Med Eng Phys0 10 20 30 0 10 202014 1 12015 1 1 2 22017 1 1 1 12019Mohhamed, S. Amirat, Y.
Documents. Figure ten. Most cited 2012, Med Eng Phys0 ten 20 30 0 10 202014 1 12015 1 1 2 22017 1 1 1 12019Mohhamed, S. Amirat, Y. Rifai, H. Vitiello, N. Agrawal, SK Cempini, M. Appl. Sci. 2021, 11, x FOR PEER Evaluation Domingo, A. Han, C. 1 Hyun, DJ Lam, x Appl. Sci. 2021, 11,T. FOR PEER Overview Li, J. Tu, X.1 1 112 of1 two 1 2 1 1 112 ofThe United states is definitely the most productive country (14 documents), followed by the Figure 10.Kingdom (13 documents) and China (7 documents) (see Figure 11). Figure ten. Most cited documents. United Most cited documents. The United states is definitely the most productive country (14 documents), followed by the United kingdom (13 documents) and China (7 documents) (see Figure 11).Figure 11. The most productive countries inin building exoskeletons for the knee joint. Figure 11. One of the most productive nations creating exoskeletons for the knee joint.Table five shows the chosen articles, used in the scientometric analysis made use of, outcomes of Table five shows the chosen articles, utilized inside the scientometric evaluation employed, benefits of the databases and selection criteria. Figure 11. Probably the most productive criteria. in establishing exoskeletons for the knee joint. the databases and selection countriesTable five. Articles chosen articles, used in the scientometric evaluation used, outcomes of Table 5 shows the analyzed about knee exoskeletons. the databases and choice criteria. Most important YTX-465 Autophagy Author Title YearCiteAppl. Sci. 2021, 11,13 ofTable 5. Articles analyzed about knee exoskeletons. Cite [91] [92] [93] [94] [95] [96] [97] [98] [99] [100] [101] [102] [103] [104] [105] [106] [107] [108] [109] [110] [111] [112] [113] [114] Most important Author Heike Vallery Sancisi, N. Jungwon Yoon Nam, Y Akdogan, E Kim, K Mefoued, S Lalami, ME Thomas C. Bulea Andrew Q. Tan Sujay S. Galen Yan, H. Seungnam Yu Lukas Jaeger Walid Hassani Antoinette Domingo Kamran Shamaei Mohammed, S Louis Flynn Meng, W. Dominic James Farris Damiano Zanotto Seung-Kook Jun Shamaei, K Title Complementary limb motion estimation for the control of active knee prostheses A one-degree-of-freedom spherical mechanism for human knee joint modeling An Adaptive Foot Device for Increased Gait and Postural Stability in Reduce Limb Orthoses and Exoskeletons Calculation of Knee Joint Moment in Isometric and Isokinetic Knee Motion The design and manage of a therapeutic exercise robot for reduce limb rehabilitation: Physiotherabot Development in the Exoskeleton Knee Rehabilitation Robot Employing the Linear Actuator Toward Movement Restoration of Knee Joint Applying Robust Control of Powered Orthosis Output feedback manage of an actuated reduce limb orthosis with bounded input Stance-controlled knee flexion IEM-1460 Epigenetic Reader Domain improves stimulation-driven walking soon after spinal cord injury. Evaluation of lower limb cross planar kinetic connectivity signatures post-stroke Isometric hip and knee torque measurements as an outcome measure in robot-assisted gait education Style and validation of a reduced limb exoskeleton employing the recumbent cycling modality for post-stroke rehabilitation Design Considerations of a Reduce Limb Exoskeleton Program to Help walking and Load-Carrying of Infantry Soldiers Brain activation connected with active and passive lower limb stepping Powered orthosis for lower limb movements assistance and rehabilitation Reliability and validity of using the Lokomat to assess lower limb joint position sense in people today with incomplete spinal cord injury Design and Evaluation of a Quasi-Passive Knee Exoskeleton for Investigati.