C-STAR Course: Art and Science of Creating Intuitive Devices
C-STAR Course: Machine Learning and Sensors to Enhance Rehabilitation Research
C-STAR: A High Level Overview of Brain Stimulation Approaches to Rehabilitation
C-STAR: A New Breakthrough Neuromodulation Method: Electro-Ionic Modulation
C-STAR: Are We Optimizing Our Rehabilitative Therapies Enough?
C-STAR: Artificial Intelligence and Rehabilitation
C-STAR: Assistive Autonomy Revisited
C-STAR: Automated Video Analysis of Motor Impairments
C-STAR: Bio-Feedback Rehabilitation and Habilitation Based On Brain Control Principle
C-STAR: Biological and Bionic Hands: Natural Neural Coding and Artificial Perception
C-STAR: Body Machine Interfaces: From Basic to Clinical Neuroscience and Back
C-STAR: Community Stakeholder Engagement in Translational Research: Introduction to Concepts, Methods, and Resources
C-STAR: Cortical Activity Indexes Distinct Aspects of Balance Function in Health, Aging, and Disease
C-STAR: Course Highlights for Wearable Sensors in Rehabilitation: Tracking for the Future
C-STAR: Deep Learning-Based Control of Bionic Legs
C-STAR: Determining Neural Mechanisms Underlying Motor Impairments Following Unilateral Brain Injury Using Engineering Approaches: Impact on Rehabilitation
C-STAR: Developing Advanced Prototypes for Clinical Testing and Commercial Translation
C-STAR: EEG-Based Brain-Computer Interface in The Clinic: A Primer
C-STAR: Functional Enhancement with Noninvasive Brain Stimulation: a Skeptical User’s Take
C-STAR: Implementation Science for Rehabilitation Research & Development