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
C-STAR: Individualized Resting-State fMRI-Guided Transcranial Magnetic Stimulation Treatment for Depressive Symptoms in Patients with TBI
C-STAR: Inner Workings: Vagal Afferent Control of Motivation and Implications for Treatments
C-STAR: Making Cognitive Neuroscience More Open and Reproducible
C-STAR: Merging Humans And Machines To Assist Walking And Running: Robotic Exoskeletons, Bionic Prostheses, And Mobile Brain Imaging
C-STAR: MyndMove: How Functional Electrical Stimulation Therapy for Reaching and Grasping Can be Used to Overcome Paralysis
C-STAR: Non-Invasive Electrical Stimulation for Spinal Cord Injury and Amyotrophic Lateral Sclerosis
C-STAR: Non-Invasive Vagus Nerve Stimulation: a Potential Approach for Cognitive Rehabilitation
C-STAR: Pairing Non-Invasive Brain Stimulation with Memory Reactivation: Rapid Learning and Unlearning in the Human Brain
C-STAR: Practical, Neuroscience Based Rehabilitation
C-STAR: Principles of Effective Mentoring
C-STAR: Promising Features of Future Robot-Aided Therapy
C-STAR: Robotics in the Era of Foundation Models
C-STAR: Soft, Skin-Interfaced Wireless Devices for Rehabilitation