With nearly 1 billion people suffering from a form of neurological disease, scientific research has made remarkable progress in our understanding of the brain in pathological conditions. However, studies can be restricted by difficulties in establishing human disease models and the transferability of data collected from animal studies. Neurorobotics can offer novel solutions through humanoid robots and disease modeling techniques, which aid progressive rehabilitation therapies.
This Research Topic wishes to improve our biological understanding of neurological diseases by examining neural disturbance, behavioral effects, and therapeutic solutions through neurorobotics. We aim to uncover research that will further our knowledge on neurological disease development and recovery.
This Research Topic welcomes research on but not limited to:
• Computational neural modeling
• Recovery therapies, including constraint-induced movement
therapy (CIMT) and Robot-Assisted Therapy (RT)
• Neurodegeneration
• Humanoid robot models
• Artificial intelligence diagnosis
With nearly 1 billion people suffering from a form of neurological disease, scientific research has made remarkable progress in our understanding of the brain in pathological conditions. However, studies can be restricted by difficulties in establishing human disease models and the transferability of data collected from animal studies. Neurorobotics can offer novel solutions through humanoid robots and disease modeling techniques, which aid progressive rehabilitation therapies.
This Research Topic wishes to improve our biological understanding of neurological diseases by examining neural disturbance, behavioral effects, and therapeutic solutions through neurorobotics. We aim to uncover research that will further our knowledge on neurological disease development and recovery.
This Research Topic welcomes research on but not limited to:
• Computational neural modeling
• Recovery therapies, including constraint-induced movement
therapy (CIMT) and Robot-Assisted Therapy (RT)
• Neurodegeneration
• Humanoid robot models
• Artificial intelligence diagnosis