
Development of a Wearable Non‑Invasive Neuromodulation Device Prototype for Migraine Relief
Development of Multimodal Assessment of Parkinson’s Disease Development of a Wearable Non‑Invasive Neuromodulation Device Prototype for Migraine Relief A wearable

Design and Development of a Material-Aware Adaptive Grasping Robotic Hand
Development of Multimodal Assessment of Parkinson’s Disease Design and Development of a Material-Aware Adaptive Grasping Robotic Hand A low-cost adaptive

Explainable Assistive Wheelchair for Navigation in Moderately Unstructured Outdoor Environments
Development of Multimodal Assessment of Parkinson’s Disease Explainable Assistive Wheelchair for Navigation in Moderately Unstructured Outdoor Environments A smart mobility

Development of Multimodal Assessment of Parkinson’s Disease
Development of Multimodal Assessment of Parkinson’s Disease Development of Multimodal Assessment of Parkinson’s Disease This research develops a multilingual tablet-based

Digital Facial Biomarkers for Age Related Health Condition Detection Parkinson Disease
Digital Facial Biomarkers for Age Related Health Condition Detection Parkinson Disease Digital Facial Biomarkers for Age Related Health Condition Detection

Brain-Computer Interface Approach for Mobile Robot Navigation
The fusion of neuroscience, robotics, and artificial intelligence through our innovative project leverages Brain-Computer Interface (BCI) technology to revolutionize human-robot interaction. Enabling direct brain-to-robot communication, this initiative transcends conventional controls, creating a seamless interface for effortless collaboration, advancing assistive technologies, and enhancing user experiences.