MUMBAI, India, June 22 -- Intellectual Property India has published a patent application (202641070663 A) filed by Dr. R Rajeswari; Prof. Dr. Sandeep Gupta; Sudheer Choudari; Dr. Polisetty Gagana Mahalakshmi; Dr. Kontham Sathwika Reddy; E. Muthuramalingam; Dr. Narendra Kumar Sharma; and Mr. S. Dinakar Jose on June 05, 2026, for Smart Electrode-Free Neural Monitoring Platform Using Cloud-Based Ai And Optical Neuro-Sensing.
Inventors include Dr. R Rajeswari; Prof. Dr. Sandeep Gupta; Sudheer Choudari; Dr. Polisetty Gagana Mahalakshmi; Dr. Kontham Sathwika Reddy; E. Muthuramalingam; Dr. Narendra Kumar Sharma; and Mr. S. Dinakar Jose.
The application for the patent was published on June 12, 2026, under issue no. 24/2026.
Abstract: The present invention discloses a Smart Electrode-Free Neural Monitoring Platform Using Cloud-Based AI and Optical Neuro-Sensing for non-invasive and continuous monitoring of neural activity without the need for conventional electrodes or conductive gels. The system utilizes advanced optical neuro-sensing technologies to capture physiological signals associated with brain activity and transmits the acquired data to a cloud-based platform for intelligent processing and storage. Artificial intelligence, machine learning, and predictive analytics algorithms analyze the neural information in real time to identify cognitive states, stress levels, fatigue conditions, emotional responses, and potential neurological abnormalities. The platform incorporates secure communication, adaptive learning, anomaly detection, and automated alert generation to support remote healthcare monitoring and decision-making. By combining optical sensing, cloud computing, and AI-driven analytics within a unified framework, the invention enhances user comfort, monitoring accuracy, scalability, and accessibility while supporting applications in healthcare diagnostics, telemedicine, rehabilitation, brain-computer interfaces, cognitive assessment, and next-generation smart healthcare systems.
Disclaimer: Curated by HT Syndication.