MUMBAI, India, June 22 -- Intellectual Property India has published a patent application (202621042411 A) filed by Dr. Dipalee M. Kate; Dr. Rahul Pethe; Atharva Anand Tikle; Sarthak Rajesh Hadke; Tejas Yograj Khapekar; Nainisha Bramhanand Dombre; Chirastani Chakma; Aayushi Rajendra Kamble; Anup Arun Burde; Sumedha S. Zodape; Triveni R. Chavhan; and Pratiksha R. Jumble on April 02, 2026, for Iot-Integrated Hospital Management System With Real-Time Vital Monitoring And Local Ai-Based Clinical Decision Support.
Inventors include Dr. Dipalee M. Kate; Dr. Rahul Pethe; Atharva Anand Tikle; Sarthak Rajesh Hadke; Tejas Yograj Khapekar; Nainisha Bramhanand Dombre; Chirastani Chakma; Aayushi Rajendra Kamble; Anup Arun Burde; Sumedha S. Zodape; Triveni R. Chavhan; and Pratiksha R. Jumble.
The application for the patent was published on June 12, 2026, under issue no. 24/2026.
Abstract: The present disclosure pertains to a comprehensive healthcare monitoring and management system configured to integrate administrative functions, physiological data acquisition, communication mechanisms, and analytical processing within a unified and interoperable framework. In one aspect, the system comprises a sensing arrangement including a plurality of biomedical sensors adapted to acquire physiological parameters of a subject, such as heart rate, blood oxygen saturation (SpO2), and cardiac activity signals. The sensing arrangement may further include an identification module configured to uniquely identify the subject undergoing monitoring. A primary processing unit is operatively coupled to the sensing arrangement and is configured to receive the acquired physiological data, perform signal conditioning and preprocessing operations, and facilitate local visualization of the processed data through an associated display interface. In another aspect, the system includes a communication unit implemented as a distinct processing entity, operatively connected to the primary processing unit via a communication interface. The communication unit is configured to transmit the processed data to a centralized server over a wireless communication network, thereby enabling remote access and monitoring. The centralized server is configured to receive, store, and process the transmitted data, and to perform analytical operations for monitoring and clinical evaluation purposes. The server may further support data aggregation, historical data analysis, and generation of insights for assisting healthcare professionals. According to an embodiment, the system architecture is arranged such that sensing and communication functionalities are segregated into separate modules, thereby enhancing system robustness, ensuring uninterrupted data acquisition, and improving fault tolerance in case of partial system failure. The system is further configured to support real-time data transmission and to generate alerts based on predefined threshold conditions associated with physiological parameters. Additionally, secure access control mechanisms are implemented to regulate user access to sensitive healthcare data. In certain embodiments, the system incorporates localized analytical processing to reduce dependency on external computing infrastructure, thereby enhancing data privacy and minimizing latency. Accordingly, the disclosed system provides a scalable, efficient, and secure solution for healthcare monitoring and management, enabling timely clinical intervention and improved decision-making capabilities.
Disclaimer: Curated by HT Syndication.
