Intellectual Property India Publishes Patent Application for 'Wearable Iot Devices For Continuous Human Vital Signs Acquisition And Analysis' Filed by Dr. Kalpana A. B; Varalakshmi B D; Rakshitha B T; Shrutika C Rampure; Vijayalakshmi S A; and Bhavyashree SP

MUMBAI, India, Jan. 2 -- Intellectual Property India has published a patent application (202541123057 A) filed by Dr. Kalpana A. B; Varalakshmi B D; Rakshitha B T; Shrutika C Rampure; Vijayalakshmi S A; and Bhavyashree SP, Bangalore, Karnataka, on Dec. 6, 2025, for 'wearable iot devices for continuous human vital signs acquisition and analysis.'

Inventor(s) include Dr. Kalpana A. B; Varalakshmi B D; Rakshitha B T; Shrutika C Rampure; Vijayalakshmi S A; and Bhavyashree SP.

The application for the patent was published on Jan. 2, under issue no. 01/2026.

According to the abstract released by the Intellectual Property India: "The evolution of human lifestyle has led to a significant rise in chronic health conditions such as diabetes, cardiovascular diseases, and other disorders worldwide. To address these challenges, the scientific community has developed modern technological solutions for proactive health management. Among these advancements, the Internet of Things (IoT) has emerged as a transformative technology with the potential to integrate seamlessly into various aspects of daily life. Vital signs play a crucial role in the early diagnosis and treatment of life-threatening diseases. These parameters-including body temperature, muscular activity, pulse rate, blood pressure, and respiratory rate-serve as key indicators of an individual's health status. Routine monitoring of these signs helps assess overall well-being and supports timely medical intervention. The objective of the present study is to develop an IoT-based vital signs monitoring system capable of assessing, assisting, and improving the health of individuals in real time, whether they are hospitalized or at home. The proposed IoT healthcare system measures vital parameters and displays the data on a mobile application through internet connectivity. This enables both physicians and patients to access health information anytime and anywhere. The system incorporates sensors such as the DS18B20 temperature sensor, a pulse sensor, and an EMG V3 sensor, with the NodeMCU functioning as the microcontroller. The patient's temperature, pulse rate, and muscular activity are continuously measured, displayed, stored, and transmitted directly to the physician's mobile device. Overall, the IoT-based vital signs monitoring system provides accurate, real-time detection of abnormalities and supports continuous remote monitoring, thereby enhancing early disease identification and improving patient health management."

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