MUMBAI, India, Jan. 9 -- Intellectual Property India has published a patent application (202521114876 A) filed by Kiran Ingale; Medha Wyawahare; Sanidhya Sudhir Wanjari; Palak Tushar Vispute; Vansh Pawan Sharda; Nimish Nitin Wani; and Suhas Bhise, Pune, Maharashtra, on Nov. 21, 2025, for 'neuro touch communication interface.'
Inventor(s) include Kiran Ingale; Medha Wyawahare; Sanidhya Sudhir Wanjari; Palak Tushar Vispute; Vansh Pawan Sharda; Nimish Nitin Wani; and Suhas Bhise.
The application for the patent was published on Jan. 9, under issue no. 02/2026.
According to the abstract released by the Intellectual Property India: "The invention relates to a wearable, gesture-based communication glove configured to facilitate expressive interaction for individuals with speech or hearing impairments. The device enables the conversion of specific hand and finger movements into intelligible, real-time text messages that are automatically displayed on an integrated LCD interface. The glove incorporates multiple flex sensors strategically mounted along the length of each finger, allowing precise detection of bending angles and movement patterns. These sensors continuously monitor variations in electrical resistance corresponding to finger flexion, producing analog signals that represent the user's intended gesture. The generated sensor data is transmitted to an ESP32 microcontroller embedded within the glove. The microcontroller executes advanced signal-processing algorithms and predefined classification routines to identify unique gesture signatures from the incoming data stream. By comparing these signatures with a stored library of predefined gestures, the system accurately interprets the user's intended message. Once a gesture is recognized, the ESP32 formats the interpreted output and sends it to the LCD display module, where the corresponding text message is presented instantly for viewing by the user or communication partner. The glove provides continuous, real-time feedback, enabling seamless and natural communication without the need for verbal speech, external sign-language interpreters, or smartphone-dependent solutions. Its lightweight, ergonomic design ensures comfort during extended use, while its compact electronics layout maintains mobility and ease of operation. The system is designed to be energy-efficient, cost-effective, and easily manufacturable, making it accessible for individuals requiring daily assistive communication tools. By integrating sensor technology, embedded processing, and an intuitive visual display, the invention offers a practical and user-friendly approach to enhancing communication for persons with speech or hearing disabilities."
Disclaimer: Curated by HT Syndication.
