MUMBAI, India, Jan. 2 -- Intellectual Property India has published a patent application (202541123336 A) filed by Anurag Engineering College, Suryapet, Telangana, on Dec. 7, 2025, for 'ai-infused reconfigurable intelligent surface antennas for autonomous wireless environments.'
Inventor(s) include Mr. Gudupudi Ravikumar; and Mr. Valaparla David.
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 present invention introduces an autonomous, AI-driven reconfigurable intelligent surface (RIS) antenna system designed to dynamically manipulate electromagnetic wave propagation for next-generation wireless networks. The system leverages advanced machine learning algorithms and predictive analytics to continuously sense and interpret environmental conditions, enabling real-time optimization of signal strength, coverage, and interference mitigation. By integrating phase-controlled reflector elements with intelligent adaptive control, the RIS antenna autonomously adjusts electromagnetic responses to maximize communication efficiency while minimizing energy consumption. This capability facilitates seamless connectivity in highly dynamic scenarios, including urban environments, vehicular networks, and dense Internet-of-Things (IoT) ecosystems. Additionally, the invention supports intelligent beam steering, adaptive frequency allocation, and interference suppression without requiring centralized network management, effectively creating a self-optimizing communication environment. The integration of autonomous decision-making with reconfigurable electromagnetic surfaces offers a transformative approach to wireless system design, enhancing network reliability, throughput, and sustainability. Overall, this innovation provides a versatile and energy-efficient solution that empowers future wireless infrastructures with fully autonomous, intelligent, and adaptive communication capabilities, addressing the increasing demand for high-performance, low-latency connectivity in complex environments."
Disclaimer: Curated by HT Syndication.
