MUMBAI, India, Jan. 2 -- Intellectual Property India has published a patent application (202541123362 A) filed by Anurag Engineering College, Suryapet, Telangana, on Dec. 8, 2025, for 'hybrid terahertz-optical communication links enabled by intelligent integrated antennas.'
Inventor(s) include Mr. T. Narasimha Rao; and Mrs Gopathi Shobha.
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 invention provides a next-generation hybrid Terahertz-optical communication architecture enabled by intelligent integrated antenna systems capable of autonomously adapting to atmospheric, mobility, and network variability conditions. The system combines ultra-high-frequency Terahertz transmission with high-capacity optical wireless communication to establish resilient, low-latency, and ultra-broadband connectivity for future communication ecosystems, including spaceborne, satellite-to-ground, autonomous transportation, smart city infrastructure, and defense-grade secure networks. The intelligent antenna array employs AI-driven beam alignment, channel prediction, and environmental learning to maintain optimal link performance despite turbulence, scattering, or physical obstructions. Machine learning-enhanced spectrum switching provides real-time coordination between Terahertz and optical channels, ensuring uninterrupted communication where traditional RF or optical-only systems fail. The architecture integrates adaptive reflective surfaces, photonic emitters, and quantum-safe modulation to achieve secure, interference-resistant transmission while consuming reduced power compared to legacy solutions. By merging Terahertz speed with optical precision through intelligent antenna integration, the invention represents a transformative leap toward seamless terrestrial and non-terrestrial networks, enabling higher data density, reduced latency, and unprecedented reliability for mission-critical communication applications in evolving global connectivity demands."
Disclaimer: Curated by HT Syndication.
