MUMBAI, India, Jan. 2 -- Intellectual Property India has published a patent application (202541123364 A) filed by Anurag Engineering College, Suryapet, Telangana, on Dec. 8, 2025, for 'digital twin-powered wireless infrastructure for predictive communication optimization.'
Inventor(s) include Mr Rama Krishna; and Mr Banavathu Naga Raju.
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 presents a digital twin-enabled wireless communication framework designed to enhance network performance, reliability, and resilience through predictive optimization and proactive fault management. By creating a high-fidelity virtual replica of the physical network, the system continuously monitors and simulates real-time traffic, interference patterns, and resource utilization. Leveraging this virtual model, the system autonomously anticipates congestion, bandwidth limitations, and potential service degradation, enabling preemptive adjustments to network parameters and dynamic allocation of communication resources. Integration of adaptive algorithms allows the system to optimize routing, frequency assignment, and load balancing in real time, thereby minimizing latency and maximizing throughput across heterogeneous network environments. The invention is particularly suited for complex and mission-critical applications such as smart city infrastructures, industrial Internet of Things (IIoT) deployments, remote healthcare monitoring, military communication systems, and autonomous transportation networks. Furthermore, the framework supports scalable deployment, ensuring continuous operation even under high-demand conditions or unforeseen network disruptions. By combining real-time digital twin simulation with intelligent decision-making, the system provides a self-optimizing and fault-resilient communication infrastructure capable of meeting the demands of next-generation wireless networks."
Disclaimer: Curated by HT Syndication.
