MUMBAI, India, May 29 -- Intellectual Property India has published a patent application (202641062281 A) filed by Dr. Teki Satyanarayana Murthy; Dr. N Sudhakar Yadav; Ms. Swathi Kothapalli; Dr. Sugamya Katta; Mr. Santhosh Voruganti; Mr. Geedikanti Srikanth; and Mr. Rudroju Sai Venkat, Hyderabad, Telangana, on May 16, for 'quantum based data transfer method for achieving ultra-fast computational and communication capabilities.'
Inventor(s) include Dr. Teki Satyanarayana Murthy; Dr. N Sudhakar Yadav; Ms. Swathi Kothapalli; Dr. Sugamya Katta; Mr. Santhosh Voruganti; Mr. Geedikanti Srikanth; and Mr. Rudroju Sai Venkat.
The application for the patent was published on May 29, under issue no. 22/2026.
According to the abstract released by the Intellectual Property India: "The present invention relates to a quantum-based data transfer method for achieving ultra-fast computational and communication capabilities using principles of quantum mechanics. The invention utilizes quantum entanglement, quantum teleportation, adaptive routing mechanisms, quantum memory systems, and synchronized processing architectures to enable secure and high-speed transfer of information between distributed quantum processing nodes. Quantum bits or qubits are used for encoding information through quantum superposition, thereby significantly improving computational efficiency and communication speed. The system further incorporates intelligent routing controllers, quantum communication channels, error correction mechanisms, and decoherence mitigation systems to maintain transmission fidelity and synchronization accuracy under varying operational conditions. The invention supports distributed quantum computing, cloud-based quantum processing, defense communication infrastructures, financial security systems, artificial intelligence platforms, and next-generation quantum internet architectures. The proposed invention provides a scalable, secure, reliable, and energy-efficient communication framework capable of overcoming limitations associated with conventional electronic and optical communication systems."
Disclaimer: Curated by HT Syndication.