Intellectual Property India Publishes Patent Application for 'A System And Method For Quantum Cryptographic Communication Using Time-Dependent Quantum State Modeling' Filed by Akshaykumar Jagdishrao Meshram; Vikrant Yashwant Ganvir; Hemlata Vikrant Ganvir; Chandrashekhar Meshram; Rupesh Babarao Pohane; and Kumari Manju

MUMBAI, India, Feb. 27 -- Intellectual Property India has published a patent application (202631015084 A) filed by Akshaykumar Jagdishrao Meshram; Vikrant Yashwant Ganvir; Hemlata Vikrant Ganvir; Chandrashekhar Meshram; Rupesh Babarao Pohane; and Kumari Manju, Bhubaneswar, Orissa, on Feb. 11, for 'a system and method for quantum cryptographic communication using time-dependent quantum state modeling.'

Inventor(s) include Akshaykumar Jagdishrao Meshram; Vikrant Yashwant Ganvir; Hemlata Vikrant Ganvir; Chandrashekhar Meshram; Rupesh Babarao Pohane; and Kumari Manju.

The application for the patent was published on Feb. 27, under issue no. 09/2026.

According to the abstract released by the Intellectual Property India: "The present invention relates to a mathematically driven quantum cryptographic communication framework that enhances security and robustness of quantum key distribution under dynamic channel conditions. The disclosed system and method model quantum state evolution as a time-dependent matrix structure derived from observed quantum state parameters during transmission. A real-time quantum noise-stability index is computed by comparing observed quantum states with mathematically predicted state trajectories, enabling quantitative assessment of channel integrity. Based on predictive quantum state divergence and entropy-gradient analysis, the framework adaptively controls measurement basis selection, cryptographic key extraction, and cryptographic key regeneration in real time."

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