MUMBAI, India, June 26 -- Intellectual Property India has published a patent application (202641072778 A) filed by Kallakuri N V P S Brahma Ramesh; Srinivasulu Akasam; Dr. Shsheda Akthar; Mr. W. Mesiya Stalin; Dr. Srinivasan Nagaraj; Dr. Mamta Thakur; Manohar Manchala; Mr. Mohammad Ashique Azad; Dr. Chillara Soma Shekar; and Dr. Sivaiah Sreeramula on June 11, 2026, for Quantum-Inspired Cryptographic Framework Based On Advanced Number Theory For Secure Data Transmission.
Inventors include Kallakuri N V P S Brahma Ramesh; Srinivasulu Akasam; Dr. Shsheda Akthar; Mr. W. Mesiya Stalin; Dr. Srinivasan Nagaraj; Dr. Mamta Thakur; Manohar Manchala; Mr. Mohammad Ashique Azad; Dr. Chillara Soma Shekar; and Dr. Sivaiah Sreeramula.
The application for the patent was published on June 19, 2026, under issue no. 25/2026.
Abstract: ABSTRACT OF THE INVENTION: The invention presents a Quantum-Inspired Cryptographic Framework (QICF) rooted in advanced number theory for secure data transmission. By emulating quantum computational advantages through classical simulations of superposition via parallel lattice reductions and number-theoretic transforms, QICF delivers robust protection against quantum threats. Core innovations include a Ring-LWE-based KEM with optimized polynomial rings and a signature scheme leveraging isogeny-inspired walks on algebraic structures. The framework ensures confidentiality, integrity, and authenticity with reduced computational footprint, making it suitable for diverse environments from cloud servers to edge devices. Security proofs rely on the intractability of fundamental number-theoretic problems, outperforming existing standards in efficiency and key size. Detailed embodiments, algorithms, and performance metrics are provided, demonstrating practical deployment feasibility. This invention bridges the gap between theoretical post-quantum cryptography and real-world secure communications, paving the way for quantum-safe digital infrastructure.
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