MUMBAI, India, Nov. 28 -- Intellectual Property India has published a patent application (202531106234 A) filed by Dr. Shantanu Bhattacharyya, Gajapati, Orissa, on Nov. 3, for 'genomic aadhaar nexus: system and method for secure aadhaar data management for genomic identity and precision health applications.'
Inventor(s) include Dr. Shantanu Bhattacharyya.
The application for the patent was published on Nov. 28, under issue no. 48/2025.
According to the abstract released by the Intellectual Property India: "The advanced genomic identity management system introduces an innovative multi-layered biometric framework for comprehensive genetic data integration that combines computational validation protocols with adaptive identity determination mechanisms, facilitating real-time genomic authentication, dynamic precision health optimization, and robust identity confirmation while maintaining seamless healthcare integration and operational security for consistent biometric applications. [510] The comprehensive genomic framework employs adaptive cryptographic algorithms and intuitive identity protocols, utilizing embedded computational processing arrays and energy-efficient validation systems to ensure timely genetic identification, enhanced health data understanding, and optimal identity reliability while maintaining continuous biometric monitoring capabilities. [515] The integrated methodology combines multi-dimensional genomic techniques with artificial intelligence-driven pattern recognition systems, leveraging variable-precision biometric signals and multi-factor identity indicators to optimize authentication procedures and health workflows for maximum genetic accuracy and minimal identity uncertainty during critical healthcare applications. [520] The novel responsive genomic architecture features engineered high-precision identity components with specialized genetic fingerprinting protocols, enabling complex multi-stage biometric verification while ensuring identity consistency and performance optimization across various healthcare instruments without compromising system reliability. [525] The innovative design incorporates strategic validation mechanisms for enhanced genetic identification and biometric security, utilizing optimized multi-function systems and adaptive identity technology to ensure legitimate genomic assignment while maintaining functionality across diverse healthcare environments and precision medicine scenarios. [530] Implementation methodology emphasizes scalable genomic integration and efficient authentication sequences, implementing interactive biometric measures and pattern recognition algorithms to achieve superior genetic determination, enhanced identity identification, and unauthorized access prevention while ensuring technological simplicity during healthcare monitoring. [535] The system demonstrates exceptional adaptability through comprehensive integration of genomic identification protocols and intelligent biometric technologies, validating its effectiveness across various multifunctional healthcare configurations and precision medicine scenarios while maintaining consistent identity performance and operational efficiency under diverse conditions. [540] The developed framework enables sustainable and reliable management of genetic identity through streamlined, AI-powered biometric systems, providing significant advantages over traditional identity approaches through variable validation mechanisms, adaptive identification protocols, and improved genomic assignment while maintaining superior security accuracy during critical healthcare authentication procedures."
Disclaimer: Curated by HT Syndication.
