Quantum-Enhanced Neural Architectures for Modeling Synaptic Plasticity in Artificial Intelligence Systems
Authors: Nitiraj V. Kulkarni
Year:
Venue: Copyright Registration — Diary No. 12201/2025-CO/L
Publisher: Copyright Office, India
Type: copyright (published)
Abstract
Copyright registration for quantum-enhanced neural architectures for modeling synaptic plasticity in AI systems.
This work intersects with research areas including quantum computing, neural architectures, synaptic plasticity, AI systems, and copyright. It is part of the broader research portfolio of Nitiraj V. Kulkarni in the domain of registered original works.
Keywords & Topics
quantum computing, neural architectures, synaptic plasticity, AI systems, copyright
How to Cite
APA
Nitiraj V. Kulkarni (2025). Quantum-Enhanced Neural Architectures for Modeling Synaptic Plasticity in Artificial Intelligence Systems. Copyright Registration, Diary No. 12201/2025-CO/L. Copyright Office, India.
IEEE
Nitiraj V. Kulkarni, "Quantum-Enhanced Neural Architectures for Modeling Synaptic Plasticity in Artificial Intelligence Systems," Copyright Registration, Diary No. 12201/2025-CO/L, 2025.
BibTeX
@article{2025_copyright_quantum_neural_synaptic_plasticity,
title={Quantum-Enhanced Neural Architectures for Modeling Synaptic Plasticity in Artificial Intelligence Systems},
author={Nitiraj V. Kulkarni},
journal={Copyright Registration},
year={2025},
publisher={Copyright Office, India}
}Identifiers & Links
Last updated: 2025-01-01
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About the Author
Nitiraj V. Kulkarni is an AI safety and cybersecurity researcher based in Pune, India, with 35+ peer-reviewed publications, 5 patents, 6 copyright registrations, and 15,000+ open datasets published on Kaggle and Zenodo. He serves as a peer reviewer for 11+ international journals and conferences. Read full profile.