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    • Quantum Deep Deterministic Policy Gradient for Digital Twin-Enabled Semantic IoV Networks

    James Adu Ansere, Sasinda C. Prabhashana,Nidhi Simmons,Octavia A. Dobre,Hyundong Shin, Trung Q. Duong

    IEEE Transactions on Network Science and Engineering(2025)

    Faculty of Engineering and Applied Science

    Cited 0|Views0
    Abstract
    Internet of Vehicles (IoV) networks are becoming more complex as they require real-time decision-making and efficient resource management. These demands make it difficult to maintain stable and reliable operations. The challenges are especially severe in dynamic and time-varying environments. To address these limitations, we propose a framework that integrates the quantum-based deep deterministic policy gradient (Q-DDPG) with digital twin networks (DTN) for distributed semantic optimization in dynamic IoV environments. The framework leverages quantum computing, such as superposition and entanglement, to enhance distributed semantic decisions. DTNs provide real-time modeling for efficient task offloading and adaptive resource allocation in decentralized IoV environments under varying conditions and uncertainties. The numerical results validate the robustness of the proposed approach, significantly reduce latency, and improve energy efficiency.
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    Key words
    Internet of Vehicles,Deep Deterministic Policy Gradient,Digital Twin Networks,Quantum Machine Learning
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