Abstract:
Distributed deep reinforcement learning (DRL) has emerged as a powerful tool for 6G applications in vehicular networks (VNs). To cope with the negative impact on training...Show MoreMetadata
Abstract:
Distributed deep reinforcement learning (DRL) has emerged as a powerful tool for 6G applications in vehicular networks (VNs). To cope with the negative impact on training efficiency by the diversity in computing capability at each vehicle, we propose a hybrid sharing scheme, where experience sharing and gradient sharing modes coexist and are adaptively adopted in different computing and communication situations. Specifically, to enhance training efficiency at the cost of an acceptable energy consumption, we formulate a joint optimization of mode selection, channel assignment and computing resource allocation. To overcome the inherent difficulty in solving the problem, a novel learning algorithm is designed to integrate deep deterministic policy gradient with parameterized dueling double deep Q-learning networks (DDPG-PD3QN). Extensive simulations validate the advantages of our proposed DDPG-PD3QN-based hybrid sharing scheme in terms of training efficiency and energy saving.
Published in: IEEE Transactions on Vehicular Technology ( Early Access )
Funding Agency:
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- IEEE Keywords
- Index Terms
- Vehicular Networks ,
- Learning In Vehicular Networks ,
- Energy Consumption ,
- Computational Resources ,
- Selective Modulators ,
- Training Efficiency ,
- Computational Capabilities ,
- Joint Optimization ,
- Deep Reinforcement Learning ,
- Dueling ,
- Energy Consumption Cost ,
- Deep Q-learning ,
- Computation Resource Allocation ,
- Information Technology ,
- Scientific Information ,
- Continuous Action ,
- Time Slot ,
- Discrete Variables ,
- Reduce Energy Consumption ,
- Actor Network ,
- Critic Network ,
- Beginning Of Each Round ,
- Communication Conditions ,
- Distribution Strategy ,
- Communication Resources ,
- Updated Model ,
- Markov Decision Process ,
- IEEE Transactions ,
- Citation Information ,
- Total Energy Consumption
- Author Keywords
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Vehicular Networks ,
- Learning In Vehicular Networks ,
- Energy Consumption ,
- Computational Resources ,
- Selective Modulators ,
- Training Efficiency ,
- Computational Capabilities ,
- Joint Optimization ,
- Deep Reinforcement Learning ,
- Dueling ,
- Energy Consumption Cost ,
- Deep Q-learning ,
- Computation Resource Allocation ,
- Information Technology ,
- Scientific Information ,
- Continuous Action ,
- Time Slot ,
- Discrete Variables ,
- Reduce Energy Consumption ,
- Actor Network ,
- Critic Network ,
- Beginning Of Each Round ,
- Communication Conditions ,
- Distribution Strategy ,
- Communication Resources ,
- Updated Model ,
- Markov Decision Process ,
- IEEE Transactions ,
- Citation Information ,
- Total Energy Consumption
- Author Keywords
