Dual-UAV Aided Secure Dynamic G2U Communication

Hongyue Kang, W. Li, J. Misic, V. Mišić, Xiaolin Chang
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Abstract

Unmanned aerial vehicle (UAV) communication is easily wiretapped by malignant nodes due to the broadcast nature of line-of-sight (LoS) wireless channels. To tackle this problem, this paper investigates a dual-UAV aided secure dynamic ground-to-UAV (G2U) communication system. By dynamic, we mean UAVs communicate with moving ground devices (GDs). Our objective is maximizing the sum secrecy rate by the joint optimization of UAV trajectory and GDs transmit power. To achieve it, we first formulate this nonconvex optimization problem as a Constrained Markov Decision Process (CMDP) under the constraints of UAV flying speed, initial and final locations, limited energy, and average transmit power. Then, a Deep Deterministic Policy Gradient (DDPG) based deep reinforcement learning algorithm is designed, named SC-TDPC, to learn the optimal transmit power and UAV trajectory. The experiment results demonstrate that, compared to other benchmark schemes, SC-TDPC can efficiently enhance the UAV communication security in terms of sum secrecy rate.
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双无人机辅助安全动态G2U通信
由于视距(LoS)无线信道的广播性质,无人机通信很容易被恶性节点窃听。为了解决这一问题,本文研究了一种双无人机辅助安全动态地对无人机(G2U)通信系统。所谓动态,我们指的是无人机与移动地面设备(GDs)通信。我们的目标是通过联合优化UAV弹道和GDs发射功率,使总保密率最大化。为此,首先将该非凸优化问题表述为无人机飞行速度、初始和最终位置、有限能量和平均发射功率约束下的约束马尔可夫决策过程(CMDP)。然后,设计了一种基于深度确定性策略梯度(DDPG)的深度强化学习算法SC-TDPC,学习最优发射功率和无人机轨迹;实验结果表明,与其他基准方案相比,SC-TDPC在总保密率方面能有效提高无人机通信的安全性。
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