Edge-Intelligence-Powered Joint Computation Offloading and Unmanned Aerial Vehicle Trajectory Optimization Strategy

Lyapunov优化 计算机科学 水准点(测量) 最优化问题 计算卸载 移动边缘计算 弹道 数学优化 轨迹优化 排队 实时计算 GSM演进的增强数据速率 服务器 计算机网络 边缘计算 最优控制 人工智能 算法 李雅普诺夫指数 数学 天文 物理 地理 大地测量学 混乱的 Lyapunov重新设计
作者
Qian Liu,Zhi Qi,Sihong Wang,Qilie Liu
出处
期刊:Drones [Multidisciplinary Digital Publishing Institute]
卷期号:8 (9): 485-485 被引量:1
标识
DOI:10.3390/drones8090485
摘要

UAV-based air-ground integrated networks offer a significant benefit in terms of providing ubiquitous communications and computing services for Internet of Things (IoT) devices. With the empowerment of edge intelligence (EI) technology, they can efficiently deploy various intelligent IoT applications. However, the trajectory of UAVs can significantly affect the quality of service (QoS) and resource optimization decisions. Joint computation offloading and UAV trajectory optimization bring many challenges, including coupled decision variables, information uncertainty, and long-term queue delay constraints. Therefore, this paper introduces an air-ground integrated architecture with EI and proposes a TD3-based joint computation offloading and UAV trajectory optimization (TCOTO) algorithm. Specifically, we use the principle of the TD3 algorithm to transform the original problem into a cumulative reward maximization problem in deep reinforcement learning (DRL) to obtain the UAV trajectory and offloading strategy. Additionally, the Lyapunov framework is used to convert the original long-term optimization problem into a deterministic short-term time-slot problem to ensure the long-term stability of the UAV queue. Based on the simulation results, it can be concluded that our novel TD3-based algorithm effectively solves the joint computation offloading and UAV trajectory optimization problems. The proposed algorithm improves the performance of the system energy efficiency by 3.77%, 22.90%, and 67.62%, respectively, compared to the other three benchmark schemes.

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