3D Trajectory Design for Energy-Constrained Aerial CRNs Under Probabilistic LoS Channel

IF 7 1区计算机科学 Q1 TELECOMMUNICATIONS IEEE Transactions on Cognitive Communications and Networking Pub Date : 2024-10-01 DOI:10.1109/TCCN.2024.3472298

Hongjiang Lei;Xiaqiu Wu;Ki-Hong Park;Gaofeng Pan

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Abstract

Unmanned aerial vehicles (UAVs) have been attracting significant attention because there is a high probability of line-of-sight links being obtained between them and terrestrial nodes in high-rise urban areas. In this work, we investigate cognitive radio networks (CRNs) by jointly designing three-dimensional (3D) trajectory, the transmit power of the UAV, and user scheduling. Considering the UAV’s onboard energy consumption, an optimization problem is formulated in which the average achievable rate of the considered system is maximized by jointly optimizing the UAV’s 3D trajectory, transmission power, and user scheduling. Due to the non-convex optimization problem, a lower bound on the average achievable rate is utilized to reduce the complexity of the solution. Subsequently, the original optimization problem is decoupled into four subproblems by using block coordinate descent, and each subproblem is transformed into manageable convex optimization problems by introducing slack variables and successive convex approximation. Numerical results validate the effectiveness of our proposed algorithm and demonstrate that the 3D trajectories of UAVs can enhance the average achievable rate of aerial CRNs.

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概率 LoS 信道下能量受限空中 CRN 的 3D 轨迹设计

无人驾驶飞行器（uav）一直备受关注，因为它们与高层城市地区的地面节点之间存在高概率的视距链接。在这项工作中，我们通过联合设计三维（3D）轨迹、无人机发射功率和用户调度来研究认知无线电网络（crn）。考虑无人机机载能耗，通过对无人机的三维轨迹、发射功率和用户调度进行联合优化，提出了一个优化问题，使所考虑系统的平均可达率最大化。针对非凸优化问题，利用平均可达率的下界来降低求解的复杂度。随后，采用分块坐标下降法将原优化问题解耦为4个子问题，并通过引入松弛变量和逐次凸逼近将每个子问题转化为可管理的凸优化问题。数值结果验证了算法的有效性，并表明无人机的三维轨迹可以提高空中crn的平均可达率。

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来源期刊

IEEE Transactions on Cognitive Communications and Networking Computer Science-Artificial Intelligence

CiteScore

15.50

自引率

7.00%

发文量

108

期刊介绍： The IEEE Transactions on Cognitive Communications and Networking (TCCN) aims to publish high-quality manuscripts that push the boundaries of cognitive communications and networking research. Cognitive, in this context, refers to the application of perception, learning, reasoning, memory, and adaptive approaches in communication system design. The transactions welcome submissions that explore various aspects of cognitive communications and networks, focusing on innovative and holistic approaches to complex system design. Key topics covered include architecture, protocols, cross-layer design, and cognition cycle design for cognitive networks. Additionally, research on machine learning, artificial intelligence, end-to-end and distributed intelligence, software-defined networking, cognitive radios, spectrum sharing, and security and privacy issues in cognitive networks are of interest. The publication also encourages papers addressing novel services and applications enabled by these cognitive concepts.