不确定条件下数字双机任务驱动无人机通信

IF 7.1 2区计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Vehicular Technology Pub Date : 2024-12-27 DOI:10.1109/TVT.2024.3523430

Bowen Wang;Yanjing Sun;Octavia A. Dobre;Long D. Nguyen;Trung Q. Duong

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引用次数: 0

摘要

高效的任务信息交互是实现无人机群协作的关键。然而，现有的研究并没有充分考虑时空相关和物理虚拟交互的驱动力。本文旨在利用先进的数字孪生技术，实现无人机群协同执行各种任务的物理层和虚拟层之间高效的信息交互。考虑任务相关性和传输时效性两方面的驱动力，以区间数形式给出了不确定估计偏差下的物理-虚拟交互链路选择问题。为了解决这一难题，首先利用匹配理论中的区间优化方法将不确定的效用值转化为确定的偏好排序，然后提出基于单边偏好信息的区间秩最大匹配算法进行预测链路选择。仿真结果表明，该方法在不确定条件下能显著提高交互效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Digital Twin-Enabled Task-Driven UAV Communications Under Uncertainty

Efficient task information interaction is the key to unmanned aerial vehicle (UAV) swarm collaboration. However, the driving force of both the spatial-temporal correlation and physical-virtual interaction has not been fully considered in existing works. In this paper, we aim to utilize the advanced digital twin technology to realize the efficient information interaction between the physical and virtual layers for UAV swarm collaboratively performing various tasks. Considering the driving force of both task correlation and transmission timeliness, the physical-virtual interaction link selection problem is formulated under uncertain estimation deviations in the form of interval number. To address this challenging problem, we first utilize the interval optimization for transforming the uncertain utility values to the certain preference orderings in matching theory, and then propose an interval rank-maximal matching algorithm to make predictive link selection based on unilateral preference information. Simulation results confirm that our proposed method can improve the interaction efficiency significantly under uncertainty.

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来源期刊

IEEE Transactions on Vehicular Technology 工程技术-电信学

CiteScore

6.00

自引率

8.80%

发文量

1245

审稿时长

6.3 months

期刊介绍： The scope of the Transactions is threefold (which was approved by the IEEE Periodicals Committee in 1967) and is published on the journal website as follows: Communications: The use of mobile radio on land, sea, and air, including cellular radio, two-way radio, and one-way radio, with applications to dispatch and control vehicles, mobile radiotelephone, radio paging, and status monitoring and reporting. Related areas include spectrum usage, component radio equipment such as cavities and antennas, compute control for radio systems, digital modulation and transmission techniques, mobile radio circuit design, radio propagation for vehicular communications, effects of ignition noise and radio frequency interference, and consideration of the vehicle as part of the radio operating environment. Transportation Systems: The use of electronic technology for the control of ground transportation systems including, but not limited to, traffic aid systems; traffic control systems; automatic vehicle identification, location, and monitoring systems; automated transport systems, with single and multiple vehicle control; and moving walkways or people-movers. Vehicular Electronics: The use of electronic or electrical components and systems for control, propulsion, or auxiliary functions, including but not limited to, electronic controls for engineer, drive train, convenience, safety, and other vehicle systems; sensors, actuators, and microprocessors for onboard use; electronic fuel control systems; vehicle electrical components and systems collision avoidance systems; electromagnetic compatibility in the vehicle environment; and electric vehicles and controls.