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1.中国电子信息产业发展研究院,北京 100048
2.新唐智创电子技术有限公司,北京 100080
3.《中国通信》杂志社,北京 100081
4.北京科技大学,北京 100083
周成成 (1993—),女,博士研究生,中国电子信息产业发展研究院工程师,主要研究方向:边缘计算、分散计算、人工智能等。E-mail: zhoucc@ccidthinktank.com
陈彬 (1995—),男,新唐智创电子技术有限公司网络维护工程师,研究方向:计算机网络和网络资源分配。E-mail: 694093220@qq.com
孙红 (1990—),女,《中国通信》杂志社责任编辑,主要研究方向:无线通信和资源分配。E-mail: sunhong@china-cic.cn
吕挺 (1995—),男,博士研究生,北京科技大学计算机与通信工程学院博士后,主要研究方向:空天地一体化网络、资源分配、博弈论和强化学习。E-mail: lvting_z@163.com
录用日期:2025-05-13,
纸质出版日期:2025-01-15
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周成成, 陈彬, 孙红, 等. 空天地一体化网络任务卸载与资源分配研究[J]. 新一代信息技术, 2025, 8(1): 11-21
ZHOU Cheng-cheng, CHEN Bin, SUN Hong, et al. Task Offloading and Resource Allocation in Space-Air-Ground Integrated Networks[J]. New Generation of Information Technology, 2025, 8(1): 11-21
周成成, 陈彬, 孙红, 等. 空天地一体化网络任务卸载与资源分配研究[J]. 新一代信息技术, 2025, 8(1): 11-21 DOI: 10.12263/newIT.2025.01.003.
ZHOU Cheng-cheng, CHEN Bin, SUN Hong, et al. Task Offloading and Resource Allocation in Space-Air-Ground Integrated Networks[J]. New Generation of Information Technology, 2025, 8(1): 11-21 DOI: 10.12263/newIT.2025.01.003.
为解决面向网络切片的空天地一体化网络中任务卸载的联合动态分配问题,本文提出了一种基于博弈论的网络资源分配策略。首先,考虑不同网络切片的节点类型、资源大小等约束,联合任务卸载的网络切片选择及网络资源分配,将问题表述为一个以最大化用户服务体验为目标的混合整数问题,且证明了该问题是NP-hard。其次,考虑到用户任务卸载过程中的竞争关系,提出了一种基于严格势博弈的任务卸载算法。用户之间进行任务卸载策略的协商达到纳什均衡状态。最后,仿真结果验证了本文所提出的算法的有效性,能够解决面向网络切片的空天地一体化网络的资源分配问题。
To tackle the problem of joint dynamic allocation of task offloading in network slicing-oriented space-air-ground integrated network
a network resource allocation strategy based on game theory is proposed. Firstly
considering the constraints of node types and resource sizes across different network slices
the problem of network slice selection for joint task offloading and network resource allocation is formulated as a mixed-integer problem. The objective is to maximize the user’s service experience
and it has been proven that this problem is NP-hard. Subsequently
a task offloading algorithm based on strict potential game is proposed considering the competitive relationship in the process of users’ task offloading. Negotiation of task offloading policies among users to reach a Nash equilibrium. Finally
the simulation results verify the effectiveness of the proposed algorithm in this paper
which is able to solve the resource allocation problem of space-air-ground integrated network oriented to network.
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