[1]鲁 伟,宋荣方.基于模拟退火的多核多用户任务卸载调度[J].计算机技术与发展,2021,31(06):76-80.[doi:10. 3969 / j. issn. 1673-629X. 2021. 06. 014]
 LU Wei,SONG Rong-fang.Multi-core Multi-user Task Offloading Scheduling Based onSimulated Annealing Algorithm[J].,2021,31(06):76-80.[doi:10. 3969 / j. issn. 1673-629X. 2021. 06. 014]
点击复制

基于模拟退火的多核多用户任务卸载调度()
分享到:

《计算机技术与发展》[ISSN:1006-6977/CN:61-1281/TN]

卷:
31
期数:
2021年06期
页码:
76-80
栏目:
系统工程
出版日期:
2021-06-10

文章信息/Info

Title:
Multi-core Multi-user Task Offloading Scheduling Based onSimulated Annealing Algorithm
文章编号:
1673-629X(2021)06-0076-05
作者:
鲁 伟宋荣方
南京邮电大学 通信与信息工程学院,江苏 南京 210003
Author(s):
LU WeiSONG Rong-fang
School of Telecommunications & Information Engineering,Nanjing University of Posts and Telecommunications, Nanjing 210003,China
关键词:
移动边缘计算功率分配任务卸载调度策略混合流水车间模拟退火算法
Keywords:
mobile edge computing power allocation task offload scheduling strategy hybrid flow - shop scheduling simulatedannealing algorithm
分类号:
TP39
DOI:
10. 3969 / j. issn. 1673-629X. 2021. 06. 014
摘要:
针对传统的集中式网络架构存在链路负载过重、时延较长的问题,将服务器下放至靠近用户端的移动边缘计算概念孕育而生。 在移动边缘计算系统中,任务卸载调度策略的好坏影响到系统时延和用户体验,因此任务卸载调度问题依旧是移动边缘计算领域中的研究热点。 在移动边缘计算的多用户多核系统中,该文对用户的多个独立任务的调度策略与功率分配进行了研究。 为了降低任务卸载时延,首先利用混合流水车间模型对任务卸载调度策略进行了建模,获得了系统时延的表达式,其次利用模拟退火算法对系统时延与能耗的加权和最小化的问题进行了求解,获得了最优的任务卸载甘特图。 与随机任务卸载调度策略相比,所提的卸载策略可以有效降低系统时延。 最后通过权重的变化,找到一个合适的权重,在不增加时延的情况下,实现了能耗的节约。
Abstract:
In view of the problem of excessive link load and long time delay in the traditional centralized network architecture,the concept of mobile edge computing that the server is decentralized close to the user side was born. In mobile edge computing system,the task offload scheduling strategy has a deep influence on the system delay and user experience. Therefore,task offload scheduling is still a hot topic in the field of mobile edge computing. In the multi-user and multi-core system of mobile edge computing,we study the scheduling strategy and power allocation of multiple independent tasks of users. In order to reduce the task offload delay,firstly,the hybrid flow-shop scheduling is used to model the task offload scheduling strategy and obtain the expression of the system delay. Secondly, the simulated annealing algorithm is used to minimize the weighted sum of the system delay and energy consumption. The optimal task offload Gantt chart was obtained. Compared with the random task offload scheduling strategy, the offload strategy proposed can effectively reduce the system delay. Finally,through the change of the weight,a suitable weight is found,and the energy consumption is saved without increasing the delay.

相似文献/References:

[1]陈波 王欢 唐伦.认知无线网络中基于多用户公平性的功率分配[J].计算机技术与发展,2011,(04):77.
 CHEN Bo,WANG Huan,TANG Lun.Power Allocation Based-on Multi-user Fairness in Cognitive Wireless Networks[J].,2011,(06):77.
[2]王业胜,季薇,侯晓赟.认知 OFDM 系统中一种改进的注水功率分配算法[J].计算机技术与发展,2013,(01):79.
 WANG Ye-sheng,JI Wei,HOU Xiao-yun.An Improved Algorithm Based on Water-filling Power Allocation in Cognitive OFDM System[J].,2013,(06):79.
[3]张津华,田峰.基于拍卖理论的中继协作网络功率分配研究[J].计算机技术与发展,2013,(06):109.
 ZHANG Jin-hua,TIAN Feng.Research on Power Allocation Algorithm for Cooperative Relay Networks Based on Auction Theory[J].,2013,(06):109.
[4]单剑锋,葛栋,宋晓涛.一种新型无线传感网络中继功率分配方案[J].计算机技术与发展,2014,24(06):230.
 SHAN Jian-feng[],GE Dong[],SONG Xiao-tao[].New Type Scheme of Relay Power Allocation in WSN[J].,2014,24(06):230.
[5]张丽娟,解培中. MIMO信道中基于功率分配的SLNR预编码算法[J].计算机技术与发展,2014,24(08):112.
 ZHANG Li-juan,XIE Pei-zhong. A SLNR Precoding Algorithm Based on Power Allocation in MIMO Channel[J].,2014,24(06):112.
[6]岳文静,陆海亚,蒲昱,等. 基于协作频谱感知的多天线中继系统功率分配[J].计算机技术与发展,2015,25(11):218.
 YUE Wen-jing,LU Hai-ya,PU Yu,et al. Power Allocation in MIMO Relay System Based on Cooperative Spectrum Sensing[J].,2015,25(06):218.
[7]喻超[],芮雄丽[],曹雪虹[]. 基于功率分配与中继选择联合优化的协作MAC[J].计算机技术与发展,2016,26(10):6.
 YU Chao[],RUI Xiong-li[],CAO Xue-hong[]. A Cooperative MAC Based on Joint Optimization of Power Allocation and Relay Selection[J].,2016,26(06):6.
[8]李亚玲. 密集飞蜂窝网中基于博弈论的最佳功率分配法[J].计算机技术与发展,2016,26(10):169.
 LI Ya-ling. Optimal Power Allocation Strategy Based on Stackelberg Game Approach in Dense Femtocell Networks[J].,2016,26(06):169.
[9]李晓婷. 大规模MIMO双向中继系统的功率分配[J].计算机技术与发展,2017,27(02):143.
 LI Xiao-ting. Power Allocation of Massive MIMO Two-way Relay System[J].,2017,27(06):143.
[10]周延旭[],郑武[],刘陈[]. 联合动态功率分配的交替最小化干扰对齐算法[J].计算机技术与发展,2017,27(04):73.
 ZHOU Yan-xu[],ZHENG Wu[],LIU Chen[]. Investigation on Alternating Minimization Interference Alignment Algorithm with Joint Dynamic Power Allocation[J].,2017,27(06):73.

更新日期/Last Update: 2021-06-10