Journal of Jilin University(Engineering and Technology Edition) ›› 2023, Vol. 53 ›› Issue (11): 3194-3200.doi: 10.13229/j.cnki.jdxbgxb.20220886

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Trusted cloud computing platform poly source big data time sequence scheduling algorithm

Rui-shan DU1,2(),Yu-xin CHEN1,Ling-dong MENG2   

  1. 1.School of Computer and Information Technology,Northeast Petroleum University,Daqing 163318,China
    2.Key Laboratory of Oil & Gas Reservoir and Underground Gas Storage Integrity Evaluation of Heilongjiang Province,Northeast Petroleum University,Daqing 163318,China
  • Received:2022-07-13 Online:2023-11-01 Published:2023-12-06

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Abstract:

The poor performance of time series scheduling for multi-source big data on a trusted cloud computing platform can increase platform transmission energy consumption and operating costs, and decrease the utilization rate of multi-source big data. In order to enable the data within the platform to be reasonably scheduled according to task objectives, a trusted cloud computing platform multi-source big data time series scheduling algorithm is proposed. This method first constructs a chaotic time series model to mine the multi-source big data on the trusted cloud computing platform, and then optimizes the data using the wavelet threshold denoising method. The optimized multi-source big data is then combined with the massive parallel Bayesian factorization decomposition method. Based on the time series scheduling strategy output by this method, the time series scheduling of multi-source big data on a trusted cloud computing platform is realized. Experimental results show that the maximum acceleration ratio achieved by this method is 97.2%, the total power of resource scheduling is only 2300 kW, and the load balance deviation does not exceed 0.2.

Key words: trusted cloud computing platform, multi-source big data, chaotic time series model, wavelet threshold denoising, bayesian algorithm, scheduling strategy

CLC Number: 

  • TP39

Fig.1

Acceleration ratio of different methods"

Table 1

Average acceleration ratio of different methods %"

方法8-1加速比8-2加速比8-4加速比
本文38.5068.597.2
文献[330.1044.368.9
文献[422.4042.672.8

Table 2

Total power of resource scheduling by different methods"

方法资源调度总功率/kW
本文2300
文献[36400
文献[48000

Fig.2

Load balancing deviation of different methods"

1 张金龙, 员青泽. 一种云计算系统信任度访问控制方法仿真[J]. 计算机仿真, 2022, 39(2): 472-475.
Zhang Jin-long, Yuan Qing-ze. Simulation of a trust access control method for cloud computing systems [J]. Computer Simulation, 2022, 39(2): 472-475.
2 李晓会, 陈潮阳, 伊华伟, 等. 基于云计算和大数据分析的大规模网络流量预测[J]. 吉林大学学报: 工学版, 2021, 51(3): 1034-1039.
Li Xiao-hui, Chen Chao-yang, Yi Hua-wei, et al. Large scale network traffic prediction based on cloud computing and big data analysis[J]. Journal of Jilin University (Engineering and Technology Edition), 2021, 51(3): 1034-1039.
3 李勤, 罗涛华. 船联网环境下舰船传感通信大数据融合调度算法[J]. 舰船科学技术, 2020, 42(2): 124-126.
Li Qin, Luo Tao-hua. Big data fusion scheduling algorithm for ship sensor communication in the environment of ship networking[J]. Ship Science and Technology, 2020, 42(2): 124-126.
4 徐超, 吴波, 姜丽丽, 等. 云——边缘系统中跨域大数据作业调度技术研究[J]. 计算机应用研究, 2020, 37(3): 754-758.
Xu Chao, Wu Bo, Jiang Li-li, et al. Task scheduling for geo-distributed data analytics in cloud—edge system[J]. Application Research of Computers, 2020, 37(3): 754-758.
5 李孜颖, 石振国. 面向大数据任务的调度方法[J].计算机应用, 2020, 40(10): 2923-2928.
Li Zi-ying, Shi Zhen-guo. Scheduling method for big data tasks[J]. Journal of Computer Applications, 2020, 40(10): 2923-2928.
6 林涛, 冯竞凯, 郝章肖, 等. 基于组合预测模型的云计算资源负载预测研究[J]. 计算机工程与科学, 2020, 42(7): 1168-1173.
Lin Tao, Feng Jing-kai, Hao Zhang-xiao, et al. Cloud computing resource load prediction based on combined prediction model[J]. Computer Engineering and Science, 2020, 42(7): 1168-1173.
7 李海林, 龙芳菊. 基于同步频繁树的时间序列关联规则分析[J]. 智能系统学报, 2021, 16(3): 502-510.
Li Hai-lin, Long Fang-ju. Association rules analysis of time series based on synchronization frequent tree [J]. CAAI Transactions on Intelligent Systems, 2021, 16(3): 502-510.
8 刘坤华, 钟佩思, 徐东方, 等. 基于双曲正切函数的修正线性单元[J].计算机集成制造系统, 2020, 26(1): 145-151.
Liu Kun-hua, Zhong Pei-si, Xu Dong-fang, et al. Tangent-based rectified linear unit[J]. Computer Integrated Manufacturing Systems, 2020, 26(1): 145-151.
9 李海涛, 邓少贵, 王跃祥, 等. 基于经验模态分解的核磁共振去噪方法研究[J]. 西南石油大学学报: 自然科学版, 2020, 42(3): 51-59.
Li Hai-tao, Deng Shao-gui, Wang Yue-xiang, et al. Research on nmr denoising method based on empirical mode decomposition[J]. Journal of Southwest Petroleum University (Science & Technology Edition), 2020,42(3): 51-59.
10 朱广贺, 朱智强, 袁逸萍. 基于时序模型和深度学习的GIS设备故障上限评估算法[J/OL]. [2023-08-28].
Zhu Guang-he, Zhu Zhi-qiang, Yuan Yi-ping. GIS equipment fault upper limit evaluation based on time series model and deep learning [J/OL]. [2023-08-28].
11 鲁铁定, 谢建雄. EEMD-多尺度排列熵的GPS高程时间序列降噪方法[J]. 大地测量与地球动力学, 2021, 41(2): 111-115.
Lu Tie-ding, Xie Jian-xiong. EEMD-multiscale permutation entropy noise reduction method for GPS elevation time series[J]. Journal of Geodesy and Geodynamics, 2021, 41(2): 111-115.
12 周春月, 庞迪. 基于节点属性和缓存管理的机会网络路由算法[J]. 北京交通大学学报, 2021, 45(2): 71-79.
Zhou Chun-yue, Pang Di. An opportunistic networks routing protocol based on attributes of nodes and buffer management[J]. Journal of Beijing Jiaotong University, 2021, 45(2): 71-79.
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