This is an era of big data, and the rapid growth of data is no longer an era that can be processed perfectly by a single machine in the past. In order to adapt to the data processing needs of the times, micro-expression recognition, as an old subject of pattern recognition, also needs to make new changes. In this case, this paper designs a micro-expression recognition system based on computer cloud computing. First of all, this paper studies the research status and application value of micro-expression recognition, and then this paper analyzes the MapReduca algorithm, the micro-expression recognition algorithm and the OpenCV computer vision library in detail. Then, this paper uses SVM-Adaboost algorithm and NSMD algorithm to realize the MapReduce micro-expression recognition system. Finally, this article has carried on the experimental test to the recognition effect and recognition time of SVM-Adaboost algorithm and NSMD algorithm, and draws relevant conclusions.

Xiaofeng Ding, Qun Xia. Design of Micro-Expression Recognition System Based on Computer Cloud Computing. International Journal of Multimedia Computing (2021), Vol. 2, Issue 3: 1-8. https://doi.org/10.38007/IJMC.2021.020301.

[1] Zhang Shucheng, Wang Xiaomei. The Application of EVM-based Heart Rate Detection in Micro-Expression Recognition. Computer Simulation, 2019, 36(03):453-457.

[2] Li Guohao, Yuan Yifan, Ben Xiye, Zhang Junping. Face Micro-Expression Recognition Using Spatiotemporal Attention Mechanism. Journal of Image and Graphics, 2020, v.25; No.295(11): 94-104.

[3] Wu Jin, An Yiyuan, Han Tianshun, et al. A Micro-Expression Recognition Algorithm Based on Radon Transform. Telecommunications Technology, 2020, 060(003):251-256.

[4] Liu Ruhan, Xu Dan. Application of Video Magnification and Deep Learning in the Task of Micro-Expression Recognition. Journal of Computer Aided Design and Graphics, 2019, 031(009): 1535-1541.

[5] Lai Zhenyi, Chen Renhe, Qian Yurong. CNN Real-Time Micro-Expression Recognition Algorithm Combined with Hollow Convolution. Journal of Computer Application Research, 2020, v.37; No.350(12):263-266+321 .

[6] Zhang Yanliang, Lu Bing, Hong Xiaopeng, et al. Micro-Expression Recognition Based on Local Area Method. Computer Applications, 2019, 39(005): 1282-1287.

[7] Jiang Wan, Zhou Xiaoyan, Xu Huanan, Li Dapeng, An Haoran. Micro-Expression Recognition Based on LBP and Dual-Temporal Neural Network. Information and Control, 2020, v.49(06): 37-43.

[8] Niu Bin, Zhang Youdi, Ma Li. Application of Micro-Expression Recognition Based on Interpretable Spatio-Temporal Convolutional Network. Journal of Liaoning University, 2020, v.47; No.162(02): 2+7-15 .

[9] Liu Zhen, Wang Sujing, Li Qing. Micro-expression Recognition Based on Multi-Task Intermediate Feature Personalized Learning. Computer Engineering and Applications, 2019, 055(018):151-154.

[10] Su Yuting, Wang Mengmeng, Liu Jing, Fei Yunpeng, He Xu. Micro-Expression Recognition Algorithm Based on Multi-Motion Feature Fusion. Progress in Laser and Optoelectronics, 2020, v.57; No.673 (14): 353-358. https://doi.org/10.3788/LOP57.141504 https://doi.org/10. 3788/LOP57.141504

[11] Tu Liang, Liu Benyong. PCA Improvement of Facial Dynamic Spectrum Feature Extraction in Micro-Expression Recognition. Communication Technology, 2019, 052(002):337-342.

[12] Bo Xiaomeng. The Application Prospects of Micro-Expression Recognition in Polygraphers. Yangtze River Series, 2019, No.438(09):96-97.