1. Khaled , Y , Kamal , Evaluation of Simulated Microgravity Environments Induced by Diamagnetic Levitation of Plant Cell Suspension Cultures [J]. Microgravity Science & Technology , 2016 . Khaled, Y, Kamal, Evaluation of Simulated Microgravity Environments Induced by Diamagnetic Levitation of Plant Cell Suspension Cultures [J]. Microgravity Science & Technology, 2016.

2. Ning K , Zhang Z , Han K , Han S , Zhang X. Single-Core Multiscale Residual Network for the Super Resolution of Liquid Metal Specimen Images. Machine Learning and Knowledge Extraction. 2021 Jun ; 3(2):453-66. Ning K, Zhang Z, Han K, Han S, Zhang X. Single-Core Multiscale Residual Network for the Super Resolution of Liquid Metal Specimen Images. Machine Learning and Knowledge Extraction. 2021 Jun; 3(2):453-66.

3. Sixue W , Shi H , Xiaoqing W , Jianqiang L , Qiang Y , Xiaoyu L , Yuehai W , Keqing N. Research on Melt Wettability Measurements Under Microgravity. Microgravity Science and Technology. 2021 Feb ; 33(1):1-8. Sixue W, Shi H, Xiaoqing W, Jianqiang L, Qiang Y, Xiaoyu L, Yuehai W, Keqing N. Research on Melt Wettability Measurements Under Microgravity. Microgravity Science and Technology. 2021 Feb; 33(1):1-8.

4. Liu X , Lu X , Wang X , Yu Q , Liu L , Wang Y , Ning K. Shape-Supervised Super-Resolution Convolutional Neural Network for Melt Droplet Images. Microgravity Science and Technology. 2021 Aug ; 33(4):1-1. Liu X, Lu X, Wang X, Yu Q, Liu L, Wang Y, Ning K. Shape-Supervised Super-Resolution Convolutional Neural Network for Melt Droplet Images. Microgravity Science and Technology. 2021 Aug; 33(4):1-1.

5. L. G. Roberts . Machine perception of 3D solids. Optical and Electro-Optical Information Processing . MIT Press , 1965 . L. G. Roberts. Machine perception of 3D solids. Optical and Electro-Optical Information Processing. MIT Press, 1965.