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个人信息

姓名:王允乾

国籍:中国

性别:

职称:副教授

学位:博士

电子邮件:wangyunqian@ncu.edu.cn

所在单位:数学与计算机学院

个人信息

王允乾,男,1982年,山东成武人;工学博士、副教授、高级工程师、硕士生导师。2010年毕业于中国科学技术大学,获理学硕士学位,2021年毕业于南昌大学,获工学博士学位。自2010年起任教于南昌大学,现任计算机科学与技术系专任教师,长期从事人工智能、深度学习、数据挖掘、智能应用系统开发及大语言模型应用等方向的教学、科研与应用工作。

主持完成国家自然科学基金项目1项、省级重点课题1项,发表SCI、CCF推荐期刊、EI收录论文20余篇。现任国家自然科学基金项目评议专家,并担任《Expert Systems with Applications》《Neurocomputing》《International Journal of Theoretical Physics》《The Journal of Supercomputing》等国际期刊审稿人。

主讲多门本硕课程,包括本科生课程《大语言模型通识》《机器学习与数据挖掘》《人工智能》,以及研究生课程《数据挖掘技术》《人工智能及应用》《教育数据挖掘》。其中,《机器学习与数据挖掘》与《人工智能》两门课程获评校级“授课质量评价优秀奖”。

目前指导在读研究生16名,包括2025级5人、2024级5人、2023级6人。自招收研究生以来,所指导学生每年均有获得研究生国家奖学金:2022年王钰锋(2021级)、2023年李恒(2022级)、2024年李恒(2022级,再次获奖)、2025年肖俊华与杨文裕(均为2023级)。

获得2025届南昌大学优秀硕士毕业论文指导教师,2024届、2025届南昌大学本科生优秀毕业设计(论文)优秀指导教师荣誉称号。

工作履历

[1] - 南昌大学-数学与计算机学院-计算机科学与技术系,副教授,硕士生导师

科研项目

国家自然科学基金项目:混合量子经典计算架构下的量子生成对抗网络研究,结题

科研成果

  1. Wenyu Yang, Heng Li, Yunkun Wang, Yunqian Wangdfd72600f3ec4907b94b7b13b608a070.jpg, Dual-Channel Attention-Autoencoder for Tabular-Graph Fusion: Tackling Heterogeneous Data in AI for Science, Expert Systems With Applications, 2026. JCR Q1 & 中科院一区TOP

  2. Junhua Xiao, Ao Ma, Yunkun Wang, Yunqian Wangdfd72600f3ec4907b94b7b13b608a070.jpg, A Multimodal Fusion Framework for NF/RO Performance: Leveraging Molecular Graphs for Superior Predictive Modeling and Mechanistic Explanations, ACS ES&T Engineering, 2026

  3. Jianbin Hu, Ao Ma, Junhua Xiao, Yunkun Wang, Yunqian Wangdfd72600f3ec4907b94b7b13b608a070.jpg, Multimodal Machine Learning for Intelligent MOF Design: Adsorption Mechanism Analysis and Visual Prediction, ACS ES&T Water, 2026

  4. Zhiqiang Guo, Jianbin Hu, Wenyu Yang and Yunqian Wang5281f109ef0d4b7cb864e6caf68a699b.jpg, Optimizing quantum federated learning: addressing non-I I D data challenges with global data sharing in weighted model averaging and clustering-based parameter selection, Phys. Scr. 100 125106 (2025).

  5. Wenyu Yang, Bozhi Yang, and Yunqian Wang5281f109ef0d4b7cb864e6caf68a699b.jpg. An in-depth exploration of predictive analytics in academic performance: a comprehensive framework utilizing large-scale feature-derived bidirectional long short-term memory neural networks. Education and Information Technologies (2025).

  6. Junhua Xiao, Heng Li, Jianbin Hu, Yunkun Wang, Yunqian WangQQ截图20240208102550.jpg. Optimizing nanofiltration for PFOS removal: A gradient boosting convolutional model approach, Journal of Environmental Chemical Engineering, Volume 13, Issue 4 (2025). 

  7. Jianbin Hu, Junhua Xiao, Wenyu Yang, Yunkun Wang, Yunqian WangQQ截图20240208102550.jpg. Quantum-Enhanced Gradient Boosting Neural Networks for Optimizing PFOS Removal with Nanofiltration Membranes, Desalination and Water Treatment Volume 323, 101266 (2025) .

  8. Tuo, Jiayi, Minmin Zha, Heng Li, Daosen Xie, Yunkun Wang, Guo-Ping Sheng, and Yunqian WangQQ截图20240208102550.jpg. "Predictive modeling and insight into protein fouling in microfiltration and ultrafiltration through one-dimensional convolutional models." Separation and Purification Technology (2025): 128237.(SCI一区TOP)

  9. Li, Heng, Bin Zeng, Jiayi Tuo, Yunkun Wang, Guo-Ping Sheng, and Yunqian WangQQ截图20240208102550.jpg. "Development of an improved deep network model as a general technique for thin film nanocomposite reverse osmosis membrane simulation." Journal of Membrane Science 692 (2024): 122320. (SCI一区TOP)

  10. Li, Heng, Bin Zeng, Taorong Qiu, Wei Huang, Yunkun Wang, Guo-Ping Sheng, and Yunqian WangQQ截图20240208102550.jpg. "Deep learning models for assisted decision-making in performance optimization of thin film nanocomposite membranes." Journal of Membrane Science 687 (2023): 122093. (SCI一区TOP)

  11. Li, Heng, Yunkun Wang, and Yunqian WangQQ截图20240208102550.jpg. "Machine learning for predicting the dynamic extraction of multiple substances by emulsion liquid membranes." Separation and Purification Technology 313 (2023): 123458. (SCI一区TOP)

  12. Jingjun Wang, Hao Zhang, Yan Wang, Dilnur Dilxat, Rukang Tian, Yingxin Tang, Hong Mei, Yunqian WangQQ截图20240208102550.jpg, Huiyan Shen, Wei-Hua Li*, Yunkun Wang*. "Ionic liquid-functionalized antibiofouling nanofiltration membranes." Desalination 572 (2024): 117120. (SCI一区TOP)

  13. Wang, Yunqian, Yufeng Wang, Chao Chen, Runcai Jiang, and Wei Huang. "Development of variational quantum deep neural networks for image recognition." Neurocomputing 501 (2022): 566-582.(SCI二区TOP/CCF-C)

  14. Wang, Yunqian, Chao Chen, and Wei Huang. "Design of quantum filter for hybrid quantum-classical convolutional neural networks." In 2021 International Conference on Information Technology and Biomedical Engineering (ICITBE), pp. 66-70. IEEE, 2021.

  15. Zhou, Nan-Run, Kong-Ni Zhu, and Yun-Qian WangQQ截图20240208102550.jpg. "Three-party semi-quantum key agreement protocol." International Journal of Theoretical Physics 59 (2020): 663-676.

  16. Li, Xiao-Zhen, Wei-Wei Chen, and Yun-Qian WangQQ截图20240208102550.jpg. "Quantum image compression-encryption scheme based on quantum discrete cosine transform." International Journal of Theoretical Physics 57 (2018): 2904-2919.

  17. Zhao, Xing-Qiang, Hua-Ying Chen, Yun-Qian Wang, and Nan-Run Zhou. "Semi-quantum bi-signature scheme based on W states." International Journal of Theoretical Physics 58 (2019): 3239-3251.

  18. Yan, Xing-Yu, Nan-Run Zhou, Li-Hua Gong, Yun-Qian Wang, and Xiao-Jun Wen. "High-dimensional quantum key distribution based on qudits transmission with quantum Fourier transform." Quantum Information Processing 18 (2019): 1-14.

  19. Zhao, Xing-Qiang, Yun-Qian Wang, Li-Hua Gong, and Qing-Wei Zeng. "New bi-signature scheme based on GHZ states and W states." International Journal of Theoretical Physics 58 (2019): 1555-1567.

  20. Zhu, Kong-Ni, Nan-Run Zhou, Yun-Qian Wang, and Xiao-Jun Wen. "Semi-quantum key distribution protocols with GHZ states." International Journal of Theoretical Physics 57 (2018): 3621-3631.

  21. Zhou, Nanrun, Weiwei Chen, Xinyu Yan, and Yunqian Wang. "Bit-level quantum color image encryption scheme with quantum cross-exchange operation and hyper-chaotic system." Quantum Information Processing 17 (2018): 1-24.