姓名:南苏琴
所属学科:计算机科学与技术/电子信息/信息与通信工程
职称:副教授
职务:软件工程系主任
E-mail:sqnan@hutb.edu.cn
研究领域:量子成像、图像处理、人工智能
掌握的外国语:英语
来校时间:2020/10
教育背景:
2011-2015:重庆师范大学,电子信息科学与技术学士
2015-2017:湖南大学,信息与通信工程专业硕士
2017-2020:湖南大学,计算机科学与技术专业博士
工作经历:
2020-2022 湖南工商大学,计算机学院讲师/计算机公共课教研室主任
2022至今 湖南工商大学,计算机学院副教授/软件工程系系主任
主要荣誉:
1.湖南省普通高校青年骨干教师
2.湖南工商大学“湘江青年学者”
3.湖南工商大学“我最喜爱的老师”
4.湖南工商大学“优秀本科生导师”
主要课题:
1.国家自然科学基金青年科学基金项目,2022/01-2024/12,主持,在研。
2.湖南省教育厅优秀青年项目,2023/01-2025/12,主持,在研。
3.湖南工商大学“数智+”学科交叉研究项目,2023/09-2025/12,主持,在研。
4.湘江实验室重大项目,2023/07-2025/07,参与,在研
5.国家自然科学基金面上项目,2020/01-2023/12,参与,结题
主要论文:
1. Wide-field scanning ghost imaging based on a local binary pattern and untrained neural network. Optics Express, 2024.
2. Propagation dynamics of modulated vortex beams in nonlocal nonlinear media. Optics Communications, 2023.
3. Investigation on free space optical communication with binary ghost imaging. Journal of the Optical Society of America B, 2023.
4. Ghost imaging lidar system for remote imaging. Optics Express, 2023.
5. The influence of free-surface vortex on underwater ghost imaging. Journal of Optics, 2023.
6. High-Resolution Microscopic Ghost Imaging for Bioimaging. Physical Review Applied, 2023.
7. Principle of subtraction ghost imaging in scattering medium. Chinese Physical B, 2023.
8. Critical resolution in ghost imaging system with pseudo-thermal light. Results in Physics, 2022.
9. Enhancing critical resolution of a ghost imaging system by using a vortex beam. Optics Express, 2022.
10. Propagation dynamics and crosstalk of orbital angular momentum beams influenced by a supersonic wind-induced environmental disturbance. Optics Express, 2022.
11. Ghost imaging influenced by a supersonic wind-induced random environment. Optics Letters, 2021.
12. Detail reconstruction in ghost imaging with undersampling. Journal of Optics, 2021.
13. Experimental investigation of ghost imaging of reflective objects with different surface roughness. Photonics Research, 2017.
14. Second-order intensity-correlated imaging with a rotating reflected object. 2018.
15. Ghost imaging for a reflected object with large incident angles. IEEE Photonics Journal, 2017.
16. The unified imaging condition of Fourier-transform ghost imaging in the far field. Laser Physics Letters, 2020.
17. Ghost imaging for detecting trembling with random temporal changing. Optics Letters, 2020.
18. Investigation on the behavior of a laser propagating through a random environment induced by wind. Optics Express, 2019.
19. Positive influence of the scattering medium on reflective ghost imaging. Photonics Research, 2019.
20. Effect of the collection range of a bucket detector on ghost imaging through turbulent atmosphere. Journal of the Optical Society of America A, 2019.
21. Ghost imaging through inhomogeneous turbulent atmosphere along an uplink path and a downlink path. OSA Continuum, 2020.
22. The quality of temporal ghost imaging over optical fiber. Optics and Laser Technology, 2018.
23. Image quality enhancement in low-light-level ghost imaging using modified compressive sensing method. Laser Physics Letters, 2018.
24. Influence of transversely inhomogeneous pseudo-thermal light source on lensless ghost imaging. Applied Optics, 2018.
25. Ghost microscope imaging system from the perspective of coherent-mode representation. Laser Physics Letters, 2018
26. Reflective ghost imaging free from vibrating detectors. Chinese Physics B, 2017.
主要发明专利:
1. 一种焊缝检测装置、控制系统及焊缝图像识别方法,ZL202310447709.5,2023/07/07
2. 一种基于深度学习的全景扫描关联成像方法,ZL202311445589.1,2024/01/09
3. 一种基于弱光探测的扫描全景关联成像系统及其抑噪方法,ZL202410036018.0,2024/03/26
4. 一种基于无服务边缘计算的多用户多任务调度方法,ZL202411537363.9,2025/01/03
5. 一种从头肽段测序方法、装置及相关设备,ZL202310526160.9,2023/05/11
6. 一种联合差分矩阵和时延法的信源数估计方法,ZL202310390305.7,2023/04/13
