研究成果:
第一/通讯作者学术论文:
[1] Jianqing Huang#, Hecong Liu#*, Shuo Zhu, Yingzheng Liu, Edmund Y. Lam*, Weiwei Cai*. Computational flow visualization to reveal the hidden properties of complex flow with optical and computational methods. Cell Reports Physical Science, 2024, 5(11): 102282. (中科院二区,Q1,IF=7.9)
[2] Jianqing Huang*, Yanmin Zhu, Yuxing Li, Edmund Y. Lam*. Snapshot polarization-sensitive holography for detecting microplastics in turbid water. ACS Photonics, 2023, 10(12): 4483–4493. (中科院一区,Q1,IF=6.5)
[3] Jianqing Huang*, Zhiyong Wu, Weiwei Cai, Edouard Berrocal, Marcus Aldén, Zhongshan Li. Volume expansion and micro-explosion of combusting iron particles analyzed using magnified holographic imaging. Powder Technology, 2023, 420: 118412. (中科院二区,Q1,IF=4.5)
[4] Jianqing Huang*, Zhiyong Wu, Weiwei Cai, Edouard Berrocal, Marcus Aldén, Zhongshan Li. In-situ quantification of spatiotemporally resolved particle concentration in iron powder combustion using holographic imaging. Powder Technology, 2022, 405: 117554. (中科院二区,Q1,IF=4.5)
[5] Jianqing Huang#, Shen Li#, David Sanned, Leilei Xu, Shijie Xu, Qian Wang, Yong Qian*, Weiwei Cai, Edouard Berrocal, Mattias Richter, Marcus Aldén, Zhongshan Li. A detailed study on the micro-explosion of burning iron particles in hot oxidizing environments. Combustion and Flame, 2022, 238: 111755. (中科院二区,Q1,IF=5.8)
[6] Jianqing Huang, Weiwei Cai*, Yingchun Wu, Xuecheng Wu. Recent advances and applications of digital holography in multiphase reactive/non-reactive flows: a review. Measurement Science and Technology, 2022, 33(2): 022001. (中科院三区,Q1,IF=2.7)
[7] Jianqing Huang#, Shen Li#, Weiwei Cai, Yong Qian*, Edouard Berrocal, Marcus Aldén, Zhongshan Li. Quantification of the size, 3D location and velocity of burning iron particles in premixed methane flames using high-speed digital in-line holography. Combustion and Flame, 2021, 230: 111430. (中科院二区,Q1,IF=5.8)
[8] Jianqing Huang, Shen Li, Yabo Zi, Yong Qian, Weiwei Cai*, Marcus Aldén, Zhongshan Li. Clustering-based particle detection method for digital holography to detect the three-dimensional location and in-plane size of particles. Measurement Science and Technology, 2021, 32(5): 055205. (中科院三区,Q1,IF=2.7)
[9] Weiwei Cai, Jianqing Huang*, Andong Deng, Qian Wang. Volumetric reconstruction for combustion diagnostics via transfer learning and semi-supervised learning with limited labels. Aerospace Science and Technology, 2021, 110: 106487. (中科院一区,Q1,IF=5.0)
[10] Jianqing Huang, Hecong Liu, Qian Wang, Weiwei Cai*. Limited-projection volumetric tomography for time-resolved turbulent combustion diagnostics via deep learning. Aerospace Science and Technology, 2020, 106: 106123. (中科院一区,Q1,IF=5.0)
[11] Jianqing Huang, Hecong Liu, Weiwei Cai*. Online in situ prediction of 3-D flame evolution from its history 2-D projections via deep learning. Journal of Fluid Mechanics, 2019, 875, R2. (中科院二区,Q1,IF=3.6)
[12] Jianqing Huang, Jianan Zhao, Weiwei Cai*. Compressing convolutional neural networks using POD for the reconstruction of nonlinear tomographic absorption spectroscopy. Computer Physics Communications, 2019, 241: 33-39. (中科院二区,Q1,IF=7.2)
[13] Jianqing Huang, Hecong Liu, Jinghang Dai, Weiwei Cai*. Reconstruction for limited-data nonlinear tomographic absorption spectroscopy via deep learning. Journal of Quantitative Spectroscopy and Radiative Transfer, 2018, 218: 187-193. (中科院三区,Q2,IF=2.3)
[14] 黄建青,李磊,蔡伟伟*,贫燃熄火实验预测方法综述,实验流体力学,邀请稿,2018年第二期。被评为2018年度《实验流体力学》优秀论文。
国际会议论文:
[1] Jianqing Huang*, Yuxing Li, Yanmin Zhu, Edmund Y. Lam*. A field deployable imaging system for detecting microplastics in the aquatic environment. IEEE International Symposium on Circuits & Systems, Singapore, May 19-22, pp. 1-5, 2024.
[2] Jianqing Huang, Yanmin Zhu, Yuxing Li, Yunping Zhang, Edmund Y. Lam*. Polarization-sensitive digital holography for microplastics identification through scattering media. Digital Holography and Three-Dimensional Imaging, HW3D. 2. Boston, United States, 2023.
[3] Jianqing Huang, Hecong Liu, Weiwei Cai*. Tomographic reconstruction for 3D flame imaging using convolutional neural networks. 12th Asia-Pacific Conference on Combustion, Fukuoka, Japan, 2019.
1、主持,基于模型和数据驱动的计算成像,中国博士后科学基金会“香江学者计划”,XJ2022032,2022-2024
2、主持,物理信息数据驱动的计算全息成像及其在粒子场检测中的应用,上海交大优秀博士毕业生发展奖学金,2022-2024
3、主持,先进激光燃烧诊断技术及湍流燃烧特性研究,上海交大致远荣誉计划,2017-2022
4、参与,利用先进的激光诊断和建模实现二氧化碳中性能量转换,瑞典瓦伦堡基金会(KAW),2019-2023
5、参与,金属燃烧:研究可以用作可持续能源载体的金属燃烧的潜力,瑞典能源部Metal-CECOST项目,2018-2021
6、参与,以光学和计算技术应对微塑料和纳米塑料的污染,香港研究资助局重点项目,RIF R7003-21,2022-2027
7、参与,基于光学层析成像的非定常火焰碳烟诊断方法研究,国家自然科学基金国际合作与交流项目,52061135108,2021-2023
参与,基于单相机内窥背景纹影层析技术的火焰折射率场、密度场和温度场同步测量方法研究,国家自然科学基金面上项目,51976122,2020-2023
1.中国人社部博士后基金会“香江学者计划” (全国50人入选),2022年。
2.上海交大“优秀博士毕业生发展奖学金” (全校18人入选),2022年。
3.上海交大“致远荣誉博士学位” (全校11人入选),2022年。
4.上海交大“优秀博士学位论文提名奖” (全校45人入选),2022年。
5.上海市“优秀毕业生”,2022年。
6.上海交大机动学院“学术之星”,2021年。
7.哈尔滨工业大学“优秀毕业生”,2017年。
8.黑龙江省“三好学生”,2016年。
9.中国教育部“国家奖学金”,2015年。
