Tang Chen
School
School of Electrical and Information Engineering
Professional Title
Professor
Contact Information
18202279763
tangchen@tju.edu.cn
Building 26D-316 Weijin Road Campus: No. 92 Weijin Road, Nankai District, Tianjin, China
Brief Introduction
Dr. Tang Chen is currently a Professor of the School of Electrical and Information Engineering, Tianjin University, China. She is the leader of several national research grant projects, such as the National Natural Science Foundation of China so on. In recent years she has published 60 papers in Optics Letters, Optics Express, Applied Optics, IEEE Transactions on image processing and so on, respectively.
Academic Achievements
- Papers
- [1] Zhou Q, Tang C, Li B, et al. Adaptive oriented PDEs filtering methods based on new controlling speed function for discontinuous optical fringe patterns. Optics & Lasers in Engineering, 2018, 100:111–117
- [2] Li B, Tang C, Gao G, et al. General filtering method for electronic speckle pattern interferometry fringe images with various densities based on variational image decomposition. Applied Optics, 2017, 56(16):4843
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- [3] Wenjun Xu, Chen Tang(*), Fan Gu, Jiajia Cheng. Combination of oriented partial differential equation and shearlet transform for denoising in electronic speckle pattern interferometry fringe patterns. Applied Optics, 2017, 56(10): 2843-2850
- [4] Yonggang Su, Chen Tang(*), Guannan Gao, Fan Gu, Zhenkun Lei, Shuwei Tang, Optical encryption scheme for multiple color images using complete trinary tree structure, Optics and Lasers in Engineering, 98, 46–55, 2017
- [5] Yonggang Su, Chen Tang(*), Xia Chen, Biyuan Li, Wenjun Xu, Zhenkun Lei, Cascaded Fresnel holographic image encryption scheme based on a constrained optimization algorithm and Henon map, Optics and Lasers in Engineering, 88, 20–27, 2017
- [6] Yonggang Su, Chen Tang(*), Xia Chen, Biyuan Li, Wenjun Xu, Yuanxue Cai, Single-lens Fourier-transform-based optical color image encryption using dual two-dimensional chaotic maps and the Fresnel transform, Applied Optics, 56(3), 498–505, 2017
- [7] Yonggang Su, Chen Tang(*), Xia Chen, Biyuan Li, Wenjun Xu, Zhenkun Lei, Optical image encryption based on mixed chaotic maps and single-shot digital holography, Transactions of Tianjin University, 23, 184–191, 2017. (EI)
- [8] Biyuan Li,Chen Tang(*),Xinjun Zhu,Yonggang Su,Wenjun Xu,Shearlet transform for phase extraction in fringe projection profilometry with edges discontinuity,Optics and Lasers in Engineering,2016,78:91-98
- [9] Biyuan Li,Chen Tang(*),Xinjun Zhu,Xia Chen,Yonggang Su,Yuanxue Cai,A 3D shape retrieval method for orthogonal fringe projection based on a combination of variational image decomposition and variational mode decomposition,Optics and Lasers in Engineering,2016,86:345-355
- [10] Xia Chen, Chen Tang(*), Biyuan Li, Yonggang Su, Variational image decomposition for estimation of fringe orientation and density from electronic speckle pattern interferometry fringe patterns with greatly variable density, Optics and Lasers in Engineering, 86, 197–205, 2016
- [11] Xia Chen, Chen Tang(*), Biyuan Li, Yonggang Su, Gradient vector fields based on variational image decomposition for skeletonization of electronic speckle pattern interferometry fringe patterns with variable density and their applications, Applied Optics, 55(25), 6893–6902, 2016.
- [12] General construction of transform-domain filters, filtering methods for electronic speckle pattern interferometry, and comparative analyses
- [13] Two parabolic-hyperbolic oriented partial differential equations for denoising in electronic speckle pattern interferometry fringes
- [14] Chen Sun,Chen Tang(*),Xinjun Zhu,Hongwei Ren,Exponential total variation model for noise removal,its numerical algorithms and applications,AEU-International Journal of Electronics and Communications,2015,69(3):644-654
- [15] Chen Sun, Chen Tang*, Xinjun Zhu, Xiaoyu Li, An Efficient Method for Salt-and-Pepper Noise Removal Based on Shearlet Transform and Noisy Detection, AEU-International Journal of Electronics and Communications, 2015, 69(12): 1823-1832.
- [16] Xiaoyu Li,Chen Tang(*),Xinjun Zhu,Biyuan Li,Linlin Wang,Xiusheng Yan,Image/video encryption using single shot digital holography,Optics Communications,2015,342:218-223
- [17] Xinjun Zhu,Chen Tang(*),Hongwei Ren,Chen Sun,Si Yan,Image decomposition model BL-Hilbert-L2 for dynamic thermal measurements of the printed circuit board with a chip by ESPI,Optics and Laser Technology,2014,63:125-131
- [18] Xia Chen,Chen Tang(*),Xiusheng Yan,Switching degenerate diffusion PDE filter based on impulselike probability for universal impulse noise removal,AEU-International Journal of Electronics and Communications,2014,68(9):851-857。
- [19] Xinjun Zhu,Chen Tang(*),Biyuan Li,Chen Sun,Linlin Wang,Phase retrieval from single frame projection fringe pattern with variational image decomposition,Optics and Lasers in Engineering,2014,59:25-33
- [20] Wang Linlin.(*),Chen Tang,ESPI filtering method based on radial basis function,Acta Optical Sinica,2014,34:s2100061-s2100067
- [21] Wu J.(*),Chen Tang,Random-valued impulse noise removal using fuzzy weighted non-local means,Signal,Image and Video Processing,2014,8(2):349-355
- [22] Mi Qinghua,Yan Si,Tang Chen(*),Numerous possible oriented partial differential equations and investigation of their performance for optical interferometry fringes denoising,Applied Optics,2013,52(35):8439-8450
- [23] Tang Chen(*),Yang Na,Yan Haiqing,Yan Xiusheng,The new second-order single oriented partial differential equations for optical interferometry fringes with high density,Optics and Lasers in Engineering,2013,51(6):707-715
- [24] Zhu Xinjun,Chen Zhanqing,Tang Chen(*),Mi Qinghua,Yan Xiusheng,Application of two oriented partial, differential equation filtering models on speckle fringes with poor quality and their numerically fast algorithms,Applied Optics,2013,52(9):1814-1823
- [25] Zhu Xinjun,Chen Zhanqing,Tang Chen(*),Variational image decomposition for automatic background and noise removal of fringe patterns,Optics Letters,2013,38(3):275-277
- [26] Tang Chen(*),Wang Linlin,Yan Haiqing,Li Cancan,Comparison on performance of some representative and recent filtering methods in electronic speckle pattern interferometry,Optics and Lasers in Engineering,2012,50(8):1036-1051
- [27] Tang Chen(*),Wang Linlin,Yan Haiqing,Overview of anisotropic filtering methods based on partial differential equations for electronic speckle pattern interferometry,Applied Optics,2012,51(20):4916-4926
- [28] Wu Jian,Tang Chen(*),A new filter for the removal of random-valued impulse noise from highly corrupted images,AEU-International Journal of Electronics and Communications,2012,66(10):847-854
- [29] Cheng Liyan,Tang Chen(*),Yan Si,Chen Xia,Wang Linlin,Wang Bo,New fourth-order partial differential equations for filtering in electronic speckle pattern interferometry fringes,Optics Communications,2011,284(24):5549-5555
- [30] Wu Jian,Tang Chen(*),An efficient decision-based and edge-preserving method for salt-and-pepper noise removal,Pattern Recognition Letters,2011,32(15):1974-1981
- [31] Wu Jian,Tang Chen,PDE-Based Random-Valued Impulse Noise Removal Based on New Class of Controlling Functions,IEEE Transactions on Image Processing,2011,20(9):2428-2438
- [32] Li Cancan,Tang Chen(*),Yan Haiqing,Wang Linlin,Zhang Hao,Localized Fourier transform filter for noise removal in electronic speckle pattern interferometry wrapped phase patterns
- [33] Tang Chen(*),Wang Linlin,Yan Si,Wu Jian,Cheng Liyan,Li Cancan,Displacement field analysis based on the combination digital speckle correlation method with radial basis function interpolation,Applied Optics,2010,49(24):4545-4553
- [34] Tang Chen(*),Ren Hongwei,Wang Linlin,Wang Zhifang,Han Lin,Gao Tao,Oriented couple gradient vector fields for skeletonization of gray-scale optical fringe patterns with high density,Applied Optics,2010,49(16):2979-2984
- [35] Tang Chen(*),Gao Tao,Yan Si,Wang Linlin,Wu Jian,The oriented spatial filter masks for electronic speckle pattern interferometry phase patterns,Optics Express,2010,18(9):8942-8947
- [36] Tang Chen(*),Wang Zhifang,Wang Linlin,Wu Jian,Gao Tao,Yan Si,Estimation of fringe orientation for optical fringe patterns with poor quality based on Fourier transform,Applied Optics,2010,49(4):554-561
- [37] Chen Tang(*),Lin Han,Hongwei Ren,Tao Gao,Zhifang Wang,Ke Tang,The orient-couple partial differential equations for filtering in wrapped phase patterns, Optics Express, 2009,17(7):5606-5617
- [38] Chen Tang(*),Lin Han, Hongwei Ren, Dongjian Zhou, Yiming Chang, Xiaohan Wang,Xiaolong Cui, Second-order oriented partial-differential equations for denoising inelectronic-speckle-pattern interferometry fringes, Optics Letters,2008,33(19):2179-2181.
- [39] Chen Tang(*), Wenjing Lu, Yuanxue Cai, Lin Han, Gao Wang, Nearly preprocessing-free method for skeletonization of gray-scale electronic speckle pattern interferometry fringe patterns via partial differential equations, Optics Letters,2008,33(2):183-185.
- [40] Chen Tang(*), Wenjing Lu, Song Chen, Zhen Zhang, Botao Li, Wenping Wang, Lin Han, Denoising by coupled partial differential equations and extracting phase by backpropagation neural networks for electronic speckle pattern interferometer, Applied Optics,2007,46(30):7475-7484
- [41] Chen Tang(*), Wenping Wang, Haiqing Yan, Xiaohui Gu, Tangent least-squares fitting filtering method for electrical speckle pattern interferometry phase fringe, Applied Optics,2007,46(15): 2907–2913
- [42] Chen Tang(*),Weiping Wang, Yaiqing Yan, Zhanqing Chen, High-order predictor-corrector of exponential fitting for the N-body problems, Journal of Computational Physics,2006,214(2):505-520
- [43] Chen Tang(*),Fang Zhang, Zhanqing Chen, Contrast enhancement for electronic speckle pattern interferometry fringes by the differential equation enhancement method, Applied Optics, 2006,45(10):2287-2294
- [44] Chen Tang(*), Fang Zhang, Botao Li, Haiqing Yan, Performance evaluation of partial differential equation models in electronic speckle pattern interferometry and δ-mollification method of phase map, Applied Optics,2006,45(28):7392-7400
- [45] Chen Tang(*),Fang Zhang, Haiqing Yan, Zhanqing Chen, Denoising in electronic speckle pattern interferometry fringes by the filtering method based on partial differential equations, Optics Communications,2006,260(1):91-96
- [46] Chen Tang(*), Wenping Wang, Haiqing Yan, Xiaohui Gu, Tangent least-squares fitting filtering method for electrical speckle pattern interferometry phase fringe, Applied Optics,2007,46(15): 2907–2913
- Patents
- [1] Encryption method for multiple color images based on complete ternary tree structure
- [2] Adaptive Mean Shift target tracking method based on LBP features
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- [3] Synthetic aperture radar image speckle noise filtering method
- [4] Encryption method for nonlinear optical image in linear canonical transformation domain
- [5] Optical image encryption method based on combination of Fresnel transform and linear canonical transform
- [6] Optical image encryption method based on four-step generalized phase shifting and multi-step Fresnel transform
- [7] Three-step generalized phase-shifting and cascade fractional Fourier transform optical image encryption method
- [8] Optical image encryption method based on phase-cut Fourier transform
- [9] Optical image encryption method based on phase cut fractional Fourier transform
- [10] Fresnel transform domain chaotic double random phase encoding optical image encryption method
- [11] Nonlinear optical image encryption method in Gyrator transformation domain
- [12] Fresnel transform and chaotic single random phase coding optical image encryption method
- [13] Calculating integral imaging technology and Fourier transform optical image encryption method
- [14] Regular Hartley transform chaotic dual random phase coding optical image encryption method
- [15] Regularized cosine transformation chaotic double-random phase encoding optical image encryption method
- [16] Optical image encryption method based on LCT and Logistic chaos
- [17] Optical image encryption method based on Gyrator transform and coupled chaos
- [18] Chaotic and Fresnel transformation and two-step generalized phase shift optical image encryption method
- [19] Two-dimensional hyper-chaotic combining Fresnel transformation single lens optical image encrypting method
- [20] Image encryption method based on fractional Fourier transform and double random phase encoding
- [21] Double random phase optical image encryption method based on Fourier transform
- [22] Large change density fringe pattern filtering method based on generalized total variation
- [23] Image decomposition filtering method using non-local data fidelity term
- [24] Directional partial differential equation filtering method for striped projection images
- [25] Morphology measurement method of fringe projection profilometry based on empirical curvelet transform
- [26] Speckle noise filtering method for optical coherence sectional image
- [27] Single-lens color image encryption system
- [28] Image encryption system combining hybrid chaos and single frame digital holography technology
- [29] Cascade Fresnel holographic encryption system and method combining two-dimensional chaos and constrained optimization algorithm
- [30] Skeleton line extracting GVF method of density-variable ESPI pattern
- [31] Large-change density electronic speckle interference fringe graph direction and density processing method
- [32] Two dimension discrete cosine transformation and two dimension chaotic mapping-based image encryption method
- [33] A dual-optical-path three-dimensional speckle interference system based on spectroscopes