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HTML Version. University of York
0110
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HSI color space
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Specularity elimination in range sensing for accurate 3D modeling of
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Multipeak range imaging. multiple computations of range for each point.
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Specularity Detection Using Time-of-Flight Cameras,
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Sun Glint Correction of High and Low Spatial Resolution Images of
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Polynomial texture mapping; Photometric stereo; Robust estimation;
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1303
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Using specular highlights as pose invariant features for 2D-3D pose
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1106
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1408
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Earlier:
Specularity, the Zeta-image, and Information-Theoretic Illuminant
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Color12(II: 411-420).
Springer DOI
1210
Specular
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Liu, M.M.[Miao-Miao],
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1503
BibRef
Earlier:
CVPR13(129-136)
IEEE DOI
1309
Cameras.
Somewhat unique topic.
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1405
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Earlier:
Recursive Bilateral Filtering,
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Springer DOI
1210
Graphics processing units
See also Shadow Removal Using Bilateral Filtering.
See also Real-Time Specular Highlight Removal Using Bilateral Filtering.
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Yang, Q.X.[Qing-Xiong],
Semantic Filtering,
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1612
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1504
Approximation methods
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1503
Computational complexity
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Yang, Q.X.[Qing-Xiong],
Tang, J.,
Ahuja, N.,
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PAMI(37), No. 6, June 2015, pp. 1304-1311.
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1506
Approximation methods
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Song, Y.B.[Yi-Bing],
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Real-time video decolorization using bilateral filtering,
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1406
Color
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Yang, Q.X.[Qing-Xiong],
Wang, S.N.[Sheng-Nan],
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Real-Time Specular Highlight Removal Using Bilateral Filtering,
ECCV10(IV: 87-100).
Springer DOI
1009
See also Shadow Removal Using Bilateral Filtering.
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Suo, J.,
An, D.,
Ji, X.,
Wang, H.,
Dai, Q.,
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IP(25), No. 11, November 2016, pp. 5441-5454.
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1610
Analytical models
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Wang, F.[Fan],
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Bensrhair, A.[Abdelaziz],
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CVIU(158), No. 1, 2017, pp. 31-39.
Elsevier DOI
1704
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Earlier:
Polarization-based specularity removal method with global energy
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ICIP16(1983-1987)
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1610
Specularity removal.
Approximation algorithms
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Shah, S.M.Z.A.[Syed. M. Z. Abbas],
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Removal of specular reflections from image sequences using feature
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Ren, W.,
Tian, J.,
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Specular Reflection Separation With Color-Lines Constraint,
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IEEE DOI
1704
Color
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Giachetti, A.[Andrea],
Ciortan, I.M.[Irina Mihaela],
Daffara, C.[Claudia],
Marchioro, G.[Giacomo],
Pintus, R.[Ruggero],
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Elsevier DOI
1804
Multi light image collections,
Highlight reflectance transformation imaging,
Image enhancement
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Wei, X.[Xing],
Xu, X.O.[Xia-Obin],
Zhang, J.W.[Jia-Wei],
Gong, Y.H.[Yi-Hong],
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Elsevier DOI
1804
Specular reflection, Diffuse reflection, 3D geometry, Robust PCA
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Tan, K.[Kai],
Zhang, W.G.[Wei-Guo],
Shen, F.[Fang],
Cheng, X.J.[Xiao-Jun],
Investigation of TLS Intensity Data and Distance Measurement Errors
from Target Specular Reflections,
RS(10), No. 7, 2018, pp. xx-yy.
DOI Link
1808
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Li, Y.Y.[Ying-Ying],
Chen, Y.L.[Yao-Liang],
Huang, J.F.[Jing-Feng],
An Approach to Improve Leaf Pigment Content Retrieval by Removing
Specular Reflectance Through Polarization Measurements,
GeoRS(57), No. 4, April 2019, pp. 2173-2186.
IEEE DOI
1904
biology computing, botany, geophysical techniques, pigments,
reflectivity, remote sensing, vegetation, diffuse reflectance,
vegetation index (VI)
BibRef
Li, Y.Y.[Ying-Ying],
Huang, J.F.[Jing-Feng],
Remote Sensing of Pigment Content at a Leaf Scale: Comparison among
Some Specular Removal and Specular Resistance Methods,
RS(11), No. 8, 2019, pp. xx-yy.
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1905
BibRef
Lin, J.[John],
Seddik, M.E.[Mohamed El_Amine],
Tamaazousti, M.[Mohamed],
Tamaazousti, Y.[Youssef],
Bartoli, A.W.[Adrien W.],
Deep Multi-Class Adversarial Specularity Removal,
SCIA19(3-15).
Springer DOI
1906
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Plattner, M.[Michael],
Ostermayer, G.[Gerald],
Filtering Specular Reflections by Merging Stereo Images,
SCIA19(164-172).
Springer DOI
1906
BibRef
Jospin, L.V.[Laurent Valentin],
Baechler, G.[Gilles],
Scholefield, A.[Adam],
Embedded Polarizing Filters to Separate Diffuse and Specular Reflection,
ACCV18(II:3-18).
Springer DOI
1906
BibRef
Bartoli, A.E.[Adrien E.],
The Highlight Ovals,
JMIV(61), No. 7, September 2019, pp. 919-943.
Springer DOI
1908
isocontours of a planar specular highlight.
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Muhammad, S.[Siraj],
Dailey, M.N.[Matthew N.],
Farooq, M.[Muhammad],
Majeed, M.F.[Muhammad F.],
Ekpanyapong, M.[Mongkol],
Spec-Net and Spec-CGAN: Deep learning models for specularity removal
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IVC(93), 2020, pp. 103823.
Elsevier DOI
2001
Specularity, Dichromatic reflection model, Deep learning,
Convolutional neural networks
BibRef
Son, M.,
Lee, Y.,
Chang, H.S.,
Toward Specular Removal from Natural Images Based on Statistical
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IP(29), 2020, pp. 4204-4218.
IEEE DOI
2002
Specular removal, achromatic color,
diffuse and specular reflections, dichromatic reflection model,
split Bregman method
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Duan, P.H.[Pu-Hong],
Lai, J.[Jibao],
Kang, J.[Jian],
Kang, X.D.[Xu-Dong],
Ghamisi, P.[Pedram],
Li, S.T.[Shu-Tao],
Texture-aware total variation-based removal of sun glint in
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PandRS(166), 2020, pp. 359-372.
Elsevier DOI
2007
Hyperspectral image, Sun glint removal, Texture-aware total variation
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Barbu, A.[Andrei],
Banda, D.[Dalitso],
Katz, B.[Boris],
Deep video-to-video transformations for accessibility with an
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PRL(137), 2020, pp. 99-107.
Elsevier DOI
2008
Transform visual environment to make it more accessible -- e.g. flashes that
may cause seizures.
Photosensitivity, Accessibility, Video-to-video transformation
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Kobayashi, Y.[Yoshie],
Morimoto, T.[Tetsuro],
Sato, I.[Imari],
Mukaigawa, Y.[Yasuhiro],
Tomono, T.[Takao],
Ikeuchi, K.[Katsushi],
Reconstruction of Geometric and Optical Parameters of Non-Planar
Objects with Thin Film,
PAMI(43), No. 2, February 2021, pp. 638-651.
IEEE DOI
2101
BibRef
Earlier:
Reconstructing Shapes and Appearances of Thin Film Objects Using RGB
Images,
CVPR16(3774-3782)
IEEE DOI
1612
BibRef
Earlier: A1, A2, A3, A4, A6, Only:
Reconstructing Shape and Appearance of Thin Film Objects with Hyper
Spectral Sensor,
ACCV14(IV: 492-506).
Springer DOI
1504
Refractive index, Optical films, Optical refraction,
Optical variables control, Optical reflection, Interference,
thickness.
Film reflectance.
BibRef
Islam, M.N.[Md Nazrul],
Tahtali, M.[Murat],
Pickering, M.R.[Mark R.],
Specular Reflection Detection and Inpainting in Transparent Object
through MSPLFI,
RS(13), No. 3, 2021, pp. xx-yy.
DOI Link
2102
BibRef
Kang, H.[Hosun],
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Specular highlight region restoration using image clustering and
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Elsevier DOI
2106
Specular highlight detection, Highlight identification,
Pixel analysis, Pixel clustering, Image inpainting
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Wen, S.[Sijia],
Zheng, Y.Q.[Yin-Qiang],
Lu, F.[Feng],
Polarization Guided Specular Reflection Separation,
IP(30), 2021, pp. 7280-7291.
IEEE DOI
2108
Image color analysis, Lighting, Analytical models, Reflection,
Optimization, Colored noise, Task analysis,
ADMM strategy
BibRef
Wu, Z.Q.[Zhong-Qi],
Zhuang, C.Q.[Chuan-Qing],
Shi, J.[Jian],
Guo, J.W.[Jian-Wei],
Xiao, J.[Jun],
Zhang, X.P.[Xiao-Peng],
Yan, D.M.[Dong-Ming],
Single-Image Specular Highlight Removal via Real-World Dataset
Construction,
MultMed(24), 2022, pp. 3782-3793.
IEEE DOI
2208
Lighting, Image color analysis, Training, Task analysis,
Light sources, Color, Estimation, Specular highlight removal, deep learning
BibRef
Hu, G.W.[Guang-Wei],
Zheng, Y.F.[Yuan-Feng],
Yan, H.R.[Hao-Ran],
Hua, G.[Guang],
Yan, Y.C.[Yu-Chen],
Mask-guided cycle-GAN for specular highlight removal,
PRL(161), 2022, pp. 108-114.
Elsevier DOI
2209
Specular highlight removal, Non-negative matrix factorization,
Unpaired data, Cycle-GAN
BibRef
Fell, F.[Frank],
A Contrast Minimization Approach to Remove Sun Glint in Landsat 8
Imagery,
RS(14), No. 18, 2022, pp. xx-yy.
DOI Link
2209
BibRef
Liu, W.[Wei],
Liu, Q.[Qiong],
Yang, J.[Jing],
Chen, Y.F.[Ya-Fan],
Glints Detection in Noisy Images Using Graph Matching,
HMS(53), No. 1, February 2023, pp. 113-121.
IEEE DOI
2301
Estimation, Noise measurement, Pupils, Predictive models,
Prediction algorithms, Optimization, Light sources,
Kuhn-Munkras (KM) algorithm
BibRef
Le, T.V.[The Van],
Choi, Y.H.[Yong-Ho],
Lee, J.Y.[Jin Young],
Specular Detection and Rendering for Immersive Multimedia,
MultMedMag(30), No. 2, April 2023, pp. 38-47.
IEEE DOI
2307
Rendering (computer graphics), Transform coding,
Feature extraction, Streaming media, Geometry, Deep learning,
Multimedia systems
BibRef
Qiu, K.[Kebin],
Shen, J.J.[Jia-Jia],
Chen, W.G.[Wei-Guo],
Zhang, J.[Jiahui],
Effectiveness of specularity removal from hyperspectral images in the
colour spectral measurement of wool fibres,
IET-IPR(17), No. 11, 2023, pp. 3143-3152.
DOI Link
2310
hyperspectral image, lightness dissimilarity,
specular-constrained sparse approximation, wool fibre
BibRef
Ramirez, P.Z.[Pierluigi Zama],
Costanzino, A.[Alex],
Tosi, F.[Fabio],
Poggi, M.[Matteo],
Salti, S.[Samuele],
Mattoccia, S.[Stefano],
Stefano, L.D.[Luigi Di],
Booster: A Benchmark for Depth From Images of Specular and
Transparent Surfaces,
PAMI(46), No. 1, January 2024, pp. 85-102.
IEEE DOI
2312
BibRef
Fu, G.[Gang],
Zhang, Q.[Qing],
Zhu, L.[Lei],
Lin, Q.F.[Qi-Feng],
Wang, Y.H.[Yi-Hao],
Fan, S.Y.[Si-Yuan],
Xiao, C.X.[Chun-Xia],
Towards High-Resolution Specular Highlight Detection,
IJCV(132), No. 1, January 2024, pp. 95-117.
Springer DOI
2402
BibRef
Li, P.Y.[Peng-Yue],
Li, X.L.[Xiao-Lan],
Li, W.T.[Wen-Tao],
Xu, X.Y.[Xin-Ying],
Contrastive Semi-Supervised Learning for Image Highlight Removal,
SPLetters(31), 2024, pp. 1334-1338.
IEEE DOI
2405
Convolution, Image restoration, Visualization, Transformers,
Semisupervised learning, Task analysis, Feature extraction,
semi-supervised learning
BibRef
Ramirez, P.Z.[Pierluigi Zama],
Tosi, F.[Fabio],
di Stefano, L.[Luigi],
Timofte, R.[Radu],
Costanzino, A.[Alex],
Poggi, M.[Matteo],
Salti, S.[Samuele],
Mattoccia, S.[Stefano],
Zhang, Y.Y.[Yang-Yang],
Wu, C.[Cailin],
He, Z.D.[Zhuang-Da],
Yin, S.S.[Shuang-Shuang],
Dong, J.X.[Jia-Xu],
Liu, Y.C.X.[Yang-Chen-Xu],
Jiang, H.[Hao],
Shi, J.[Jun],
A, Y.[Yong],
Jin, Y.X.[Yi-Xiang],
Li, D.Z.[Ding-Zhe],
Ke, B.X.[Bing-Xin],
Obukhov, A.[Anton],
Wang, T.[Tinafu],
Metzger, N.[Nando],
Huang, S.[Shengyu],
Schindler, K.[Konrad],
Huang, Y.C.[Ya-Chuan],
Li, J.Q.[Jia-Qi],
Zhang, J.[Junrui],
Wang, Y.[Yiran],
Huang, Z.[Zihao],
Liu, T.Q.[Tian-Qi],
Cao, Z.G.[Zhi-Guo],
Li, P.Z.[Peng-Zhi],
Wang, J.L.[Jui-Lin],
Zhu, W.J.[Wen-Jie],
Geng, H.[Hui],
Zhang, Y.X.[Yu-Xin],
Lan, L.[Long],
Xu, K.[Kele],
Sun, T.[Tao],
Xu, Q.[Qisheng],
Saini, S.[Sourav],
Gupta, A.[Aashray],
Mistry, S.K.[Sahaj K.],
Shukla, A.[Aryan],
Jakhetiya, V.[Vinit],
Jaiswal, S.I.[Sun-Il],
Sun, Y.J.[Yue-Jin],
Zheng, Z.[Zhuofan],
Ning, Y.[Yi],
Cheng, J.H.[Jen-Hao],
Liu, H.I.[Hou-I],
Huang, H.W.[Hsiang-Wei],
Yang, C.Y.[Cheng-Yen],
Jiang, Z.Y.[Zhong-Yu],
Peng, Y.H.[Yi-Hao],
Huang, A.[Aishi],
Hwang, J.N.[Jenq-Neng],
NTIRE 2024 Challenge on HR Depth from Images of Specular and
Transparent Surfaces,
NTIRE24(6499-6512)
IEEE DOI
2410
Computational modeling, Estimation,
Image restoration, depth estimation,
challenge
BibRef
Iwaguchi, T.[Takafumi],
Kubo, H.[Hiroyuki],
Kawasaki, H.[Hiroshi],
Specular Object Reconstruction Behind Frosted Glass by Differentiable
Rendering,
WACV24(4035-4044)
IEEE DOI
2404
Shape, Glass, Rendering (computer graphics), Optical imaging,
Reflection, Computational efficiency, Algorithms,
3D computer vision
BibRef
Qin, J.Y.[Jiang-Ying],
Li, M.[Ming],
Zhao, J.[Jie],
Zhong, J.G.[Jia-Geng],
Zhang, H.Q.[Han-Qi],
Revolutionize the Oceanic Drone RGB Imagery with Pioneering Sun Glint
Detection and Removal Techniques,
WACV24(8311-8320)
IEEE DOI
2404
Pipelines, Sea measurements, Image restoration, Optical sensors, Sun,
Task analysis, Remote sensing, Applications, Remote Sensing,
Environmental monitoring / climate change / ecology
BibRef
Hachiya, H.[Hirotaka],
Yoshimura, Y.[Yuto],
Combining Static Specular Flow and Highlight with Deep Features for
Specular Surface Detection,
MVA23(1-5)
DOI Link
2403
Adaptation models, Shape, Machine vision, Education,
Feature extraction, Robot sensing systems, Production facilities
BibRef
Ramirez, P.Z.[Pierluigi Zama],
Tosi, F.[Fabio],
di Stefano, L.[Luigi],
Timofte, R.[Radu],
Costanzino, A.[Alex],
Poggi, M.[Matteo],
Salti, S.[Samuele],
Mattoccia, S.[Stefano],
Shi, J.[Jun],
Zhang, D.[Dafeng],
Yong, A.,
Jin, Y.X.[Yi-Xiang],
Li, D.Z.[Ding-Zhe],
Li, C.[Chao],
Liu, Z.W.[Zhi-Wen],
Zhang, Q.[Qi],
Wang, Y.X.[Yi-Xing],
Yin, S.[Shi],
NTIRE 2023 Challenge on HR Depth from Images of Specular and
Transparent Surfaces,
NTIRE23(1384-1395)
IEEE DOI
2309
BibRef
Langer, M.S.[Michael S.],
Bourque, D.[David],
Specular Streaks in Stereo,
ICPR22(3779-3785)
IEEE DOI
2212
Light source illuminates a horizontal shiny ground plane at an oblique angle.
Car headlights.
Solid modeling, Machine vision, Snow, Observers, Reflection
BibRef
Lahiri, A.[Avisek],
Ke, J.J.[Jun-Jie],
Vlasic, D.[Daniel],
Yao, X.W.[Xin-Wei],
Yu, T.[Tianli],
Yang, F.[Feng],
Identifying Document Images with Glare Using Global and Localized
Feature Fusion,
ICIP22(756-760)
IEEE DOI
2211
Training, Deep learning, Image segmentation, Adaptation models,
Pipelines, Neural networks, Feature extraction, Feature Fusion
BibRef
Elkhouly, M.D.[Mohamed Dahy],
Tsesmelis, T.[Theodore],
del Bue, A.[Alessio],
James, S.[Stuart],
Lights: Light Specularity Dataset for Specular Detection In
Multi-View,
ICIP21(2908-2912)
IEEE DOI
2201
Training, Image processing, Transportation, Lighting, Task analysis,
Faces, Specular-highlights, Multi-view, Dataset, Face-based specular detection
BibRef
Tan, J.Q.[Jia-Qi],
Lin, W.J.[Wei-Jie],
Chang, A.X.[Angel X.],
Savva, M.[Manolis],
Mirror3D: Depth Refinement for Mirror Surfaces,
CVPR21(15985-15994)
IEEE DOI
2111
Surface reconstruction, Estimation, Computer architecture, Sensors
BibRef
Fu, G.[Gang],
Zhang, Q.[Qing],
Zhu, L.[Lei],
Li, P.[Ping],
Xiao, C.X.[Chun-Xia],
A Multi-Task Network for Joint Specular Highlight Detection and
Removal,
CVPR21(7748-7757)
IEEE DOI
2111
Training, Image color analysis, Training data, Lighting, Estimation,
Feature extraction, Reflection
BibRef
Wu, S.H.[Shi-Hao],
Huang, H.[Hui],
Portenier, T.[Tiziano],
Sela, M.[Matan],
Cohen-Or, D.[Daniel],
Kimmel, R.[Ron],
Zwicker, M.[Matthias],
Specular-to-Diffuse Translation for Multi-view Reconstruction,
ECCV18(II: 193-211).
Springer DOI
1810
BibRef
Guo, J.[Jie],
Zhou, Z.J.[Zuo-Jian],
Wang, L.M.[Li-Min],
Single Image Highlight Removal with a Sparse and Low-Rank Reflection
Model,
ECCV18(II: 282-298).
Springer DOI
1810
BibRef
Yi, R.J.[Ren-Jiao],
Zhu, C.Y.[Chen-Yang],
Tan, P.[Ping],
Lin, S.[Stephen],
Faces as Lighting Probes via Unsupervised Deep Highlight Extraction,
ECCV18(IX: 321-338).
Springer DOI
1810
BibRef
Eaton, G.,
Busch, A.,
Bartels, R.,
Gao, Y.,
A Method to Create Stable Lighting and Remove Specular Reflections
for Vision Systems,
DICTA17(1-6)
IEEE DOI
1804
automatic optical inspection, food products,
image colour analysis, production engineering computing,
Testing
BibRef
Takechi, K.,
Okabe, T.,
Diffuse-specular separation of multi-view images under varying
illumination,
ICIP17(2632-2636)
IEEE DOI
1803
Cameras, Image color analysis, Lenses, Light sources,
Matrix decomposition, Microoptics, Tensile stress,
reflectance separation
BibRef
Li, C.,
Lin, S.,
Zhou, K.,
Ikeuchi, K.,
Specular Highlight Removal in Facial Images,
CVPR17(2780-2789)
IEEE DOI
1711
Calibration, Cameras, Estimation, Image color analysis, Lighting,
Pigments, Skin
BibRef
Gutsche, M.,
Schilling, H.,
Diebold, M.,
Garbe, C.,
Surface Normal Reconstruction from Specular Information in Light
Field Data,
LightField17(1735-1742)
IEEE DOI
1709
Cameras, Light sources, Mathematical model, Observers, Shape,
Surface reconstruction, Surface, treatment
BibRef
Singh, M.,
Tiwari, R.K.,
Swami, K.,
Vijayvargiya, A.,
Detection of glare in night photography,
ICPR16(865-870)
IEEE DOI
1705
Cameras, Hardware, Image segmentation, Lenses, Light sources,
Photography, Windows, Bernsen's Local Thresholding Method,
Binarization, Blooming, Connected Component, Glare, Smearing, Specular, Hotspot
BibRef
Thomas, J.B.[Jean-Baptiste],
Hardeberg, J.Y.[Jon Yngve],
Simone, G.[Gabriele],
Image Contrast Measure as a Gloss Material Descriptor,
CCIW17(233-245).
Springer DOI
1704
BibRef
Khan, H.A.[Haris Ahmad],
Thomas, J.B.[Jean-Baptiste],
Hardeberg, J.Y.[Jon Yngve],
Analytical Survey of Highlight Detection in Color and Spectral Images,
CCIW17(197-208).
Springer DOI
1704
BibRef
Natola, F.[Fabrizio],
Ntouskos, V.[Valsamis],
Pirri, F.[Fiora],
Sanzari, M.[Marta],
Single Image Object Modeling Based on BRDF and r-Surfaces Learning,
CVPR16(4414-4423)
IEEE DOI
1612
BibRef
Or-El, R.[Roy],
Hershkovitz, R.,
Wetzler, A.[Aaron],
Rosman, G.[Guy],
Bruckstein, A.M.[Alfred M.],
Kimmel, R.[Ron],
Real-Time Depth Refinement for Specular Objects,
CVPR16(4378-4386)
IEEE DOI
1612
BibRef
Gu, L.,
Robles-Kelly, A.,
A quadratic optimisation approach for shading and specularity
recovery from a single image,
ICIP16(4072-4076)
IEEE DOI
1610
Brightness
BibRef
Xu, C.,
Wang, X.,
Wang, H.,
Zhang, Y.,
Accurate image specular highlight removal based on light field
imaging,
VCIP15(1-4)
IEEE DOI
1605
Computer vision
BibRef
Meng, L.,
Lu, L.,
Bedard, N.,
Berkner, K.,
Single-Shot Specular Surface Reconstruction with Gonio-Plenoptic
Imaging,
ICCV15(3433-3441)
IEEE DOI
1602
Cameras
BibRef
Zuo, X.,
Du, C.,
Wang, S.,
Zheng, J.,
Yang, R.,
Interactive Visual Hull Refinement for Specular and Transparent
Object Surface Reconstruction,
ICCV15(2237-2245)
IEEE DOI
1602
Image edge detection
BibRef
Eum, S.[Sungmin],
Lee, H.[Hyungtae],
Doermann, D.[David],
JH2R: Joint Homography Estimation for Highlight Removal,
BMVC15(xx-yy).
DOI Link
1601
BibRef
Nguyen, T.[Tam],
Lee, G.[Guee_Sang],
Nhu, H.N.[Huan Nguyen],
Dinh, T.N.[Thuc Nguyen],
Color structure recovering in strong specular text regions,
ICDAR15(961-965)
IEEE DOI
1511
Strong highlight; color structure; painting; saliency map; tensor voting
BibRef
Zhang, Z.D.[Zheng-Dong],
Isola, P.[Phillip],
Adelson, E.H.[Edward H.],
SparkleVision: Seeing the world through random specular microfacets,
CCD15(1-9)
IEEE DOI
1510
Calibration
BibRef
Hirofuji, Y.[Yuki],
Iiyama, M.[Masaaki],
Funatomi, T.[Takuya],
Minoh, M.[Michihiko],
3D Reconstruction of Specular Objects with Occlusion:
A Shape-from-Scattering Approach,
ACCV14(IV: 630-641).
Springer DOI
1504
BibRef
Nguyen, T.[Tam],
Vo, Q.[Quang_Nhat],
Kim, S.[Soo_Hyung],
Yang, H.[Hyung_Jeong],
Lee, G.[Guee_Sang],
A novel and effective method for specular detection and removal by
tensor voting,
ICIP14(1061-1065)
IEEE DOI
1502
Colored noise
BibRef
Ziebarth, M.[Mathias],
Vogelbacher, M.[Markus],
Olawsky, S.[Sabine],
Beyerer, J.[Jürgen],
Obtaining 2D Surface Characteristics from Specular Surfaces,
GCPR14(690-700).
Springer DOI
1411
BibRef
Hane, C.[Christian],
Ladicky, L.[Lubor],
Pollefeys, M.[Marc],
Direction matters: Depth estimation with a surface normal classifier,
CVPR15(381-389)
IEEE DOI
1510
BibRef
Hane, C.[Christian],
Savinov, N.[Nikolay],
Pollefeys, M.[Marc],
Class Specific 3D Object Shape Priors Using Surface Normals,
CVPR14(652-659)
IEEE DOI
1409
textureless, reflective and specular parts.
convex optimization; dense 3d reconstruction; shape prior
BibRef
Mallick, T.,
Das, P.P.,
Majumdar, A.K.,
Estimation of the orientation and distance of a mirror from Kinect
depth data,
NCVPRIPG13(1-4)
IEEE DOI
1408
computational geometry
BibRef
Ravindra Redddy, K.,
Namboodiri, A.,
MRF and DP based specular surface reconstruction,
NCVPRIPG13(1-5)
IEEE DOI
1408
Markov processes
BibRef
Prinet, V.[Veronique],
Werman, M.[Michael],
Lischinski, D.[Dani],
Specular highlight enhancement from video sequences,
ICIP13(558-562)
IEEE DOI
1402
Cameras
BibRef
Kim, H.W.[Hyeong-Woo],
Jin, H.L.[Hai-Lin],
Hadap, S.I.[Sun-Il],
Kweon, I.[Inso],
Specular Reflection Separation Using Dark Channel Prior,
CVPR13(1460-1467)
IEEE DOI
1309
BibRef
Tian, Q.[Qing],
Clark, J.J.[James J.],
Real-Time Specularity Detection Using Unnormalized Wiener Entropy,
CRV13(356-363)
IEEE DOI
1308
Brightness
BibRef
Imai, F.H.[Francisco H.],
Computational Spectral Imaging Based on Adaptive Spectral Imaging,
CCIW13(35-52).
Springer DOI
1304
BibRef
Visentini-Scarzanella, M.[Marco],
Stoyanov, D.[Danail],
Yang, G.Z.[Guang-Zhong],
Metric depth recovery from monocular images using Shape-from-Shading
and specularities,
ICIP12(25-28).
IEEE DOI
1302
BibRef
Koreban, F.,
Schechner, Y.Y.,
Geometry by deflaring,
ICCP09(1-8).
IEEE DOI
1208
Stray light from lens reflections. In shape of aperature.
BibRef
Lamond, B.,
Peers, P.[Pieter],
Ghosh, A.[Abhijeet],
Debevec, P.[Paul],
Image-based separation of diffuse and specular reflections using
environmental structured illumination,
ICCP09(1-8).
IEEE DOI
1208
BibRef
Sills, K.[Ken],
Capson, D.[David],
Bone, G.[Gary],
Specular-Reduced Imaging for Inspection of Machined Surfaces,
CRV12(361-368).
IEEE DOI
1207
BibRef
Gu, L.[Lin],
Robles-Kelly, A.,
Specularity Removal from Imaging Spectroscopy Data via Entropy
Minimisation,
DICTA11(59-65).
IEEE DOI
1205
BibRef
Liu, M.M.[Miao-Miao],
Wong, K.Y.K.[Kwan-Yee K.],
Estimating the unknown poses of a reference plane for specular shape
recovery,
Color11(767-773).
IEEE DOI
1201
BibRef
Liu, M.M.[Miao-Miao],
Wong, K.Y.K.[Kwan-Yee K.],
Dai, Z.W.[Zhen-Wen],
Chen, Z.[Zhihu],
Pose estimation from reflections for specular surface recovery,
ICCV11(579-586).
IEEE DOI
1201
BibRef
Maier, W.[Werner],
Eschey, M.[Michael],
Steinbach, E.[Eckehard],
Image-based object detection under varying illumination in environments
with specular surfaces,
ICIP11(1389-1392).
IEEE DOI
1201
BibRef
Breub, M.[Michael],
Ju, Y.C.[Yong Chul],
Shape from shading with specular highlights: Analysis of the Phong
model,
ICIP11(9-12).
IEEE DOI
1201
BibRef
Liu, M.M.[Miao-Miao],
Wong, K.Y.K.[Kwan-Yee K.],
Dai, Z.W.[Zhen-Wen],
Chen, Z.H.[Zhi-Hu],
Specular Surface Recovery from Reflections of a Planar Pattern
Undergoing an Unknown Pure Translation,
ACCV10(II: 137-147).
Springer DOI
1011
BibRef
Adelson, E.H.[Edward H.],
Torralba, A.B.[Antonio B.],
Fleming, R.W.[Roland W.],
Shape from Sheen,
CSAIL(TR-2009-051). 2009-10-22
WWW Link.
1101
Specularities.
BibRef
Muhr, R.,
Schutte, G.,
Vincze, M.,
A Triangulation Method for 3D-Measurement of Specular Surfaces,
CloseRange10(xx-yy).
PDF File.
1006
BibRef
Sankaranarayanan, A.C.[Aswin C.],
Veeraraghavan, A.[Ashok],
Tuzel, O.[Oncel],
Agrawal, A.[Amit],
Specular surface reconstruction from sparse reflection correspondences,
CVPR10(1245-1252).
IEEE DOI
1006
BibRef
Chang, J.Y.[Ju Yong],
Raskar, R.[Ramesh],
Agrawal, A.[Amit],
3D pose estimation and segmentation using specular cues,
CVPR09(1706-1713).
IEEE DOI
0906
Shape from specular cues.
BibRef
Yang, P.[Peng],
Yuan, B.C.[Bing-Cheng],
Zhou, S.[Sheng],
A New Method of Highlight Characteristics Calculation for Underwater
Targets,
CISP09(1-4).
IEEE DOI
0910
BibRef
Jalba, A.C.[Andrei C.],
Westenberg, M.A.[Michel A.],
Grooten, M.H.M.[Mart H.M.],
Size from Specular Highlights for Analyzing Droplet Size Distributions,
CAIP09(1188-1195).
Springer DOI
0909
BibRef
Huang, L.[Lei],
Iwahori, Y.J.[Yu-Ji],
Wang, A.[Aili],
Bhuyan, M.K.,
3D Shape from SEM Image Using Improved Fast Marching Method,
ACIVS17(735-747).
Springer DOI
1712
BibRef
Iwahori, Y.J.[Yu-Ji],
Nakagawa, T.[Takashi],
Woodham, R.J.[Robert J.],
Fukui, S.[Shinji],
Kawanaka, H.[Haruki],
Shape from self-calibration and Fast Marching Method,
ICPR08(1-4).
IEEE DOI
0812
Shape from shading when non-lambertian.
BibRef
Yu, H.[Hang],
Ng, T.T.[Tian-Tsong],
Sun, Q.B.[Qi-Bin],
Recaptured photo detection using specularity distribution,
ICIP08(3140-3143).
IEEE DOI
0810
complex illumination and complex scene. Specularities.
BibRef
Lagger, P.[Pascal],
Salzmann, M.[Mathieu],
Lepetit, V.[Vincent],
Fua, P.[Pascal],
3D pose refinement from reflections,
CVPR08(1-8).
IEEE DOI
0806
BibRef
Ding, Y.Y.[Yuan-Yuan],
Yu, J.Y.[Jing-Yi],
Sturm, P.F.[Peter F.],
Recovering specular surfaces using curved line images,
CVPR09(2326-2333).
IEEE DOI
0906
BibRef
Ding, Y.Y.[Yuan-Yuan],
Yu, J.Y.[Jing-Yi],
Recovering shape characteristics on near-flat specular surfaces,
CVPR08(1-8).
IEEE DOI
0806
BibRef
Francken, Y.[Yannick],
Cuypers, T.[Tom],
Mertens, T.[Tom],
Gielis, J.[Jo],
Bekaert, P.[Philippe],
High quality mesostructure acquisition using specularities,
CVPR08(1-7).
IEEE DOI
0806
See also Gloss and Normal Map Acquisition of Mesostructures Using Gray Codes.
BibRef
Nehab, D.[Diego],
Weyrich, T.[Tim],
Rusinkiewicz, S.[Szymon],
Dense 3D reconstruction from specularity consistency,
CVPR08(1-8).
IEEE DOI
0806
BibRef
Angelopoulou, E.[Elli],
Specular Highlight Detection Based on the Fresnel Reflection
Coefficient,
ICCV07(1-8).
IEEE DOI
0710
BibRef
del Pozo, A.[Andrey],
Savarese, S.[Silvio],
Detecting Specular Surfaces on Natural Images,
CVPR07(1-8).
IEEE DOI
0706
BibRef
Lee, S.H.[Sang Hwa],
Koo, H.I.[Hyung Il],
Cho, N.I.[Nam Ik],
Park, J.I.[Jong-Il],
Stochastic Approach to Separate Diffuse and Specular Reflections,
ICIP06(3305-3308).
IEEE DOI
0610
BibRef
Yoon, K.J.[Kuk-Jin],
Choi, Y.J.[Yoo-Jin],
Kweon, I.S.[In So],
Fast Separation of Reflection Components using a Specularity-Invariant
Image Representation,
ICIP06(973-976).
IEEE DOI
0610
BibRef
Zhang, X.Z.[Xiao-Zheng],
Gao, Y.S.[Yong-Sheng],
Width Distributions for Shape Description,
DICTA11(597-601).
IEEE DOI
1205
BibRef
Zhang, X.Z.[Xiao-Zheng],
Gao, Y.S.[Yong-Sheng],
Caelli, T.M.[Terry M.],
Colour Adjustment and Specular Removal for Non-uniform Shape from
Shading,
DICTA10(563-568).
IEEE DOI
1012
BibRef
Fu, Z.Y.[Zhou-Yu],
Tan, R.T.[Robby T.],
Caelli, T.M.[Terry M.],
Specular Free Spectral Imaging Using Orthogonal Subspace Projection,
ICPR06(I: 812-815).
IEEE DOI
0609
BibRef
Tan, P.[Ping],
Quan, L.[Long],
Lin, S.[Stephen],
Separation of Highlight Reflections on Textured Surfaces,
CVPR06(II: 1855-1860).
IEEE DOI
0606
See also Subpixel Photometric Stereo.
BibRef
Chen, T.B.[Tong-Bo],
Goesele, M.[Michael],
Seidel, H.P.[Hans-Peter],
Mesostructure from Specularity,
CVPR06(II: 1825-1832).
IEEE DOI
0606
BibRef
Xu, S.C.[Shu-Chang],
Ye, X.Z.[Xiu-Zi],
Wu, Y.[Yin],
Zhang, S.Y.[San-Yuan],
Highlight Detection and Removal Based on Chromaticity,
ICIAR05(199-206).
Springer DOI
0509
BibRef
Maki, A.[Atsuto],
Cipolla, R.[Roberto],
Obtaining the Shape of a Moving Object with a Specular Surface,
BMVC09(xx-yy).
PDF File.
0909
BibRef
Maki, A.[Atsuto],
3D Surface Reconstruction of a Moving Object in the Presence of
Specular Reflection,
CIAP05(867-875).
Springer DOI
0509
BibRef
Shirdhonkar, S.[Sameer],
Jacobs, D.W.[David W.],
Non-Negative Lighting and Specular Object Recognition,
ICCV05(II: 1323-1330).
IEEE DOI
0510
BibRef
Ortiz, F.[Francisco],
Torres, F.[Fernando],
Gil, P.[Pablo],
A Comparative Study of Highlights Detection and Elimination by Color
Morphology and Polar Color Models,
IbPRIA05(II:295).
Springer DOI
0509
BibRef
Ortiz, F.[Francisco],
Gaussian Noise Removal by Color Morphology and Polar Color Models,
ICIAR06(I: 163-172).
Springer DOI
0610
BibRef
Solem, J.E.[Jan Erik],
Aanæs, H.[Henrik],
Heyden, A.[Anders],
A variational analysis of shape from specularities using sparse data,
3DPVT04(26-33).
IEEE DOI
0412
BibRef
Earlier:
PDE Based Shape from Specularities,
ScaleSpace03(401-415).
Springer DOI
0310
See also Variational Surface Interpolation from Sparse Point and Normal Data.
BibRef
Solem, J.E.[Jan Erik],
Heyden, A.[Anders],
Estimating surface shape and extending known structure using specular
reflections,
ICPR04(III: 173-176).
IEEE DOI
0409
BibRef
Earlier:
Surface Shape from Specularities,
SCIA03(828-835).
Springer DOI
0310
BibRef
Yang, R.G.[Rui-Gang],
Pollefeys, M.,
Welch, G.,
Dealing with textureless regions and specular highlights: A progressive
space carving scheme using a novel photo-consistency measure,
ICCV03(576-584).
IEEE DOI
0311
BibRef
Bonfort, T.[Thomas],
Sturm, P.F.[Peter F.],
Gargallo, P.[Pau],
General Specular Surface Triangulation,
ACCV06(II:872-881).
Springer DOI
0601
BibRef
Bonfort, T.,
Sturm, P.F.,
Voxel carving for specular surfaces,
ICCV03(591-596).
IEEE DOI
0311
BibRef
Savarese, S.,
Chen, M.[Min],
Perona, P.,
Second order local analysis for 3D reconstruction of specular surfaces,
3DPVT02(356-361).
IEEE DOI
0206
BibRef
Savarese, S.,
Perona, P.,
Local Analysis for 3D Reconstruction of Specular Surfaces: Part II,
ECCV02(II: 759 ff.).
Springer DOI
0205
BibRef
Earlier:
Local Analysis for 3D Reconstruction of Specular Surfaces,
CVPR01(II:738-745).
IEEE DOI
0110
Geometry of curved mirror surface to distortions in the scene that
it reflects.
BibRef
Lin, S.[Stephen],
Lee, S.W.[Sang W.],
An Appearance Representation for Multiple Reflection Components,
CVPR00(I: 105-110).
IEEE DOI
0005
Reflections
BibRef
Lin, S.,
Generation of Diffuse and Specular Appearance from Photometric Images,
PMCVG99(xx-yy).
BibRef
9900
Lin, S.,
Lee, S.,
A Representation of Specular Appearance,
ICCV99(849-854).
IEEE DOI
BibRef
9900
Lin, S.,
Lee, S.,
Estimation of Diffuse and Specular Appearance,
ICCV99(855-860).
IEEE DOI
See also Detection of Specularity Using Stereo in Color and Polarization Space.
BibRef
9900
Jaklic, A.[Aleš],
Solina, F.[Franc],
Separating diffuse and specular component of image irradiance by
translating a camera,
CAIP93(428-435).
Springer DOI
9309
BibRef
Clark, J.J.,
Yuille, A.L.[Alan L.],
Shape from Shading via the Fusion of Specular and
Lambertian Image Components,
ICPR90(I: 88-92).
IEEE DOI
BibRef
9000
Awanzino, C.,
Letellier, L.,
Lavest, J.M.,
Dhome, M.,
Faye, C.,
A Way to Exploit Highlights in Metallic Environment
for Pipes Localization,
MVA98(xx-yy).
BibRef
9800
Ray, R.,
Automated Inspection of Solder Bumps Using Visual
Signatures of Specular Image-Highlights,
CVPR89(588-596).
IEEE DOI
Inspection, PCB.
BibRef
8900
Buchanan, C.S.[Craig S.],
Determining Surface Orientation from Specular Highlights,
RBCV-TR-87-19, August, 1987, Toronto.
BibRef
8708
Park, J.S., and
Tou, J.T.,
Highlight Separation and Surface Orientation for 3-D Specular Objects,
ICPR90(I: 331-335).
IEEE DOI
BibRef
9000
Chapter on 3-D Shape from X -- Shading, Textures, Lasers, Structured Light, Focus, Line Drawings continues in
Shape from Specularities -- Multiple Images .