7.1.10.1.2 Color, Multispectral, RGB, for Salient Regions

Chapter Contents (Back)
Salient Regions. Salient Objects. Object Detection. Color.
See also Salient Regions, Saliencey for Regions.

Wang, Q.[Qi], Zhu, G.K.[Guo-Kang], Yuan, Y.[Yuan],
Multi-spectral dataset and its application in saliency detection,
CVIU(117), No. 12, 2013, pp. 1748-1754.
Elsevier DOI 1310
Dataset, Infrared. RGB+near infrared. Multi-spectral BibRef

Wang, Q.[Qi], Yan, P.K.[Ping-Kun], Yuan, Y.[Yuan], Li, X.L.[Xue-Long],
Multi-spectral saliency detection,
PRL(34), No. 1, 1 January 2013, pp. 34-41.
Elsevier DOI 1211
Saliency; Near-infrared; Multi-spectral; Texton; Color BibRef

Fu, K.[Keren], Gong, C.[Chen], Yang, J.[Jie], Zhou, Y.[Yue], Gu, I.Y.H.[Irene Yu-Hua],
Superpixel based color contrast and color distribution driven salient object detection,
SP:IC(28), No. 10, 2013, pp. 1448-1463.
Elsevier DOI 1312
BibRef
Earlier: A1, A3, A3, A4, Only:
Salient Object Detection via Color Contrast and Color Distribution,
ACCV12(I:111-122).
Springer DOI 1304
BibRef

Fu, K.[Keren], Zhao, Q., Gu, I.Y.H.[Irene Yu-Hua],
Refinet: A Deep Segmentation Assisted Refinement Network for Salient Object Detection,
MultMed(21), No. 2, February 2019, pp. 457-469.
IEEE DOI 1902
Image segmentation, Object detection, Feature extraction, Saliency detection, Convolution, Machine learning, Task analysis, image segmentation BibRef

Fu, K.[Keren], Gong, C.[Chen], Gu, I.Y.H.[Irene Y.H.], Yang, J.[Jie], Shi, P.F.[Peng-Fei],
Salient object detection using normalized cut and geodesics,
ICIP15(1100-1104)
IEEE DOI 1512
Geodesic saliency; Normalized cut; Saliency map; Salient object detection BibRef

Fu, K.[Keren], Gu, I.Y.H.[Irene Y.H.], Yun, Y.X.[Yi-Xiao], Gong, C.[Chen], Yang, J.[Jie],
Graph Construction for Salient Object Detection in Videos,
ICPR14(2371-2376)
IEEE DOI 1412
Histograms BibRef

Fu, K.[Keren], Gong, C.[Chen], Gu, I.Y.H.[Irene Yu-Hua], Yang, J.[Jie],
Normalized cut-based saliency detection by adaptive multi-level region merging,
IP(24), No. 12, December 2015, pp. 5671-5683.
IEEE DOI 1512
graph theory BibRef

Fu, K.[Keren], Gong, C.[Chen], Yun, Y.X.[Yi-Xiao], Li, Y.J.[Yi-Jun], Gu, I.Y.H.[Irene Yu-Hua], Yang, J.[Jie], Yu, J.Y.[Jing-Yi],
Adaptive Multi-Level Region Merging for Salient Object Detection,
BMVC14(xx-yy).
HTML Version. 1410
BibRef

Takimoto, H.[Hironori], Yamauchi, H.[Hitoshi], Kishihara, M.[Mitsuyoshi], Okubo, K.[Kensuke],
Foreground Object Extraction Based on Interactive Color Saliency Map,
IJIG(14), No. 1-2, 2014, pp. 1450007.
DOI Link 1406
BibRef

Takimoto, H.[Hironori], Kokui, T.[Tatsuhiko], Yamauchi, H.[Hitoshi], Kishihara, M.[Mitsuyoshi], Okubo, K.[Kensuke],
Image Modification Based on a Visual Saliency Map for Guiding Visual Attention,
IEICE(E98-D), No. 11, November 2015, pp. 1967-1975.
WWW Link. 1512
BibRef

Takimoto, H.[Hironori], Hitomi, S.[Syuhei], Yamauchi, H.[Hitoshi], Kishihara, M.[Mitsuyoshi], Okubo, K.[Kensuke],
Image Modification Based on Spatial Frequency Components for Visual Attention Retargeting,
IEICE(E100-D), No. 6, June 2017, pp. 1339-1349.
WWW Link. 1706
BibRef

Zhang, X.[Xing], Hu, K.[Keli], Wang, L.[Lei], Zhang, X.L.[Xiao-Lin], Wang, Y.G.[Ying-Guan],
Salient Region Detection Based on Color Uniqueness and Color Spatial Distribution,
IEICE(E97-D), No. 7, July 2014, pp. 1933-1936.
WWW Link. 1407
BibRef

Wo, Y.[Yan], Chen, X.[Xi], Han, G.Q.[Guo-Qiang],
A saliency detection model using aggregation degree of color and texture,
SP:IC(30), No. 1, 2015, pp. 121-136.
Elsevier DOI 1412
Saliency detection BibRef

Li, J., Chen, H., Li, G., He, B., Zhang, Y., Tao, X.,
Salient object detection based on meanshift filtering and fusion of colour information,
IET-IPR(9), No. 11, 2015, pp. 977-985.
DOI Link 1511
image colour analysis BibRef

Aytekin, Ç.[Çaglar], Kiranyaz, S.[Serkan], Gabbouj, M.[Moncef],
Learning to rank salient segments extracted by multispectral Quantum Cuts,
PRL(72), No. 1, 2016, pp. 91-99.
Elsevier DOI 1604
BibRef
Earlier:
Automatic Object Segmentation by Quantum Cuts,
ICPR14(112-117)
IEEE DOI 1412
BibRef
Earlier:
Quantum mechanics in computer vision: Automatic object extraction,
ICIP13(2489-2493)
IEEE DOI 1402
Object extraction Quantum Cuts BibRef

Naqvi, S.S.[Syed S.], Browne, W.N.[Will N.], Hollitt, C.[Christopher],
Salient object detection via spectral matting,
PR(51), No. 1, 2016, pp. 209-224.
Elsevier DOI 1601
BibRef
Earlier:
Combining object-based local and global feature statistics for salient object search,
IVCNZ13(394-399)
IEEE DOI 1402
Salient object detection. feature extraction BibRef

Naqvi, S.S.[Syed S.], Browne, W.N.[Will N.], Hollitt, C.[Christopher],
Feature Quality-Based Dynamic Feature Selection for Improving Salient Object Detection,
IP(25), No. 9, September 2016, pp. 4298-4313.
IEEE DOI 1609
feature extraction BibRef

Kim, J.H.[Jiw-Han], Han, D.Y.[Dong-Yoon], Tai, Y.W.[Yu-Wing], Kim, J.[Junmo],
Salient Region Detection via High-Dimensional Color Transform and Local Spatial Support,
IP(25), No. 1, January 2016, pp. 9-23.
IEEE DOI 1601
BibRef
Earlier:
Salient Region Detection via High-Dimensional Color Transform,
CVPR14(883-890)
IEEE DOI 1409
discrete cosine transforms BibRef

Lee, G.Y.[Ga-Young], Tai, Y.W.[Yu-Wing], Kim, J.[Junmo],
ELD-Net: An Efficient Deep Learning Architecture for Accurate Saliency Detection,
PAMI(40), No. 7, July 2018, pp. 1599-1610.
IEEE DOI 1806
Benchmark testing, Feature extraction, Image color analysis, Image segmentation, Machine learning, Neural networks, superpixel BibRef

Eun, H.J.[Hyun-Jun], Kim, C.[Changick],
Superpixel-Guided Adaptive Image Smoothing,
SPLetters(23), No. 12, December 2016, pp. 1887-1891.
IEEE DOI 1612
edge detection BibRef

Eun, H.J.[Hyun-Jun], Kim, J.[Jonghee], Kim, C.[Changick],
Salient Object Detection Using HOS Based L0 Smoothing and Shape-Aware Region Merging,
VCIP15(1-4)
IEEE DOI 1605
Image color analysis BibRef

Huang, X., Zhang, Y.J.,
300-FPS Salient Object Detection via Minimum Directional Contrast,
IP(26), No. 9, September 2017, pp. 4243-4254.
IEEE DOI 1708
image colour analysis, image resolution, object detection, 300-FPS salient object detection, MDC, QVGA resolution, color difference, marker-based watershed algorithm, minimum directional contrast, spatial contrast distribution, target pixel, target region, Saliency detection, directional contrast, distribution, minimum directional contrast, saliency, enhancement BibRef

Aytekin, Ç.[Çaglar], Iosifidis, A.[Alexandros], Kiranyaz, S.[Serkan], Gabbouj, M.[Moncef],
Learning graph affinities for spectral graph-based salient object detection,
PR(64), No. 1, 2017, pp. 159-167.
Elsevier DOI 1701
BibRef
Earlier:
Salient object segmentation based on linearly combined affinity graphs,
ICPR16(3769-3774)
IEEE DOI 1705
Graph theory, Image segmentation, Object detection, Object segmentation, Quantum mechanics, Symmetric matrices, graph affinity learning, salient object segmentation, spectral graph theory. Salient object detection BibRef

Zhang, Q.[Qing], Lin, J.J.[Jia-Jun], Li, W.J.[Wen-Ju], Shi, Y.J.[Yan-Jiao], Cao, G.G.[Guo-Gang],
Salient object detection via compactness and objectness cues,
VC(34), No. 4, April 2018, pp. 473-489.
WWW Link. 1804
BibRef

Liu, Y.[Yi], Han, J.G.[Jun-Gong], Zhang, Q.[Qiang], Wang, L.[Long],
Salient Object Detection via Two-Stage Graphs,
CirSysVideo(29), No. 4, April 2019, pp. 1023-1037.
IEEE DOI 1904
Object detection, Image edge detection, Computational modeling, Image reconstruction, Manifolds, Dictionaries, Image segmentation, manifold ranking BibRef

Zhang, Q.[Qing], Luo, D., Li, W.J.[Wen-Ju], Shi, Y.J.[Yan-Jiao], Lin, J.J.[Jia-Jun],
Two-stage absorbing Markov chain for salient object detection,
ICIP17(895-899)
IEEE DOI 1803
Image color analysis, Image edge detection, Markov processes, Object detection, Robustness, Saliency detection, superpixels BibRef

Lie, M.M.I.[Maiko M.I.], Borba, G.B.[Gustavo B.], Neto, H.V.[Hugo Vieira], Gamba, H.R.[Humberto R.],
Joint upsampling of random color distance maps for fast salient region detection,
PRL(114), 2018, pp. 22-30.
Elsevier DOI 1811
Random color distance map, Saliency detection, Joint upsampling, Visual attention BibRef

Liang, J.[Jie], Zhou, J.[Jun], Tong, L.[Lei], Bai, X.[Xiao], Wang, B.[Bin],
Material based salient object detection from hyperspectral images,
PR(76), No. 1, 2018, pp. 476-490.
Elsevier DOI 1801
Salient object detection BibRef

Al-Khafaji, S.L.[Suhad Lateef], Zhou, J.[Jun], Liew, A.W.C.[Alan Wee-Chung],
An Efficient Method for Boundary Detection from Hyperspectral Imagery,
SSSPR18(416-426).
Springer DOI 1810
BibRef

Al-Khafaji, S.L.[Suhad Lateef], Zhou, J.[Jun], Bai, X.[Xiao], Qian, Y.T.[Yun-Tao], Liew, A.W.C.[Alan Wee-Chung],
Spectral-Spatial Boundary Detection in Hyperspectral Images,
IP(31), 2022, pp. 499-512.
IEEE DOI 2112
Hyperspectral imaging, Feature extraction, Image edge detection, Lighting, Image color analysis, Detectors, Shape, Boundary detection, hyperspectral unmixing BibRef

Al-Khafaji, S.L.[Suhad Lateef], Zia, A.[Ali], Zhou, J.[Jun], Liew, A.W.C.[Alan Wee-Chung],
Material Based Boundary Detection in Hyperspectral Images,
DICTA17(1-7)
IEEE DOI 1804
feature extraction, geophysical image processing, hyperspectral imaging, matrix algebra, pattern clustering, Probability density function BibRef

Liu, Z.Y.[Zheng-Yi], Xiang, Q.[Qian], Tang, J.T.[Ji-Ting], Wang, Y.[Yuan], Zhao, P.[Peng],
Robust salient object detection for RGB images,
VC(36), No. 9, September 2020, pp. 1823-1835.
WWW Link. 2008
BibRef

Li, X.L.[Xue-Long], Song, D.W.[Da-Wei], Dong, Y.S.[Yong-Sheng],
Hierarchical Feature Fusion Network for Salient Object Detection,
IP(29), 2020, pp. 9165-9175.
IEEE DOI 2010
Feature extraction, Semantics, Image edge detection, Object detection, Fuses, Visualization, Image color analysis, one-to-one hierarchical supervision strategy BibRef

Zhao, M.H.[Ming-Hua], Yue, L.Q.[Li-Qin], Hu, J.[Jing], Du, S.L.[Shuang-Li], Li, P.[Peng], Wang, L.[Li],
Salient target detection in hyperspectral image based on visual attention,
IET-IPR(15), No. 10, 2021, pp. 2301-2308.
DOI Link 2108
BibRef

Wang, Z.[Zhao], Jiang, F.L.[Fen-Long], Liu, T.F.[Tong-Fei], Xie, F.[Fei], Li, P.[Peng],
Attention-Based Spatial and Spectral Network with PCA-Guided Self-Supervised Feature Extraction for Change Detection in Hyperspectral Images,
RS(13), No. 23, 2021, pp. xx-yy.
DOI Link 2112
BibRef

Ma, G.X.[Guang-Xiao], Li, S.[Shuai], Chen, C.Z.[Chengli-Zhao], Hao, A.[Aimin], Qin, H.[Hong],
Rethinking Image Salient Object Detection: Object-Level Semantic Saliency Reranking First, Pixelwise Saliency Refinement Later,
IP(30), 2021, pp. 4238-4252.
IEEE DOI 2104
Semantics, Visualization, Object detection, Computational modeling, Image color analysis, Training, Feature extraction, object-level ranking BibRef

Liao, G.B.[Gui-Biao], Gao, W.[Wei], Li, G.[Ge], Wang, J.L.[Jun-Le], Kwong, S.[Sam],
Cross-Collaborative Fusion-Encoder Network for Robust RGB-Thermal Salient Object Detection,
CirSysVideo(32), No. 11, November 2022, pp. 7646-7661.
IEEE DOI 2211
Feature extraction, Encoding, Decoding, Saliency detection, Object detection, Noise measurement, Task analysis, cross-collaborative BibRef

Song, S.Y.[Shao-Yue], Miao, Z.J.[Zhen-Jiang], Yu, H.K.[Hong-Kai], Fang, J.[Jianwu], Zheng, K.[Kang], Ma, C.[Cong], Wang, S.[Song],
Deep Domain Adaptation Based Multi-Spectral Salient Object Detection,
MultMed(24), 2022, pp. 128-140.
IEEE DOI 2202
Deep learning, Synchronization, Object detection, Task analysis, Lighting, Adaptation models, Meteorology, Domain adaptation, salient object detection BibRef

Lad, B.V.[Bhagyashree V.], Hashmi, M.F.[Mohammad Farukh], Keskar, A.G.[Avinash G.],
LDWS-net: A learnable deep wavelet scattering network for RGB salient object detection,
IVC(137), 2023, pp. 104748.
Elsevier DOI 2309
Boundary preservation, Convolutional neural network, Feature fusion, Salient object detection, Scattering wavelet network BibRef

Sun, F.M.[Feng-Ming], Cui, J.J.[Jun-Jie], Yuan, X.[Xia], Zhao, C.X.[Chun-Xia],
Rich-scale feature fusion network for salient object detection,
IET-IPR(17), No. 3, 2023, pp. 794-806.
DOI Link 2303
feature fusion, global feature enhance, multi-scale feature, salient object detection BibRef

Sun, F.M.[Feng-Ming], Zhang, K.[Kang], Yuan, X.[Xia], Zhao, C.X.[Chun-Xia],
Feature Enhancement and Fusion for RGB-T Salient Object Detection,
ICIP23(1300-1304)
IEEE DOI 2312
BibRef

Sun, F.M.[Feng-Ming], Yuan, X.[Xia], Zhao, C.X.[Chun-Xia],
Selective feature fusion network for salient object detection,
IET-CV(17), No. 4, 2023, pp. 483-495.
DOI Link 2306
attention mechanism, feature fusion, multi-level feature, salient object detection BibRef


Bhuyan, S.[Sudipta], Verma, A.[Ashish], Sen, D.[Debashis], Deb, S.[Sankha],
Estimated Depth Based Progressive Interactive Framework for RGB Salient Object Detection in Images,
ICIP23(2765-2769)
IEEE DOI 2312
BibRef

Shin, G.[Gyungin], Albanie, S.[Samuel], Xie, W.[Weidi],
Unsupervised Salient Object Detection with Spectral Cluster Voting,
L3D-IVU22(3970-3979)
IEEE DOI 2210
Conferences, Object detection, Object segmentation, Detectors, Benchmark testing, Feature extraction, Pattern recognition BibRef

Zhao, K., Gao, S., Wang, W., Cheng, M.,
Optimizing the F-Measure for Threshold-Free Salient Object Detection,
ICCV19(8848-8856)
IEEE DOI 2004
convolutional neural nets, feature extraction, image colour analysis, object detection, Standards BibRef

Afzali, S., Al-Sahaf, H., Xue, B., Hollitt, C., Zhang, M.,
Foreground and Background Feature Fusion Using a Convex Hull Based Center Prior for Salient Object Detection,
IVCNZ18(1-9)
IEEE DOI 1902
Feature extraction, Object detection, Image color analysis, Visualization, Object recognition, Receivers, convex-hull BibRef

Xia, C., Li, J., Chen, X., Zheng, A., Zhang, Y.,
What is and What is Not a Salient Object? Learning Salient Object Detector by Ensembling Linear Exemplar Regressors,
CVPR17(4399-4407)
IEEE DOI 1711
Detectors, Feature extraction, Image color analysis, Proposals, Reliability, Shape, Visualization BibRef

Li, G., Zhu, C.,
A Three-Pathway Psychobiological Framework of Salient Object Detection Using Stereoscopic Technology,
CVPV17(3008-3014)
IEEE DOI 1802
Image color analysis, Image edge detection, Image segmentation, Object detection, Optical imaging, Visualization BibRef

Zhu, C., Li, G., Wang, W., Wang, R.,
An Innovative Salient Object Detection Using Center-Dark Channel Prior,
ACVR17(1509-1515)
IEEE DOI 1802
Euclidean distance, Feature extraction, Fuses, Image color analysis, Object detection, Visualization BibRef

Li, C.[Chao], Zhan, B.[Bin], Zhang, S.[Shuo], Sheng, H.[Hao],
Saliency detection with relative location measure in light field image,
ICIVC17(8-12)
IEEE DOI 1708
Adaptation models, Cameras, Estimation, Image color analysis, Image edge detection, Manifolds, Optimization, image fusion, light field, location measure, saliency detection. BibRef

Yan, X.Y.[Xiao-Yun], Wang, Y.H.[Yue-Huan], Jiang, M.[Man], Wang, J.[Jun],
Salient region detection via color spatial distribution determined global contrasts,
ICIP14(1170-1174)
IEEE DOI 1502
Distribution functions BibRef

Roy, S., Das, S.,
Spatial variance of color and boundary statistics for salient object detection,
NCVPRIPG13(1-4)
IEEE DOI 1408
feature extraction BibRef

Liang, J.[Jie], Zhou, J.[Jun], Bai, X.[Xiao], Qian, Y.T.[Yun-Tao],
Salient object detection in hyperspectral imagery,
ICIP13(2393-2397)
IEEE DOI 1402
Saliency detection;hyperspectral imaging;object detection BibRef

Wu, J.Y.[Jia-Yun], Bin, L.K.[Lim Kah],
A color grouping method for detection of object regions based on local saliency,
ICARCV12(1165-1169).
IEEE DOI 1304
BibRef

Tang, K.[Ketan], Au, O.C.[Oscar C.], Fang, L.[Lu], Yu, Z.D.[Zhi-Ding], Guo, Y.F.[Yuan-Fang],
Multi-scale analysis of color and texture for salient object detection,
ICIP11(2401-2404).
IEEE DOI 1201
BibRef

Cao, G.Q.[Guan-Qun], Cheikh, F.A.,
Salient region detection with opponent color boosting,
EUVIP10(13-18).
IEEE DOI 1110
BibRef

Chapter on 2-D Feature Analysis, Extraction and Representations, Shape, Skeletons, Texture continues in
Salient Regions, Convolutional Neural Networks, Deep Nets .


Last update:Mar 16, 2024 at 20:36:19