International Journals


[34] M. Zhang, W. Ji, Yongri Piao, J. Li, and H. Lu, "LFNet: Light-field fusion network for salient object detection," IEEE Trans on Image Processing, Accept (2020). (CCF-A)

[33] Yongri Piao, X. Li, M. Zhang, J. Yu, and H. Lu, "Saliency detection via depth-induced cellular automata on light field," IEEE Trans on Image Processing 29(1):1879-1889 (2020). (CCF-A)

[32] M. Zhang, Z. Hu, and Yongri Piao, "Motion-blurring free 3D reconstruction via parallax information in synthetic aperture integral imaging," Optics and Lasers in Engineering, Reviewing (2020).

[31] M. Zhang, X. Sun, Yongri Piao, and M. Cho, "Three-dimensional photon couting with off-axis distributed sensors," Optics and Lasers Technology, Reviewing (2020).

[30] M. Zhang, Yongri Piao, and Z. Zhong, "Three-dimensional integral imaging with circular non-uniform distribution," Optics and Lasers in Engineering 126: 105912 (2020).

[29] M. Zhang, Yongri Piao, C. Wei, and Z. Si, "Occlusion removal based on epipolar plane images in integral imaging system," Optics and lasers Technology 120: 105680 (2019).

[28] M. Zhang, D. Li, and Yongri Piao, "Effective orthoscopic integral imaging reconstruction via adjustable depth position," Optik 178: 97-103 (2019).

[27] Q. Wang, X. Lu, P. Li, Z. Gao, and Yongri Piao, "An information geometry based distance between high-dimensional covariances for scalable classification," IEEE Transactions on Circuits and Systems for Video Technology 28(10): 2449-2459 (2018).

[26] Yongri Piao, M. Zhang, X. Wang, P. Li, "Extended depth of field integral imaging using multi-focus fusion," Optics Communications 411: 8-14 (2018).

[25] M. Zhang, C. Wei, Yongri Piao, and J. Liu, "Depth-of-field extension in integral imaging using multi-focus elemental images," Applied Optics 56: 6059-6064 (2017).

[24] Yongri Piao, L. Xing, M. Zhang, and B. -G. Lee, "Three-dimensional reconstruction of far and big objects using synthetic aperture integral imaging," Optics and Laser in Engineering 88: 153-161 (2017).

[23] Yongri Piao, H. Qu, M. Zhang, and M. Cho, "Three-dimensional integral imaging display system via off-axially distributed image sensing," Optics and Lasers in Engineering 85: 18-23 (2016).

[22] Yongri Piao, L. Xing, M. Zhang, and M. -C. Lee, "Resolution enhanced integral imaging reconstruction by using boundary folding mirrors," Journal of OSK 20(3): 363-367 (2016).

[21] M. Zhang, Yongri Piao, and M. Cho, "Monte-Carlo analysis of voxel resolution of off-axially distributed image sensing," Optics Communications 363: 176-180 (2016).

[20] M. Zhang, Z. Zhong, and Yongri Piao, "Visual quality enhancement of three-dimensional integral imaging reconstruction for partially occluded objects using exemplar-based image restoration," Journal of Information and Communication Convergence Engineering 14(1): 57-63 (2016).

[19] L. Zhang, and Yongri Piao, "CRF-based figure ground segmentation with pixel-level sparse coding and neighborhood interactions," Journal of Information and Communication Convergence Engineering 13(3): 205-214 (2015).

[18] Z. Wang, Yongri Piao, M. Jin, "Laser spot detection using robust dictionary construction and update," Journal of Information and Communication Convergence Engineering 13(1): 42-49 (2015).

[17] M. Zhang, Yongri Piao, N.-W. Kim, and E. -S. Kim, "Distortion-free wide-angle 3D imaging and visualization using off-axially distributed image sensing," Optics Letters 39(14): 4212-4214 (2014).

[16] Yongri Piao, M. Zhang, J. -J. Lee, D. Shin, and B. -G. Lee, "Orthoscopic integral imaging display by use of the computational method based on lenslet model," Optics and Lasers in Engineering 52: 184-188 (2014).

[15] M. Zhang, Yongri Piao, J. -J. Lee, D. Shin, and B. -G. Lee, "Visualization of partially occluded 3D object using wedge prism-based axially distributed sensing," Optics Communications 313: 204-209 (2014).

[14] Yongri Piao, M. Zhang, D. Shin, and H. Yoo, "Three-dimensional imaging and visualization using off-axially distributed image sensing," Optics Letters 38(16): 3162-3164 (2013).

[13] Yongri Piao, Y.-M. Kwon, M. Zhang, J. -J. Lee, "Accelerated generation algorithm for an elemental image array using depth information in computational integral imaging," Journal of Information and Communication Convergence Engineering 11(2): 132-138 (2013).

[12] D. -H. Kim, Yongri Piao, S. -J. Cho, S. -T. KIM, "3D image encryption using integral imaging scheme and MLCA technology," Applied Mechanics and Materials 284: 2955-2960 (2013). 

[11] Yongri Piao, M. Zhang, E.-S. Kim, S. -T. Kim, "Enhanced orthoscopic integral imaging reconstruction using moving pixel mapping," Optics and Lasers in Engineering 50(11): 862-868 (2012).

[10] Yongri Piao, M. Zhang, E.-S. Kim, "Effective reconstruction of a partially occluded 3-D target by using a pixel restoration scheme in computational integral imaging," Optics and Lasers in Engineering 50(6): 1602-1610 (2012).

[9] Yongri Piao, M. Zhang, E.-S. Kim, "Resolution-enhanced magnification of far 3-D objects image by using the moving-direct-pixel-mapping method in scalable integral-imaging system," Japanese Journal of Applied Physics 51(2): 022501-8 (2012). 

[8] M. Zhang, Yongri Piao, E.-S. Kim, "Optical display of magnified, real and orthoscopic 3-D object images by moving-direct-pixel-mapping in the scalable integral-imaging system," Optics Communications 284(21): 5093-5099 (2011).

[7] M. Zhang, Yongri Piao, E.-S. Kim, "Visibility-enhanced reconstruction of three-dimensional objects under a heavily scattering medium through combined use of intermediate view reconstruction, multi-pixel extraction, and histogram equalization methods in the conventional integral imaging system," Applied Optics 50(28): 5369-5381 (2011). 

[6] Yongri Piao, E.-S. Kim, "Performance-enhanced recognition of a far and partially occluded 3D objects using direct pixel mapping in computational curving-effective integral imaging," Optics Communications 284(3): 747-755 (2011).

[5] P. Han, Yongri Piao, E.-S. Kim, "Accelerated reconstruction of 3-D object images using estimated object area in backward computational integral imaging reconstruction," 3D Research 1(4): 1-8 (2010).

[4] M. Zhang, Yongri Piao, E.-S. Kim, "Occlusion-removed scheme using depth-reversed method in computational integral imaging," Applied Optics 49(14): 2571-2580 (2010).

[3] Yongri Piao, D.-H. Shin, E.-S. Kim, "Computational depth conversion of reconstructed three-dimensional object images in curving effective integral imaging system," Japanese Journal of Applied Physics 49(2): 022501-7 (2010).

[2] Yongri Piao, E.-S. Kim, "Resolution-enhanced reconstruction of far 3-D objects by using a direct pixel mapping method in computational curving-effective integral imaging," Applied Optics 48(34): H222-H230 (2009).

[1] Yongri Piao, D.-H. Shin, E.-S. Kim, "Robust image encryption by combined use of integral imaging and pixel scrambling techniques," Optics and Lasers in Engineering 47(11): 1273-1281 (2009).

International Conferences


[37] Yongri Piao, W. Ren, M. Zhang, Z. Rong, and H. Lu, "Select, supplement and focus for RGB-D saliency detection," 2020 CVPR, 14-19 June 2020, Seattle, USA. (CCF-A)

[36] Yongri Piao, Z. Rong, M. Zhang, and H. Lu, "A2dele: Adaptive and attentive depth distiller for efficient RGB-D salient object detection," 2020 CVPR, 14-19 June 2020, Seattle, USA. (CCF-A)

[35] Yongri Piao, Z. Rong, M. Zhang, and H. Lu, "Exploit and replace: an asymmetrical two-stream architecture for versatile light field saliency detection," 2020 AAAI, 7-12 Feb 2020, New York, USA. (CCF-A)

[34] M. Zhang, W. Ji, Yongri Piao, J. Li, and H. Lu, "Memory-oriented decoder for light field salient object detection," 2019 NeurIPS, 8-14 Dec 2019, Vancouver, Canada. (CCF-A)

[33] Yongri Piao, W. Ji, J. Li, M. Zhang, and H. Lu "Depth-induced multi-slace recurrent attention network for saliency detection," 2019 ICCV, 7254-7263, 27 Oct-2 Nov 2019, Soul, Korea. (CCF-A)

[32] T. Wang, Yongri Piao, X. Li, L. Zhang, and H. Lu "Deep learning for light field saliency detection," 2019 ICCV, 8838-8848, 27 Oct-2 Nov 2019, Soul, Korea. (CCF-A)

[31] Yongri Piao, Z. Rong, M. Zhang, X. Li, and H. Lu "Deep Light-field-driven saliency detection from a single view," 2019 IJCAI, 904-911, 10-16 August 2019, Macao, China. (CCF-A)

[30] Yongri Piao, W. Yang, M. Zhang, Y. Zhang, and J. Liu, "Compressive sensing for photon counting integral imaging," 2019 OSA Conference on Digital Holography and Three-Dimensional Imaging, 19-23 May 2019, Bordeaux, France, Oral.

[29] Yongri Piao, Z. Rong, M. Zhang, Y. Zhang, and X. Ji "Deep learning for single view focal plane reconstruction in integral imaging," 2019 OSA Conference on Digital Holography and Three-Dimensional Imaging, 19-23 May 2019, Bordeaux, France, Oral.

[28] M. Zhang, J. Liu, Yongri Piao, Y. Zhang, X. Ji, and Y. Zhang, "EPI restoration in synthetic aperture integral imaging," 2019 OSA Conference on Digital Holography and Three-Dimensional Imaging, 19-23 May 2019, Bordeaux, France, Oral.

[27] M. Zhang, Y. Zhang, Yongri Piao, J. Liu, X. Ji and Y. Zhang, "Parallax based motion estimation in integral imaging," 2019 OSA Conference on Digital Holography and Three-Dimensional Imaging, 19-23 May 2019, Bordeaux, France, Poster.

[26] Yongri Piao, X. Li, and M. Zhang, "Depth-induced Cellular Automata for Light Field Saliency," The 103th OSA Conference on Frontiers in Optics, 16-20 Sep. 2018, Washington DC, USA, Oral.

[25] M. Zhang, Yongri Piao, C. Wei, and R. Xu, "Contour-based depth-of-field extension in multi-focus integral imaging system," The 103th OSA Conference on Frontiers in Optics, 16-20 Sep. 2018, Washington DC, USA, Oral.

[24] C. Pan, Yongri Piao, and M. Zhang, "Multi-focus elemental images fusion via NSCT in integral imaging," 2017 SPIE Conference on LIDAR Imaging Detection and Target Recognition, 23-25 Jun. 2017, Changchun, China, Oral.

[23] D. Li, Yongri Piao, M. Zhang, and X. Li, "Depth extraction using epipolar-plane images in integral imaging system," 2017 OSA Conference on Digital Holography and Three-Dimensional Imaging, 29-01 Jun 2017, Jeju Island, South Korea, Oral.

[22] X. Li, Yongri Piao, M. Zhang, and D. Li, "Improved 3D reconstruction using GSR in integral imaging," 2017 OSA Conference on Digital Holography and Three-Dimensional Imaging, 29-01 Jun 2017, Jeju Island, South Korea, Oral.

[21] J. Liu, Yongri Piao, P. Li, and M. Zhang, "Resolution enhanced three-dimensional photon counting integral imaging," 2016 SPIE Conference on Three-Dimensional Image Acquisition and Display Technology, 31-02 Nov. 2016, Jinhua, China, Oral.

[20] X. Wang, Yongri Piao, and M. Zhang, "Multi-focus elemental images fusion in integral imaging system," 2016 SPIE Conference on Three-Dimensional Image Acquisition and Display Technology, 31-02 Nov. 2016, Jinhua, China, Poster.

[19] D. Li, Yongri Piao, and M. Zhang, "Orthoscopic 3D reconstruction using flexible ray tracing method in computational integral imaging," 2016 SPIE Conference on Three-Dimensional Image Acquisition and Display Technology, 31-02 Nov. 2016, Jinhua, China, Poster.

[18] M. Zhang, Z. Zhong, Yongri Piao, and X. Wang, "Exemplar-based elemental images restoration in integral imaging," 2016 OSA Conference on Digital Holography and Three-Dimensional Imaging, 25-28 July 2016, Heidelberg, Germany, Oral.

[17] Yongri Piao, J. Liu, M. Zhang, and D. Li, "Multi-focus elemental images enhancement based on spatial frequency in integral imaging," 2016 OSA Conference on Digital Holography and Three-Dimensional Imaging, 25-28 July 2016, Heidelberg, Germany, Oral.

[16] Yongri Piao, D. Li, M. Zhang, and J. Liu, "Elemental images enhancement using SML in integral imaging," 2016 OSA Conference on Digital Holography and Three-Dimensional Imaging, 25-28 July 2016, Heidelberg, Germany, Poster.

[15] L. Xing, Yongri Piao, H. Qu, and M. Zhang, "Computational 3D reconstruction of far and big size objects using synthetic aperture integral imaging," 2015 IEEE International Conference on Image Processing, 27-30 Sep. 2015, Quebec, Canada, Oral.

[14] J. Liu, Yongri Piao, L.Xing, and M. Zhang, "Three-dimensional compressed photon counting sensing based on axially distributed imaging structure," 2015 OSA Imaging and Applied Optics Congress, 7-11 June, Arlington, Virginia, USA, Poster.

[13] Z. Zhong, Yongri Piao, H. Qu, and M. Zhang, "MST-based occlusion detection in synthetic aperture integral imaging," 2015 OSA Imaging and Applied Optics Congress, 7-11 June, Arlington, Virginia, USA, Poster.

[12] L.Xing, Yongri Piao, H. Qu, M. Zhang, and D. Shin, "Depth controlled far 3D objects reconstruction in integral imaging system," 2015 OSA Conference on Digital Holography and Three-Dimensional Imaging, 24-28 May 2015, Shanghai, China, Oral.

[11] H. Qu, Yongri Piao, L. Xing, and M. Zhang, "Segmentation-based occlusion removal technique for partially occluded 3D objects in integral imaging system," 2015 OSA Conference on Digital Holography and Three-Dimensional Imaging, 24-28 May 2015, Shanghai, China, Oral.

[10] Yongri Piao, M. Zhang, and D. Shin, "Partially occluded 3D reconstruction by using off-axially distributed sensing structure," 2014 OSA Conference on Digital Holography and Three-Dimensional Imaging, 13-17 July 2014, Seattle, USA, Oral.

[9] Yongri Piao, M. Zhang, D. Shin, S. -M. Hong, and N. -W. Kim, "Undistorted 3D Imaging by Using Off-Axially Distributed Wide-Angle Sensing," The 13th IEEE International Meeting on Information Display, 26-29 August 2013, Daegu, South Korea, Poster.

[8] Yongri Piao, M. Zhang, J.-J. Lee, D. Shin, and B.-G. Lee, "3D imaging and visualization using axially distributed sensing with wedge prism," The 13th IEEE International Meeting on Information Display, 26-29 August 2013, Daegu, South Korea, Poster.

[7] Yongri Piao, M. Zhang, D. Shin, and B. -G. Lee, "Generation of depth converted elemental images based on lenslet approximation in integral imaging system," 2013 OSA Conference on Digital Holography and Three-Dimensional Imaging, 21-24 April 2013, Hawaii, USA, Oral.

[6] Yongri Piao, and M. Zhang, “PO conversion and its applications in integral imaging,” 2012 NIMS Hot Topics Workshop on High Definition 3D Imaging & Display System, 27-28 Nov. 2012, Daejeon, South Korea, Oral.

[5] M. Zhang, Yongri Piao, and E. -S. Kim, "Enhanced 3D objects recognition using direct pixel mapping in curving-effect integral imaging system," The 10th IEEE International Meeting on Information Display, 11-15 Oct. 2010, Soul, South Korea, Oral.

[4] N.-S. Choi, D. Shin, B. -G. Lee, Yongri Piao, and E. -S. Kim, "Improved reconstruction of partially occluded 3-D objects using recursive PCA algorithm in computational integral imaging," 2010 OSA Conference on Digital Holography and Three-Dimensional Imaging, 11-15 April 2010, Miami, USA,Poster.

[3] M. Zhang, Yongri Piao, and E. -S. Kim, "Resolution-enhanced curving-effective integral imaging system for far 3D objects using direct pixel mapping," 2010 OSA Conference on Digital Holography and Three-Dimensional Imaging, 11-15 April 2010, Miami, USA,Oral.

[2] P. Han, Yongri Piao, M. Zhang, and E. -S. Kim, "Fast local reconstruction of integral imaging based on backward computational integral imaging reconstruction," 2010 OSA Conference on Digital Holography and Three-Dimensional Imaging, Miami, 11-15 April 2010, Miami, USA,Oral.

[1] Yongri Piao, M. Zhang, and E.-S. Kim, "Depth conversion method in curved integral imaging system using a large aperture lens,” 2010 OSA Conference on Digital Holography and Three-Dimensional Imaging, Miami, 11-15 April 2010, Miami, USA,Oral.