[1] Devernay F, Duchêne S, Ramos-Peon A. Adapting stereoscopic movies to the viewing conditions using depth-preserving and artifact-free novel view synthesis[J]. Proc SPIE, 2011, 7863: 786302.

[2] Islam M B, Lai-Kuan W, Chee-Onn W, et al. Stereoscopic image warping for enhancing composition aesthetics[C]//Proceedings of the 3rd IAPR Asian Conference on Pattern Recognition (ACPR), Kuala Lumpur, Malaysia, 2015: 645–649.

[3] Basha D T, Moses Y, Avidan S. Stereo seam carving a geometrically consistent approach[J]. IEEE Trans Patt Anal Mach Intellig, 2013, 35(10): 2513–2525.

[4] Luo S J, Sun Y T, Shen I C, et al. Geometrically consistent stereoscopic image editing using patch-based synthesis[J]. IEEE Trans Visual Comput Graph, 2015, 21(1): 56–67.

[5] Lee K Y, Chung C D, Chuang Y Y. Scene warping: layer-based stereoscopic image resizing[C]//2012 IEEE Conference on Computer Vision and Pattern Recognition, Providence, RI, USA, 2012: 49–56.

[6] Yan W Q, Hou C P, Wang B L, et al. Content-aware disparity adjustment for different stereo displays[J]. Multim Tools Applicat, 2017, 76(8): 10465–10479.

[7] Niu Y Z, Liu F, Feng W C, et al. Aesthetics-based stereoscopic photo cropping for heterogeneous displays[J]. IEEE Trans Multim, 2012, 14(3): 783–796.

[8] Tong R F, Zhang Y, Cheng K L. Stereo Pasting: Interactive composition in stereoscopic images[J]. IEEE Trans Visualizat Comput Graph, 2013, 19(8): 1375–1385.

[9] Chang C H, Liang C K, Chuang Y Y. Content-aware display adaptation and interactive editing for stereoscopic images[J]. IEEE Trans Multim, 2011, 13(4): 589–601.

[10] Shao F, Lin W C, Lin W S, et al. QoE-guided warping for stereoscopic image retargeting[J]. IEEE Trans Image Process, 2017, 26(10): 4790–4805.

[11] Shao F, Shen L B, Jiang Q P, et al. StereoEditor: controllable stereoscopic display by content retargeting[J]. Opt Exp, 2017, 25(26): 33202–33213.

[12] Lu S P, Florea R M, Cesar P, et al. Efficient depth-aware image deformation adaptation for curved screen displays[C]//Proceedings of the on Thematic Workshops of ACM Multimedia, New York, NY, USA, 2017: 442–450.

[13] Kim D, Sohn K. Depth adjustment for stereoscopic image using visual fatigue prediction and depth-based view synthesis[C]//Proceedings of the 2010 IEEE International Conference on Multimedia and Expo, Singapore, 2010: 956–961.

[14] Lei J J, Peng B, Zhang C Q, et al. Shape-preserving object depth control for stereoscopic images[J]. IEEE Trans Circuits Syst Video Technol, 2018, 28(12): 3333–3344.

[15] Park H, Lee H, Sull S. Object depth adjustment based on planar approximation in stereo images[C]//Proceedings of the IEEE International Conference on Consumer Electronics-Berlin (ICCE-Berlin), Berlin, Germany, 2011: 10–14.

[16] Park H, Lee H, Sull S. Efficient viewer-centric depth adjustment based on virtual fronto-parallel planar projection in stereo 3D images[J]. IEEE Trans Multim, 2014, 16(2): 326–336.

[17] Yan T, Lau R W H, Xu Y, et al. Depth mapping for stereoscopic videos[J]. Int J Comput Vision, 2013, 102(1–3): 293–307.

[18] Sohn H, Jung Y J, Lee S I, et al. Visual comfort amelioration technique for stereoscopic images: disparity remapping to mitigate global and local discomfort causes[J]. IEEE Trans Circuits Syst Video Technol, 2014, 24(5): 745–758.

[19] Guan S H, Lai Y C, Chen K W, et al. A tool for stereoscopic parameter setting based on geometric perceived depth percentage[J]. IEEE Trans Circuits Syst Video Technol, 2016, 26(2): 290–303.

[20] Oh H, Kim J, Kim J, et al. Enhancement of visual comfort and sense of presence on stereoscopic 3D images[J]. IEEE Trans Image Process, 2017, 26(8): 3789–3801.

[21] Wang W G, Shen J B, Yu Y Z, et al. Stereoscopic thumbnail creation via efficient stereo saliency detection[J]. IEEE Trans Visualizat Comput Graph, 2017, 23(8): 2014–2027.

[22] Gastal E S L, Oliveira M M. Shared sampling for real-time alpha matting[J]. Comput Graph Forum, 2010, 29(2): 575–584.

[23] Li C H, An P, Shen L Q, et al. A modified just noticeable depth difference model built in perceived depth space[J]. IEEE Trans Multim, 2019, 21(6): 1464–1475.

[24] Mao Y, Cheung G, Ji Y S. On constructing z-Dimensional DIBR-synthesized images[J]. IEEE Trans Multim, 2016, 18(8): 1453–1468.

[25] Wang Z, Bovik A C, Sheikh H R, et al. Image quality assessment: From error visibility to structural similarity[J]. IEEE Trans Image Process, 2005, 13(4): 600–612.