[1] HAYS J, EFROS A A et al. Scene completion using millions of photographs[J]. Acm Transactions on Graphics (TOG), 26, 4-es(2007).

[2] BERTALMIO M, VESE L, SAPIRO G et al. Simultaneous structure and texture image inpainting[J]. IEEE transactions on Image Processing, 12, 882-889(2003).

[3] SHEN J, KANG S H, CHAN T F, el al. Euler's elastica and curvature-based inpainting[J]. Siiam Journal on Applied Mathematics, 63, 564-592(2003).

[4] [4] PATHAK D, KRAHENBUHL P, DONAHUE J, et al. Context encoders: Feature learning by inpainting [C]Proceedings of the IEEE Conference on Computer Vision Pattern Rrecognition, 2016: 25362544.

[5] [5] LIU G, REDA F A, SHIH K J, et al. Image inpainting f irregular holes using partial convolution s[C]Proceedings of the European Conference on Computer Vision (ECCV), 2018: 85100.

[6] [6] NAZERI K, NG E, JOSEPH T, et al. Edgeconnect: Generative image inpainting with adversarial edge learning [EBOL]. (20190111) [20250112]. https:arxiv.gabs1901.00212

[7] [7] ZHENG C, CHAM T J, CAI J. Pluralistic image completion [C]Proceedings of the IEEECVF Conference on Computer Vision Pattern Recognition, 2019: 14381447.

[8] [8] SUVOV R, LOGACHEVA E, MASHIKHIN A, et al. Resolutionrobust large mask inpainting with fourier convolutions [C]Proceedings of the IEEECVF Winter Conference on Applications of Computer Vision, 2022: 21492159.

[9] IIZUKA S, SIMO-SERRA E, ISHIKAWA H et al. Globally and locally consistent image completion[J]. ACM Transactions on Graphics (ToG), 36, 1-14(2017).

[10] [10] YU J, LIN Z, YANG J, et al. Freefm image inpainting with gated convolution [C]Proceedings of the IEEECVF International Conference on Computer Vision, 2019: 44714480.

[11] [11] HUANG Z, WANG X, HUANG L, et al. Cc: Crisscross attention f semantic segmentation[C]Proceedings of the IEEECVF International Conference on Computer Vision, 2019: 603612.

[12] [12] ZENG Y, FU J, CHAO H, et al. Learning pyracontext encoder wk f highquality image inpainting [C]Proceedings of the IEEECVF Conference on Computer Vision Pattern Recognition, 2019: 14861494.

[13] [13] LIU H, JIANG B, XIAO Y, et al. Coherent semantic attention f image inpainting [C]Proceedings of the IEEECVF International Conference on Computer Vision, 2019: 41704179.

[14] [14] WANG T, OUYANG H, CHEN Q. Image inpainting with externalinternal learning monochromic bottleneck [C]Proceedings of the IEEECVF Conference on Computer Vision Pattern Recognition, 2021: 51205129.

[15] [15] REN Y, YU X, ZHANG R, et al. Structureflow: Image inpainting via structureaware appearance flow [C]Proceedings of the IEEECVF International Conference on Computer Vision, 2019: 181190.

[16] [16] LIU J, TANG J, WU G. Residual feature distillation wk f lightweight image superresolution [C]Computer VisionECCV 2020 Wkshops, 2020: 4155.

[17] IIZUKA S, SIMO-SERRA E, ISHIKAWA H. Globally and locally consistent image completion[J]. Acm Transactions on Graphics (ToG), 36, 1-14(2017).

[18] [18] LIU Z, LIN Y, CAO Y, et al. Swin transfmer: Hierarchical vision transfmer using shifted windows [C]Proceedings of the IEEECVF International Conference on Computer Vision, 2021: 1001210022.

[19] [19] YU J, LIN Z, YANG J, et al. Generative image inpainting with contextual attention [C]Proceedings of the IEEE Conference on Computer Vision Pattern Recognition, 2018: 55055514.

[20] [20] JOHNSON J, ALAHI A, FEIFEI L. Perceptual losses f realtime style transfer superresolution [C]Computer VisionECCV, 2016: 694711.

[21] [21] BLOOMFIELD P, STEIGER W L. Least Absolute Deviations: They, Applications, Algithms[M]. Boston: Birkhäuser, 1983.

[22] JING Lei, ZHAO Zhenxing, SONG Dongyao et al. Simulation of laser spot based on Matlab[J]. Journal of Northwestern University: Natural Science Online, 7, 5-12(2009).

[23] [23] LIU W, CUN X, PUN C M, et al. Codfill: Efficient highresolution image inpainting via parameterized codinate querying [C]Proceedings of the AAAI Conference on Artificial Intelligence, 2023, 37(2): 17461754.

[24] [24] MA X, GUO F M, NIU W, et al. Pconv: The missing but desirable sparsity in dnn weight pruning f realtime execution on mobile devices [C]Proceedings of the AAAI Conference on Artificial Intelligence, 2020, 34(4): 51175124.

[25] BARNES C, SHECHTMAN E, FINKELSTEIN A et al. PatchMatch: A randomized correspondence algorithm for structural image editing[J]. ACM Trans Graph, 28, 24(2009).

[26] [26] KHONEN J, YOU J. Peak signaltonoise ratio revisited: Is simple beautiful [C]2012 Fourth international Wkshop on Quality of Multimedia Experience, IEEE, 2012: 3738.

[27] WANG Z, BOVIK A C, SHEIKH H R et al. Image quality assessment: from error visibility to structural similarity[J]. IEEE Transactions on Image Processing, 13, 600-612(2004).