과제정보
NSFC grant number 52205067, 61805195, 52004213; Natural Science Basic Research Program of Shaanxi grant number 2022JQ-403; China Postdoctoral Science Foundation grant number 2020M683683XB.
참고문헌
- X. Wang, S. Fang, X. Zhu, J. Ji, P. Yang, M. Komori, and A. Kubo, "Nonlinear diffusion and structure tensor based segmentation of valid measurement region from interference fringe patterns on gear systems," Curr. Opt. Photonics 1, 587-597 (2017).
- Z. Shi, B. Yu, X. Song, and X. Wang, "Development of gear measurement technology during last 20 Years," Chin. Mech. Eng. 33, 1009-1024 (2022).
- Y. Dai, X. Sheng, and P. Yang, "Comparison and analysis of effective measurement area segmentation methods in tooth surface interference fringe pattern," Machin. Electron. 39, 3-7 (2021).
- C. Zuo and Q. Chen, "Computational optical imaging: An overview," Infrar. Laser Eng. 51, 20220110 (2022).
- L. Meng, S. Fang, P. Yang, L. Wang, M. Komori, and A. Kubo, "Image-inpainting and quality-guided phase unwrapping algorithm," Appl. Opt. 51, 2457-2462 (2012). https://doi.org/10.1364/AO.51.002457
- X. Wang, S. Fang, X. Zhu, K. Kou, Y. Liu, and M. Jiao, "Phase unwrapping based on adaptive image in-painting of fringe patterns in measuring gear tooth flanks by laser interferometry," Opt. Express 28, 17881-17897 (2020). https://doi.org/10.1364/OE.395453
- H. A. Vrooman and A. A. Maas, "Image processing algorithms for the analysis of phase-shifted speckle interference patterns," Appl. Opt. 30, 1636-1641 (1991). https://doi.org/10.1364/AO.30.001636
- T. Ino and T. Yatagai, "Oblique incidence interferometry for gear-tooth surface profiling," Proc. SPIE 1720, 464-469 (1992). https://doi.org/10.1117/12.132156
- X. W. Chang, D. W. Li, and Y. H. Xu, "A study of image segmentation based on level set method," in Proc. 2013 International Conference on Advanced Computer Science and Electronics Information-ICACSEI 2013 (Beijing, China, Jul. 25-26, 2013), pp. 360-363.
- G. Aiming, C. Lei, and C. Jinbang, "Digitalisation processing technique for interference pattern with obstruct," Acta Optica Sinica 20, 775 (2000).
- Y. Pengcheng, F. Suping, W. Leijie, M. Lei, K. Masaharu, and K. Aizoh, "Correction method for segmenting valid measuring region of interference fringe patterns," Opt. Eng. 50, 095602 (2011).
- L. Wang, S. Fang, P. Yang, and L. Meng, "Comparison of three methods for identifying fringe regions of interference fringe patterns in measuring gear tooth flanks by laser interferometry," Optik 126, 5668-5671 (2015). https://doi.org/10.1016/j.ijleo.2015.08.177
- X. Wang, X. Zhu, K. Kou, J. Liu, Y. Liu, and B. Qian, "Fringe direction weighted autofocusing algorithm for gear tooth flank form deviation measurement based on an interferogram," Appl. Opt. 60, 11066-11074 (2021). https://doi.org/10.1364/AO.442395
- D. C. Ghiglia and M. D. Pritt, Two-Dimensional Phase Unwrapping: Theory, Algorithms, and Software (Wiley, USA, 1998).
- Y. Cao, H. Liu, and X. Jia, "Overview of image quality assessment method based on deep learning," Comput. Eng. Appl. 57, 27-36 (2021).
- Z. Zhu, Y. Liu, and Y. Li, "Image segmentation of nondestructive test based on image patch and cluster information quantity," Laser Optoelectron. Prog. 58, 1210009 (2021).
- L. Ge and Y. Zhao, "A method of automatically searching lever ring and calculating the misclosure," Sci. Surv. Map. 37, 209-212 (2012).
- J. Liu, D. Yang, and F. Hu, "Multiscale object detection in remote sensing images combined with multi-receptive-field features and relation-connected attention," Remote Sens. 14, 427 (2022).
- S. G. A. Usha and S. Vasuki, "Significance of texture features in the segmentation of remotely sensed images," Optik 249, 168241 (2022).
- X. Wang, H. Liu, and Y. Niu, "Binocular stereo matching by combining multiscale local and deep features," Acta Optica Sinica 40, 0245001 (2020).