[1] Chen W Q, Zheng R S, Baade P D et al[J]. Cancer statistics in China, 2015, 66, 115-132(2016).
[2] Ren X C, Liu Y E, Li J et al. Progress in image-guided radiotherapy for the treatment of non-small cell lung cancer[J]. World Journal of Radiology, 11, 46-54(2019).
[3] Liney G P, Whelan B, Oborn B et al. MRI-linear accelerator radiotherapy systems[J]. Clinical Oncology, 30, 686-691(2018).
[4] de Ruysscher D, Faivre-Finn C, Moeller D et al. European Organization for Research and Treatment of Cancer (EORTC) recommendations for planning and delivery of high-dose, high precision radiotherapy for lung cancer[J]. Radiotherapy and Oncology, 124, 1-10(2017).
[5] Park J, Brady D J, Zheng G A et al. Review of bio-optical imaging systems with a high space-bandwidth product[J]. Advanced Photonics, 3, 044001(2021).
[6] Dai H L, Shan H R, Sun Z C et al. Single-cell detection by enhancement of fluorescence in waveguides for cancer diagnosis and therapy[J]. Photonics Research, 9, 2381-2387(2021).
[7] Shen G S, Li Q. Technique of image guided radiotherapy with conventional video cameras[J]. Optics and Precision Engineering, 27, 1405-1415(2019).
[8] Wang Y, Sun X M, Xiong P Y et al. Binocular stereo vision based real-time tracking for respiratory motion[J]. Chinese Journal of Biomedical Engineering, 37, 72-78(2018).
[9] Takagi H, Obata Y, Kobayashi H et al. Clinical usefulness of a newly developed body surface navigation and monitoring system in radiotherapy[J]. Journal of Applied Clinical Medical Physics, 12, 3400(2011).
[10] Liu H J, Mamtimin G, Gulbahar T et al. Design and identification of cooperative coded targets[J]. Laser & Optoelectronics Progress, 58, 1210015(2021).
[11] Chen C X. Research and design of image-guided radiotherapy based on camera[D], 27-32(2005).
[12] Sun X, Zhou Z D. 3D automatic fiducial marker detection and localization approach[J]. Progress in Modern Biomedicine, 8, 709-712(2008).
[13] Li P. Research on external fiducially markers-based registration in cardiac interventional surgery navigation[D], 22-33(2016).
[14] Liu L P. Research on preoperative planning and intraoperative positioning technology for neurosurgery navigation system[D], 26-37(2016).
[15] Zhu C H, Chen W F, Xu Z H et al. Binocular stereo vision based real-time tracking for respiratory motion[J]. Chinese Journal of Biomedical Engineering, 30, 520-527(2011).
[16] Xu D R, Yan X, Fan L Y. Magnetic resonance imaging method and system for eliminating motion artifact based on dynamic tracking technology[P].
[17] Zhang S H, Ma H M. An analysis of occlusion influence on object detection[J]. Journal of Graphics, 41, 891-896(2020).
[18] Wang K K, Xiao L, Yi W et al. Experimental realization of a quantum image classifier via tensor-network-based machine learning[J]. Photonics Research, 9, 2332-2340(2021).
[19] Yu Z J, Ma K, Wang Z J et al. Marker matching method with improved KLT algorithm[J]. Laser & Optoelectronics Progress, 55, 020301(2018).
[20] Qu Z H, Shao Y M, Deng T M et al. Traffic sign detection and recognition under complicated lighting conditions[J]. Laser & Optoelectronics Progress, 56, 231009(2019).
[21] Chen W, Wang K, Jiang H F et al. Skin color modeling for face detection and segmentation: a review and a new approach[J]. Multimedia Tools and Applications, 75, 839-862(2016).
[22] Pan D, Li Y L, Gao D et al. Center extraction method of multiple and overlapping faculae based on ellipse fitting[J]. Acta Optica Sinica, 40, 1410001(2020).
[23] Li T, Guan B L, Zhang J M et al. Relative pose measurement method for monocular cameras by combining the point and line features[J]. Laser & Optoelectronics Progress, 57, 081102(2020).
