[1] Izadi S, Kim D, Hilliges O et al. KinectFusion: real-time 3D reconstruction and interaction using a moving depth camera[C], 559-568(2011).

[2] Luhmann T. Close range photogrammetry for industrial applications[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 65, 558-569(2010).

[3] Shotton J, Fitzgibbon A, Cook M et al. Real-time human pose recognition in parts from single depth images[C], 1297-1304(2011).

[4] Ackerman J D, Keller K, Fuchs H. Surface reconstruction of abdominal organs using laparoscopic structured light for augmented reality[J]. Proceedings of SPIE, 4661, 39-46(2002).

[5] Foix S, Alenya G, Torras C. Lock-in time-of-flight (ToF) cameras: a survey[J]. IEEE Sensors Journal, 11, 1917-1926(2011).

[6] Murray D, Jennings C. Stereo vision based mapping and navigation for mobile robots[C], 1694-1699(1997).

[7] Kanade T, Yoshida A, Oda K et al. A stereo machine for video-rate dense depth mapping and its new applications[C], 196-202(1996).

[8] van der Jeught S, Dirckx J J J. Real-time structured light profilometry: a review[J]. Optics and Lasers in Engineering, 87, 18-31(2016).

[9] Zhang S, Huang P S. High-resolution, real-time three-dimensional shape measurement[J]. Optical Engineering, 45, 123601(2006).

[10] Pu T T, Wu Z J, Zhang Q C. Dynamic three-dimensional measurement technology based on gray code and phase-shifting algorithm[J]. Acta Optica Sinica, 41, 0512001(2021).

[11] Yang F, Ding X J, Cao J. 3D reconstruction of free-form surface based on color structured light[J]. Acta Optica Sinica, 41, 0212001(2021).

[12] Liu J B, Yu X G, Yang K et al. Automatic calibration method for the full parameter of a camera-projector system[J]. Optical Engineering, 58, 084105(2019).

[13] Huang B Y, Tang Y, Ozdemir S et al. A fast and flexible projector-camera calibration system[J]. IEEE Transactions on Automation Science and Engineering, 18, 1049-1063(2021).

[14] Zhang S. High-speed 3D shape measurement with structured light methods: a review[J]. Optics and Lasers in Engineering, 106, 119-131(2018).

[15] Schaffer M, Grosse M, Harendt B et al. High-speed three-dimensional shape measurements of objects with laser speckles and acousto-optical deflection[J]. Optics Letters, 36, 3097-3099(2011).

[16] Stark A, Wong E, Weigel D et al. Repeatable speckle projector for single-camera three-dimensional measurement[J]. Optical Engineering, 57, 120501(2018).

[17] Etchepareborda P, Moulet M H, Melon M. Random laser speckle pattern projection for non-contact vibration measurements using a single high-speed camera[J]. Mechanical Systems and Signal Processing, 158, 107719(2021).

[18] Dekiff M, Berssenbrügge P, Kemper B et al. Three-dimensional data acquisition by digital correlation of projected speckle patterns[J]. Applied Physics B, 99, 449-456(2010).

[19] Zhou P, Zhu J P, Kong L Y et al. Three-dimension face acquisition with rotating speckle structured light projection[J]. Laser＆Optoelectronics Progress, 58, 0415019(2021).

[20] Yao H M, Ge C Y, Xue J R et al. A high spatial resolution depth sensing method based on binocular structured light[J]. Sensors, 17, 805(2017).

[21] Schaffer M, Grosse M, Kowarschik R. High-speed pattern projection for three-dimensional shape measurement using laser speckles[J]. Applied Optics, 49, 3622-3629(2010).

[22] Gu J W, Xie X P, Cao Y B et al. A semi-dense depth map acquisition algorithm based on laser speckle[J]. Chinese Journal of Lasers, 47, 0304004(2020).

[23] Fabian J, Young T, Jones J C P et al. Integrating the microsoft Kinect with simulink: real-time object tracking example[J]. IEEE/ASME Transactions on Mechatronics, 19, 249-257(2014).

[24] Pathirana P N, Li S Y, Trinh H M et al. Robust real-time bio-kinematic movement tracking using multiple Kinects for tele-rehabilitation[J]. IEEE Transactions on Industrial Electronics, 63, 1822-1833(2016).

[25] Landau M J, Choo B Y, Beling P A. Simulating Kinect infrared and depth images[J]. IEEE Transactions on Cybernetics, 46, 3018-3031(2016).

[26] Yao H M, Ge C Y, Hua G et al. The VLSI implementation of a high-resolution depth-sensing SoC based on active structured light[J]. Machine Vision and Applications, 26, 533-548(2015).

[27] Harris C G, Stephens M J. A combined corner and edge detector[C], 147-151(1988).

[28] Pan B, Qian K M, Xie H M et al. Two-dimensional digital image correlation for in-plane displacement and strain measurement: a review[J]. Measurement Science and Technology, 20, 062001(2009).

[29] Ackermann F. Digital image correlation: performance and potential application in photogrammetry[J]. The Photogrammetric Record, 11, 429-439(2006).

[30] Pan B. Reliability-guided digital image correlation for image deformation measurement[J]. Applied Optics, 48, 1535-1542(2009).