[1] [1] Knauer M C, Kaminski J, Hausler G. Phase measuring deflectometry: a new approach to measure specular free-form surfaces［C］. SPIE, 2004, 5457: 366-376.

[2] [2] HUANG R, PENG S, HORNE T, et al. Measurement of a large deformable aspherical mirror using SCOTS (software configurable optical test system)［C］. Proceedings of SPIE-The International Society for Optical Engineering, 2013, 8838: 07.

[3] [3] HUANG R, SU P, BURGE J H, et al. High-accuracy aspheric x-ray mirror metrology using software configurable optical test systemdeflectometry［J］. Opt. Eng., 2015, 54(8): 084103.

[4] [4] SU P, PARKS R E, WANG L R, et al. Software configurable optical test system: a computerized reverse Hartmann test［J］. Appl. Optics, 2010, 49(23): 4404-4412.

[7] [7] XU X Y, ZHANG X G, NIU Z N, et al. Self-calibration of in situ monoscopicdeflectometric measurement in precision optical manufacturing［J］. Optics Express, 2019, 27(5): 7523-7536.

[8] [8] ZHAO W, SU X, LIU Y, et al. Testing an aspheric mirror based on phase measuring deflectometry［J］. Opt. Eng., 2009, 48(10): 103603.

[9] [9] Zhao W C, L R Graves, R Huang, et al. Iterative surface construction for blind deflectometry［C］//8th International Symposium on Advanced Optical Manufacturing and Testing Technology: Optical Test, Measurement Technology, and Equipment, 2016, 9684.

[10] [10] SU P, WANG S S, Khreishi M, et al. SCOTS: A reverse hartmann test with high dynamic range for giant magellan telescope primary mirror segments［C］. SPIE, 2012, 8450: 84500W.

[11] [11] Petz M, Tutsch R. Reflection grating photogrammetry: a technique for absolute shape measurement of specular free-form surfaces［C］// Optics & Photonics, 2005, 5869: 91.

[13] [13] Evelyn Olesch, C.F. , Gerd H?usler. Deflectometric self-calibration for arbitrary specular surfaces［C］//Proc. 112th Annual Meeting of the DGaOA, 2011.

[14] [14] XIAO Y L, SU X, YOU Z. Pose transfer geometrical calibration for fringe-reflection optical three-dimensional measurement［J］. Optics Communications, 2013, 305(5): 143-146.

[15] [15] HUANG R. High precision optical surface metrology using deflectometry［D］. Tucson: The University of Arizona, 2015.

[16] [16] ZHANG Z. A flexible new technique for camera calibration［J］. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2000, 22(11): 1330-1334.

[17] [17] Hesch J A, Mourikis A I, Roumeliotis S I. Mirror-based extrinsic camera calibration［J］. Algorithmic Foundation of Robotics VIII. Springer, 2009, (5): 285-299.

[18] [18] REN H, GAO F, JIANG X. Iterative optimization calibration method for stereo deflectometry［J］. Opt. Express, 2015, 23(17): 22060-22068.

[19] [19] ZHAO H, CHEN W, TAN Y. Phase-unwrapping algorithm for the measurement of three-dimensional object shapes［J］. Appl. Optics, 1994, 33(20): 4497-4500.

[21] [21] Hesch, J A, A I Mourikis, et al. Camera to robot-body calibration using planar mirror reflections［C］//Technical Report 2008-001, University of Minnesota, Dept. of Comp. Sci. & Eng. , MARS Lab, July 2008.

[22] [22] Madsen K, Nielsen H, Tingleff O. Methods for non-linear least square problems［M］. Denmark: Informatics and Mathematical Modelling Technical University of Denmark, 2004.