[1] GOCH G. Gear metrology ［J］. CIRP Annals-Manufacturing Technology, 2003, 52(2): 659-695.

[2] SHI ZH Y, FEI Y T, XIE H K. 100 years of gear measurement technology-review & prospect ［J］. Engineering Science, 2003, 5(9): 13-17. (in Chinese)

[3] HAERTIG F, LIN H, KNIEL K, et al.. Standard conforming involute gear metrology using an articulated arm coordinate measuring system ［J］. Measurement Science & Technology, 2012, 23(10): 1-6.

[4] LIN H, FRANK H, KARIN K, et al.. Measurement of large gears by using portable coordinate measuring machines ［J］. Opt. Precision Eng., 2013, 21(7): 1763-1770. (in Chinese)

[5] LOTZE W, HAERTIG F. 3D gear measurement by CMM ［C］. Proceedings of Laser Metrology and Machine Performance, Birmingham, UK, 2001: 333-344.

[6] GAO C H, CHENG K, WEBB D. Investigation on sampling size optimization in gear tooth surface measurement using a CMM ［J］. The International Journal of Advanced Manufacturing Technology, 2004, 24(7): 599-606.

[7] PETERS J, GOCH G, GUENTHER A. Helical gear measurement using structured light ［C］. Proceedings of the XVI IMEKO World Congress, Wien, 2000: 227-230.

[8] YOHAN K, KAZUYUKI S, SONKO O, et al.. Optimized measurement strategy for multiple-orientation technique on coordinate measuring machines ［J］. Measurement Science & Technology, 2009, 20(10): 1-8.

[9] SUN D ZH, DONG X ZH. Research on the mathematical model describing real gear surface ［J］.Transactions of the Chinese Society for Agricultural Machinery, 2000, 31(1): 79-81. (in Chinese)

[10] BLUNT L, JIANG X, STOUT K J. Developments in 3D surface metrology ［J］. Transactions on Engineering Sciences, 1999, 23: 255-265.

[11] PFEIFER T, KUROKAWA S, MEYER S. Derivation of parameters of global form deviations for 3-dimensional surfaces in actual manufacturing processes ［J］. Measurement, 2001, 29(3): 179-200.

[12] LEOPOLD J, GUENTHER A. Fast 3-D measurement of gear wheels ［C］. Proceedings of the Society of Photo-Optical Instrumentation, 2002, 4900: 185-94.

[13] SUNG J A. Orthogonal distance fitting of implicit curves and surfaces ［J］. Pattern Analysis and Machine Intelligence, 2002, 24(5): 620-638.

[14] ATIEG A, WATSON G A. A class of methods for ftting a curve or surface to data by minimizing the sum of squares of orthogonal distances ［J］. Journal of Computational and Applied Mathematics, 2003, 158(2): 277-296.

[15] LITVIN F L, FUENT A. Gear Geometry and Applied Theory ［M］. Cambridge: Cambridge University Press, 2004: 105-120.

[16] ISO1328-1: 1995, Cylindrical gears-ISO system of accuracy-Part 1: Definitions and allowable values of deviations relevant to corresponding flanks of gear teeth［S］.

[17] VDI/VDE 2607 Computer-aided evaluation of profile and helix measurements on cylindrical gears with involute profile［S］.

[18] XIONG Y L.Mathematical Method of Precision Measuring ［M］. Beijing: China Metrology Publishing House, 1989: 24-26. (in Chinese)

[19] MADSEN K, NIELSEN H B, TINGLEFF O. Methods for non-linear least squares problems ［J］. Informatics and Mathematical Modelling Technical, 2004, 17-47.

[20] SHI ZH Y, LIN H. Multi-degrees of freedom theory for gear deviation ［J］. Journal of Mechanical Engineering, 2014, 50(1): 55-60. (in Chinese)