[1] XIONG Y L. On minimization of linear extremum difference and its application [J]. Journal of Huazhong College of Technology, 1985, 13(5): 117-124. (in Chinese)
[2] CHETWYND D G. Roundness measurement using limacons [J]. Precision Engineering, 1979, 1(3): 137-141.
[3] ZHAO Q CH. Modeling and identification of contour features and its application [D]. Dissertation for Doctor degree of HeFei University of Technology, 2004: 41. (in Chinese)
[4] LI Y J, WEI G L, DENG J S, et al.. Study on automatic leveling technology[J]. Piezoelectrics & Acoustooptics, 2010, 32(6): 949-952. (in Chinese)
[6] YUAN CH J. Research on intelligent roundness tester [D]. Dissertation for Master Degree of Engineering of Sichuan University, 2004: 4. (in Chinese)
[7] HATSUZAWA T. Automatic centering system for a roundness tester using force feedback techniques [J]. Precision Engineering, 1988, 10(1): 19-23.
[8] TSUKADA T, KANADA T, LIU S. The development of a computer sided centering and leveling system for cylindrical form measurement [J]. Precision Engineering, 1988,10(1): 13-18.
[9] BAMABY A B, MILLS M W, LANE H R. Metrological apparatus work-piece position controller-automatically centers and levels by computer using surface sensed data from transducer with transverse compensation after tilting, UK: EP240150-A2[P]. 1987: 2-8.
[10] LI D SH, WANG W J, TAN J B. Study of decoupling problem of four freedom attitude adjustment for gyro-rotor specimen [J]. Journal of Astronautic Metrology and Measurement, 1999,19(3): 35-38. (in Chinese)
[11] AI ZH J, LIU Q Y, WANG H T, et al.. Portable self-aligning small scaled roundness instrument control system design [J]. Cryogenics and Superconductivity, 2008,36(2): 63-64. (in Chinese)
[12] MIU T Y, XIAO Y H. Type YZY-1 of roundness measurement instrument [J]. Machine Tools, 1984, 12: 31-33. (in Chinese)
[13] DING X H. Research on filtering and adjustment of centering and tilting technologies in precision measurement of cylindrical profile [D]. Harbin: Dissertation for the Master Degree in Engineering of Harbin Institute of Technology, 2010: 22-31. (in Chinese)
[14] ZHANG Y M, ZUO CH CH, LIU Y,et al.. Present state and expectation of roundness measurement method [J]. Tool Engineering, 2008, 40(11): 8-11. (in Chinese)
[15] XUE Y J, CHANG W H, LEI X Q, et al.. Research and advances about evaluation of roundness error [J]. Machine tool & Hydraulics, 2008, 36(12): 183-185, 137. (in Chinese)
[16] FENG H H, WU X G, XIAO D X, et al.. Design and application of high precision roundness tester [J]. Computer Measurement & Control, 2011, 19(3): 725-727. (in Chinese)
[17] ZHANG CH P, ZHAO Z X, ZHAO H Y,et al.. Design of a large aperture high-precision four-dimensional adjustment table [J]. Manufacturing Technology & Machine Tool, 2013, 6: 89-94. (in Chinese)
[18] WANG X K, HUANG W, JI F,et al.. Structure design and optimization of levelling-tooling with high precision [J]. Manufacturing Technology & Machine Tool, 2013, 4: 39-42. (in Chinese)
[19] YUAN Y X. Computational Methods for Nonlinear Optimization [M]. Beijing: Science Press, 2008: 124. (in Chinese)
[20] XIANG L, GU P L. Hybrid genetic algorithm with quick convergence [J]. Control and Decision, 2002, 17(1): 19-23. (in Chinese)
[21] DENG N Y, XUE Y, ZHANG H B. Global convergence of the Quasi-Newton method based on the new Quasi-Newton equation [J]. Journal of Beijing Polytechnic University, 1999, 25(4): 6-12. (in Chinese)
[22] YE F, SHAO ZH J, LIANG X M, et al.. A comparative study on four unconstrained optimization algorithms [J]. Mathematics in Practice and Theory, 2004,34(5): 108-112. (in Chinese)
[23] ZHANG J N, GUO W W, CAO Y L, et al.. Research on cylindricity error evaluation methods [J]. Machine Tools & Hydraulics, 2008, 36(2): 106-109. (in Chinese)
[24] WEN X L, SONG A G. Cylindricity error evaluation based on an improved genetic algorithm [J]. Acta Metrologica Sinica, 2004, 25(2): 115-118. (in Chinese)
