Effective Form Error Assessment Using Improved Particle Swarm Optimization

G. R. Cogorno, Geometric dimensioning and tolerancing for mechanical design, Macgraw-Hill, New York (2006).

K. Takamasu, Present problems in coordinate metrology for nano and micro scale measurements. MAPAN-J. Metrol. Soc India 26 (2011) 3–14.

C. Cui, B. Li, F. Huang and R. Zhang, Genetic algorithm based form error evaluation. Meas. Sci. Technol. 18 (2007) 1818–1824.

J. Yang, G. Li, B. Wu, J. Gong, J. Wang and M. Zhang, Efficient methods for evaluating task-specific uncertainty in laser-tracking measurement. MAPAN-J. Metrol. Soc India 30 (2015) 105–117.

G. L. Samuel and M. S. Shunmugam, Evaluation of circularity from coordinate and form data using computational geometric techniques. J. Int. Soc. Precis. Eng. Nanotechnol. 25 (2000) 251–263.

M. Wang, H. Cheraghi and A. S. Masud, Circularity error evaluation theory and algorithm. Precis. Eng. 23 (1999) 164–176.

S. H. Cheraghi, G. H. Jiang and J. S. Ahmad, Evaluating the geometric characteristics of cylindrical features. Precis. Eng. 27 (2003) 195–204.

D. H. Endrias and H. Y. Feng, Minimum-zone form tolerance evaluation using rigid-body coordinate transformation. ASME J. Comput. Inf. Sci. Eng. 3 (2002) 31–38.

K. Carr and P. Ferreira, Verification of form tolerances part I: basic issues, flatness, and straightness. Precis. Eng. 17 (1995) 131–143.

N. Venkaiah and M. S. Shunmugam, Evaluation of form data using computational geometric techniques–part I: circularity error. Int. J. Mach. Tools Manuf. 47 (2007) 1229–1236.

N. Venkaiah and M. S. Shunmugam, Evaluation of form data using computational geometric techniques—part II: cylindricity error. Int. J. Mach. Tools Manuf. 47 (2007) 1237–1245.

D. S. Suen and C. N. Chang, Application of neural network interval regression method for minimum zone straightness and flatness. Precis. Eng. 20 (1997) 196–207.

T. Weber, S. Motavalli, B. Fallahi and S. H. Cheraghi, A unified approach to form error evaluation. Precis. Eng. 26 (2002) 269–278.

J. Liu, G. Wang and X. Pan, Minimum zone form tolerance evaluation for cylindrical surfaces using adaptive ant colony optimization. J. Comput. Inf. Syst. 7 (2011) 4480–4490.

R. Andrea, A. Michele, B. Matteo and L. Michele, Fast genetic algorithm for roundness evaluation by the minimum zone tolerance (MZT) method. Measurement 44 (2011) 1243–1252.

X. L. Wen, J. C. Huang, D. H. Sheng and F. L. Wang, Conicity and cylindricity error evaluation using particle swarm optimization. Precis. Eng. 34 (2010) 338–344.

J. Luo, Q. Wang and L. Fu, Application of modified artificial bee colony algorithm to flatness error evaluation. Opt. Precis. Eng. 20 (2012) 422–430.

H. Y. Lai, W. Y. Jywe, C. K. Chen and C. H. Liu, Precision modeling of form errors for cylindricity evaluation using genetic algorithm. Precis. Eng. 24 (2000) 310–319.

H. Garg, Reliability, availability and maintainability analysis of industrial systems using PSO and fuzzy methodology. MAPAN-J. Metrol. Soc India 29 (2014) 115–129.

Z. Li, G. Tian, G. Cheng, H. Liu and Z. Cheng, An integrated cultural particle swarm algorithm for multi-objective reliability-based design optimization. Proc. Inst. Mech. Eng. Part C: J. Mech. Eng. Sci. 228 (2014) 1185–1196.

C. H. Lin, An intelligent dynamic control of continuously variable transmission system using modified particle swarm optimization. Proc. Inst. Mech. Eng. Part C: J. Mech. Eng. Sci. 230 (2016) 2181–2207.

K. Y. Tseng, C. B. Zhang and C. Y. Wu, An enhanced binary particle swarm optimization for structural topology optimization. Proc. IMechE Part C: J. Mech. Eng. Sci. 224 (2010) 2271–2287.

R. V. Rao and V. J. Savsani, Mechanical design optimization using advanced optimization techniques. Springer Ser. Adv. Manuf. (2012). doi: 10.1007/978-1-4471-2748-2 .

ISO/DIS 1101-1996, Technical drawings—geometrical tolerancing, ISO, Geneva (1996).

J. Kennedy and R. C. Eberhart, Particle swarm optimization. Proc. IEEE conf. neural netw, Perth (1995) 1942–1948.

R. C. Eberhart and J. Kennedy, A new optimizer using particle swarm theory. Proc. of the 6th international symposium on micromachine and human science, Nagoya (1995) 39–43.

R. Eberhart and Y. Shi, Particle swarm optimization: developments, applications and Resources. Proceedings congress on evolutionary computation, Seoul (2001) 81–86.

Y. H. Shi and R. C. Eberhart, Empirical study of particle swarm optimization. Proceedings of the IEEE congress on evolutionary computation, Washington, DC (1999) 1945–1950.

Y. Shi and R. Eberhart, A modified particle swarm optimizer. IEEE int. conf. evolutionary computation, Anchorage, Alaska (1998) 69–73.

C. Cui, T. Li, L. A. Blunt, X. Jiang, H. Huang, R. Ye and W. Fan, The assessment of straight and flatness errors using particle swarm optimization. Proc. CIRP 10 (2013) 271–275.

X. L. Wen, X. C. Zhu, Y. B. Zhao, D. X. Wang and F.L. Wang, Flatness error evaluation and verification based on new generation geometrical product specification (GPS). Precis. Eng. 36 (2012) 70–76.

X. Q. Lei, W. M. Pan, X. P. Tu and S. F. Wang, Minimum zone evaluation for roundness error based on geometric approximating searching algorithm. Mapan-J. Metrol. Soc. India 29 (2014) 143–149.

S. Chou and C. W. Sun, Assessing cylindricity for oblique cylindrical features. Int. J. Mach. Tools Manuf. 40 (2000) 327–341.

K. Carr and P. Ferreira, Verification of form tolerances. Part II. Cylindricity and straightness of a median line. Precis. Eng. 17 (1995) 145–156.