References
- Chang, M. and Gossard, D. C., 'Modeling the Assembly of Compliant, Non-ideal Parts', Computer-Aided Design, XXIX (1997), pp. 701-708, 1997 https://doi.org/10.1016/S0010-4485(97)00017-1
- S. Charles Liu, S. Jack Hu, 'Compliant Assembly Variation Analysis Using Components Geometric Covariance', Preoceedings of the 2002 International Mechanical Engineering Conference and Exposition, New Orleans, LA, 2002
- Hu, S. J. and Wu, S. M., 'Identifying Sources of Variation in Automobile Body Assembly Using Principal Component Analysis', Transactions of NAMRI, XX (1992), pp. 311-316
- Creveling, C. M., Tolerance Design, Addison-Wesley, 1996
- S. Charles Liu, S. Jack Hu, 'Variation Simulation for Deformable Sheet Metal Assemblies Using Finite Element Methods', ASME Journal of Manufacturing Science and Engineering, Vol. 119, pp. 368-374, 1997 https://doi.org/10.1115/1.2831115
- 김국생, '용접 조립되는 변형체의 스프링 백 해석', 홍익대학교 석사학위논문, 2005
- Jaime A. Camelio, 'Modeling and Diagnosis of Dimensional Variation for Assembly Systems with Compliant Parts', Doctor of Philiosophy in the University of Michigan pp. 44-75, 2002
- L. Shelly Xie, Ching hseih, 'Clamping and Welding Sequence Optimization for Minimizing Cycle Time and Assembly Deformation', Int. J of Materials & Product Technology, Vol. 17, Nos 5/6, 2002
- Rearick, M. R., Hu, S. J. and Wu, S. M., 'Optimal Fixture Design for Deformable Sheet Metal Work-pieces', Society of Manufacturing Engineers; (1993), NAMRC XXI, Vol. 0000137562, pp. 407-412
- Cai, W., Hu, S. J. and Tuan, J. X., 'Deformable Sheet Metal Fixturing : Principle, Algorithms, and Simulation', Trans. ASME, J Manuf. Sci. Eng., Vol. 118, pp. 318-324, 1996 https://doi.org/10.1115/1.2831031
- Venkataraman, P., Applied Optimization with Matlab Programming. WILEY-INTERSCIENCE, 2002
- Bazara, M. S., Sherail, H. D. and Shetty, C. M., Nonlinear Programming Theory and Algorithms, WILEY, 1993