References
- Bendat, J. S. (1964). Probability functions for random responses. NASA Report on Contract, NAS-5-4590
- Berzri, M., Dhir, A., Ranganathan, R., Balendran, B. and Jayakumar, P. (2004). A new tire model for road loads simulation: Full vehicle validation. SAE Paper No. 2004-01-1579
- Bishop, N. W. M. (1988). The Use of Frequency Domain Parameters to Predict Structural Fatigue. University of Warwick. Ph. D. Dissertation. Coventry. UK
- Bishop, N. W. M. and Sheratt, F. (1989). Fatigue life prediction from power spectral density data. Environmental Engineering, 2, 11-19
- Bishop, N. W. M., Steinbeck, J. and Sherratt, F. (2000). Finite Element Based Fatigue Calculations (NAFEMS). Glasgow, UK
- Choi, B. L., Choi, J. H. and Choi, D. H. (2005). Reliabilitybased design optimization of an automotive suspension system for enhancing kinematic and compliance characteristics. Int. J. Automotive Technology 6, 3, 235-242
- Choi, K. K., Youn, B. D., Tang, J. and Hardee, E. (2005). Reliability-based analysis and design optimization for durability. Proc. SPIE-Int. Soc. Opt. Eng. 5805, 1, 74-84
- Dirlik, T. (1985). Application of Computers in Fatigue Analysis. University of Warwick. Ph. D. Dissertation. Coventry. UK
- Ghosh, S. and Medepalli, S. (2005). Effect of tire stiffness on vehicle loads. SAE Paper No. 2005-01-0825
- Haiba, M., Barton, D. C., Brooks, P. C. and Levesley, M. C. (2003). Using a quarter-vehicle multi-body model to estimate the service loads of a suspension arm for durability calculations. Proc. Instn. Mech. Engrs. Part K: J. Muti-body Dynamics, 217, 121-133
- Heinrietz, A., Lehrke, H. P., Rupp, A. N. and Barthel, C. (2003). Identification of parametric tire models for the fatigue evaluation of suspension components. SAE Paper No. 2003-01-1276
- Jung, D. H. and Bae, S. I. (2005). Automotive component fatigue life estimation by frequency domain approach. Key Engineering Materials 297, 300, 1776–1783
- Kim, G. H., Noh, K. H., Kim, D. S. and Ko, W. H. (2003). Development of Reliability/Durability Evaluation for Vehicle and Components Applied by Virtual Testing Technology. Body and Chassis Engineering Laboratory. KATECH. Korea
- Kim, H. S., Yim, H. J. and Kim, C. B. (2002). Computational durability prediction of body structures in prototype vehicles. Int. J. Automotive Technology 3, 4, 129-135
- Lee, S. B., Han, W. S. and Yim, H. J. (2003). Fatigue analysis of automotive suspension system considering dynamic effect. SAE Paper No. 2003-01-2814
- Lee, Y. L., Pan, J., Hathaway, B. R. and Barkey, E. M. (2005). Fatigue Testing and Analysis. Elsevier. New York
- Mechanical Dynamics Inc. (1998). MSC/ADAMS User Manual. Irvine. CA. USA
- MSC Software Co. (2003). MSC/FATIGUE Quick Start Guide. Santa Ana. CA. USA
- MSC Software Co. (2002), MSC/NASTRAN 2001 Reference Manual. Santa Ana. CA. USA
- Park, S. H. (2003). Design of Experiments. Minyoung- Sa. Daejeon. Korea
- Phadke, M. S. (1989). Quality Engineering Using Robust Design. Prentice Hall. New Jersey