References
- Box, G. E. P. and Draper, N. R. (1987). Empirical Model-Building and Response Surfaces. John Wiley & Sons, New York, NY.
- Carlyle, W. M.; Montgomery, D. C; and Runger, G. C. (2000). “Optimization Problems and Methods in Quality Control and Improvement”. Journal of Quality Technology 32, pp. 1–31.
- Chiao, C. and Hamada, M. (2001). “Analyzing Experiments with Correlated Multiple Responses”. Journal of Quality Technology 33, pp. 451–465.
- Copeland, K. A. and Nelson, P. R. (1996). “Dual Response Optimization via Direct Function Minimization”. Journal of Quality Technology 28, pp. 331–336.
- Del Castillo, E. and Montgomery, D. C. (1993). “A Nonlinear Programming Solution to the Dual Response Problem”. Journal of Quality Technology 25, pp. 199–204.
- Del Castillo, E.; Fan, S. K.; and Semple, J. (1997). “Computation of Global Optima in Dual Response Systems”. Journal of Quality Technology 29, pp. 347–353.
- Draper, N. R. (1963). “Ridge Analysis of Response Surfaces”. Technometrics 5, pp. 469–479.
- Fan, S. K. S. (2000). “A Generalized Global Optimization Algorithm for Dual Response Systems”. Journal of Quality Technology 32, pp. 444–456.
- Hoerl, A. E. (1959). “Optimum Solution of Many Variables Equations”. Chemical Engineering Progress 55, p. 69.
- Khuri, A. I. (1996). “Multiresponse Surface Methodology”. Handbook of Statistics Vol. 13, edited by S. Ghosh and C. R. Rao, Elsevier Science, Amsterdam, pp. 377–406.
- Kim, K. and Lin, D. K. J. (1998). “Dual Response Surface Optimization: A Fuzzy Modeling Approach”. Journal of Quality Technology 30, pp. 1–10.
- Kim, Y. J. and Cho, B. R. (2002). “Development of Priority-Based Robust Design”. Quality Engineering 14, pp. 355–363.
- Lin, D. K. J. and Tu, W. (1995). “Dual Response Surface Optimization”. Journal of Quality Technology 27, pp. 3439.
- Lucas, J. M. (1994). “How to Achieve a Robust Process Using Response Surface Methodology”. Journal of Quality Technology 26, pp. 248–260.
- Mäkelä, M. M. and Neittaanmäki, P. (1992). Nonsmooth Optimization: Analysis and Algorithms with Applications to Optimal Control. World Scientific Publishing Co., Singapore.
- Miettinen, K. (1999). Nonlinear Multiobjective Optimization. Kluwer Academic Publishers, Norwell, MA
- Montgomery, D. C. (2001). Design and Analysis of Experiments 5th ed. John Wiley & Sons, New York, NY.
- Myers, R. H. and Carter, W. H. (1973). “Response Surface Techniques for Dual Response Systems”. Technometrics 15, pp. 301–317.
- Myers, R. H. and Montgomery, D. C. (1995). Response Surface Methodology. John Wiley & Sons, New York, NY.
- Myers, R. H.; Khuri, A. I.; and Vining, G. G. (1992). “Response Surface Alternatives to the Taguchi Robust Parameter Design Approach”. The American Statistician 46, pp. 131–139.
- Nelder, J. A. and Mead, R. (1965). “A Simplex Method for Function Minimization”. The Computer Journal 7, pp. 306313.
- Tang, L. C. and Xu, K. (2002). “A Unified Approach for Dual Response Surface Optimization”. Journal of Quality Technology 34, pp. 437–447.
- Vining, G. G. (1998). “A Compromise Approach to Multiresponse Optimization”. Journal of Quality Technology 30, pp. 309–313.
- Vining, G. G. and Myers, R. H. (1990). “Combining Taguchi and Response Surface Philosophies: A Dual Response Approach”. Journal of Quality Technology 22, pp. 38–45.