OTE/SPH
 OTE/SPH
                              Char Count= 0
                         3:6
          August 31, 2006
 JWBK119-20
        322          A Unified Approach for Dual Response Surface Optimization
                                      REFERENCES
         1. Myers, R.H. and Carter, W.H. (1973) Response surface techniques for dual response systems.
           Technometrics, 15, 301--317.
         2. Vining, G.G. and Myers, R.H. (1990) Combining Taguchi and response surface philosophies:
           a dual response approach. Journal of Quality Technology, 22, 38--45.
         3. Del Castillo, E. and Montgomery, D.C. (1993) A nonlinear programming solution to the
           dual response problem. Journal of Quality Technology, 25, 199--204.
         4. Lin, D.K.J. and Tu, W. (1995) Dual response surface optimization. Journal of Quality Technol-
           ogy, 27, 34--39.
         5. Copeland, K.A.F. and Nelson, P.R. (1996). Dual response optimization via direct function
           minimization. Journal of Quality Technology, 28, 331--336.
         6. Ames, A.E., Mattucci, N., Macdonald, S., Szonyi, G. and Hawkins, D.M. (1997) Quality loss
           functions for optimization across multiple response surfaces. Journal of Quality Technology,
           29, 339--346.
         7. Kim, K.K., and Lin, D.K.J. (1998) Dual response surface optimization: A fuzzy modeling
           approach. Journal of Quality Technology, 30, 1--10.
         8. Derringer, G. and Suich, R. (1980) Simultaneous optimization of several response variables.
           Journal of Quality Technology, 12, 214--219.
         9. Vining, G.G. (1998) A compromise approach to multiple response optimization. Journal of
           Quality Technology, 30, 309--313.
        10. Khuri, A.I. and Conlon, M. (1981) Simultaneous optimization of multiple responses repre-
           sented by polynomial regression functions. Technometrics, 23, 363--375.
        11. Pignatielio Jr., J.J. (1993) Strategies for robust multiresponse quality engineering. IIE Trans-
           actions, 25, 5--15.
        12. Ignizio, J.P. (1976). Goal Programming and Extensions. Lexington, MA: Lexington Books.
        13. Taha, H.A. (1997) Operations Research, 6th edition. Upper Saddle River, NJ: Prentice Hall.
        14. Censor Y. (1977) Pareto optimality in multiobjective problems. Applied Mathematics and
           Optimization, 4, 41--59.
        15. Del Castillo, E., Fan, S.K. and Semple, J. (1997) The computation of global optima in dual
           response systems. Journal of Quality Technology, 29, 347--353.
        16. Del Castillo, E., Fan, S.K. and Semple J. (1999) Optimization of dual response systems: a
           comprehensive procedure for degenerate and nondegenerate problems. European Journal of
           Operationals Research, 112, 174--186.
        17. Fan, S.K. (2000) A generalized global optimization algorithm for dual response systems.
           Journal of Quality Technology, 32, 444--456.
        18. Box, G.E.P and Draper, N.R. (1987) Empirical Model Building and Response Surfaces. New
           York: John Wiley & Sons, Inc.
        19. Myers, R.H. and Montgomery, D.C. (1995) Response Surface Methodology. New York: John
           Wiley & Sons, Inc.
        20. Khuri, A. and Cornell, J. (1996) Response Surfaces: Designs and Analysis, New York: Dekker.
        21. Myers, R.H. (1999) Response surface methodology -- current status and future directions.
           Journal of Quality Technology 31, 30--44.
        22. Cohon, J.L. (1978) Multiobjective Programming and Planning. New York: Academic Press.
        23. Ehrgott, M. (2000) Multicriteria Optimization. New York, Springer-Verlag.
        24. Vining, G.G. and Schaub, D. (1996) Experimental designs for estimating both mean and
           variance function. Journal of Quality Technology, 28, 135--147.