References
- Crosier, R. B. (1984). “Mixture Experiments: Geometry and Pseudocomponents.” Technometrics 26, pp. 209–216.
- Crosier, R. B. (1986). “The Geometry of Constrained Mixture Experiments.” Technometrics 28, pp. 95–102.
- Kennard, R. W. and Stone, L. (1969). “Computer Aided Design of Experiments.” Technometrics 11, pp. 137–148.
- Mitchell, T. J. (1974). “An Algorithm for the Construction of ‘D-optimal’ Experimental Designs.” Technometrics 16, pp. 203–210.
- Nigam, A. K.; Gupta, S. C.; and Gupta, S. (1983). “A New Algorithm for Extreme Vertices Designs for Linear Mixture Models.” Technometrics 25, pp. 367–371.
- Piepel, G. F. (1982a). “Measuring Component Effects in Constrained Mixture Experiments.” Technometrics 24, pp. 29–39.
- Piepel, G. F. (1982b). “Calculating Centroids in Constrained Mixture Experiments.” BN-SA-1459, Battelle, Pacific Northwest Laboratories, Richland, WA.
- Piepel, G. F. (1983). “Defining Consistent Constraint Regions in Mixture Experiments.” Technometrics 25, pp. 97–101.
- Piepel, G. F. (1989). MIXSOFT and MIXSOFT USER'S GUIDE Version 1.0. MIXSOFT—Mixture Experiment Software, Richland, WA.
- Piepel, G. F.; Mellinger, G. B.; and Reimus, M. A. H. (1989). “A Statistical Approach for Characterizing Chemical Durability Within a Waste Glass Compositional Region.” Waste Management 9, pp. 3–11.
- Plackett, R. L. and Burman, J. P. (1946). “The Design of Optimum Multifactorial Experiments.” Biometrika 33, pp. 305–325.
- Snee, R. D. and Marquardt, D. W. (1974). “Extreme Vertices Designs for Linear Mixture Models.” Technometrics 16, pp. 399–408.
- Snee, R. D. and Marquardt, D. W. (1976). “Screening Concepts and Designs for Experiments With Mixtures.” Technometrics 18, pp. 19–29.
- Welch, W. J. (1987). ACED: Algorithms for the Construction of Experimental Designs, Version 1.6.1. University of Waterloo, Waterloo, Ontario, Canada.