___

• Neyman, J., Outline of a theory of statistical estimation based on the classical theory of probability, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences 236(767), (1937), 333--380.
• Tate, R. F., and Klett, G. W., Optimal confidence intervals for the variance of a normal distribution, Journal of the American statistical Association 54(287), (1959), 674--682.
• Dunn, O., Multiple comparisons among means, Journal of the American Statistical Association 56(293), (1961), 52--64.
• Dunn, O., Multiple comparisons using rank sums, Technometrics 6(3), (1964), 241--252.
• Chew, V., Confidence, prediction, and tolerance regions for the multivariate normal distribution, Journal of the American Statistical Association 61(315), (1966), 605--617.
• Sidak, Z., Rectangular confidence regions for the means of multivariate normal distributions, Journal of the American Statistical Association 62(318), (1967), 626--633.
• Hu, Z., and Yang, R.-C., A new distribution-free approach to constructing the confidence region for multiple parameters, PloS one 8(12), (2013), e81179.
• Mammen, E., and Polonik, W., Confidence regions for level sets, Journal of Multivariate Analysis 122, (2013), 202--214.
• Martin, R., Random sets and exact confidence regions, Sankhya A 76(2), (2014), 288--304.
• Rambaud-Althaus, C., Althaus, F., Genton, B., and D'Acremont, V., Clinical features for diagnosis of pneumonia in children younger than 5 years: a systematic review and meta-analysis, The Lancet Infectious Diseases 15(4), (2015), 439--450.
• Harrar, S., and Xu, J., Confidence regions for level differences in growth curve models, Journal of Statistical Planning and Inference 175, (2016), 11--24.
• Öztürk, F., and Karabulut, İ.,Interval Estimators for the Parameters of the Normal Distribution, Commun.Fac.Sci.Univ.Ank.Series A1 55(1), (2006), 23--32.
• Ünsal, Ü., Determining Polygonal Confidence Zone with Artificial Bee Colony Algorithm and an Application in Mines, MSc Thesis, Karadeniz Technical University, Turkey, 2014.
• Kesemen O., Tiryaki, B. K., Özkul, E. and Tezel, Ö., Determination of the Confidence Intervals for Multimodal Probability Density Functions, Gazi University Journal of Science 31(1), (2018) 310--326.
• Kesemen O., Tiryaki, B. K. and Uluyurt, T., A Novel Approximation for Computation Bivariate Distribution Functions in Polygonal Area, Gümüşhane Üniversitesi Fen Bilimleri Enstitüsü Dergisi 9(1), (2019) 88--98.
• Douglas, D., and Peucker, T., Algorithms for the reduction of the number of points required to represent a digitized line or its caricature, Cartographica: The International Journal for Geographic Information and Geovisualization 10(2), (1973), 112--122.
• Kesemen O. and Tiryaki, B. K., Non-Uniform Random Number Generation from Arbitrary Bivariate Distribution in Polygonal Area, Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 22(2), (2018), 443--457.
• Chew, L., Constrained delaunay triangulations, Algorithmica 4(1-4), (1989), 97--108.
• Thacker, W. C., A brief review of techniques for generating irregular computational grids, International Journal for Numerical Methods in Engineering 15(9), (1980), 1335-1341.
• Fulton, S. R., Ciesielski, P. E., and Schubert, W. H., Multigrid methods for elliptic problems: A review. Monthly Weather Review 114 (5), (1986), 943-959.
• Sulman, M., Williams, J. F., and Russell, R. D., Optimal mass transport for higher dimensional adaptive grid generation, Journal of computational physics 230(9), (2011), 3302-3330.
• Stilitz, I., and Yitzhaky, J., The effect of grid size on street location time in maps, Applied ergonomics 10(4), (1979), 235-239. Özmen, B., Nurlu, M., and Güler, H., Coğrafi Bilgi Sistemi ile Deprem Bölgelerinin İncelenmesi, Bayındırlık ve İskan Bakanlığı, Afet İşleri Genel Müdürlüğü, Ankara, 1997.