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Transformation von Zufallsvariablen

1960; Akademie-Verlag; Volume: 2; Issue: 3 Linguagem: Norueguês

10.1002/bimj.19600020303

1521-4037

H. Grimm,

Bacterial Identification and Susceptibility Testing

Biometrische ZeitschriftVolume 2, Issue 3 p. 164-182 Originalarbeiten Transformation von Zufallsvariablen H. Grimm, H. Grimm Deutsche Akademie der Wissenschaften zu Berlin Institut für Mikrobiologie und experimentelle Therapie Jena Nach einem Übersichtsreferat, gehalten auf dem 7. Biometrischen Colloquium in Bad Nauheim vom 22. bis 24. 1. 1960.Search for more papers by this author H. Grimm, H. Grimm Deutsche Akademie der Wissenschaften zu Berlin Institut für Mikrobiologie und experimentelle Therapie Jena Nach einem Übersichtsreferat, gehalten auf dem 7. Biometrischen Colloquium in Bad Nauheim vom 22. bis 24. 1. 1960.Search for more papers by this author First published: 1960 https://doi.org/10.1002/bimj.19600020303Citations: 28 AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References 1 Aitchison, J. & Brown, I. A. C., 1957: The Lognormal Distribution. Cambridge Univ. Press, Cambridge. Google Scholar 2 Aitchison, J. & Silvey, S. D., 1957: The generalization of probit analysis to the case of multiple responses. Biometrika 44, 131–140. 10.1093/biomet/44.1-2.131 Web of Science®Google Scholar 3 Anscombe, F. J., 1948: The transformation of Poisson, binomial and negative-binomial data. Biometrika 35, 246–254. 10.1093/biomet/35.3-4.246 Web of Science®Google Scholar 4 Anscombe, F. J., 1949: Note on a problem in probit analysis. AAB 36, 203–205. CASPubMedWeb of Science®Google Scholar 5 Anscombe, F. J., 1950: Table of the hyperbolic transformation. JRSS A 113, 228. 10.2307/2981042 Web of Science®Google Scholar 6 Anscombe, F. J., 1956: On estimating binomial response relations. Biometrika 43, 461–464. 10.1093/biomet/43.3-4.461 Web of Science®Google Scholar 7 Bagenal, M., 1955: A note on the relations of certain parameters following a logarithmic transformation. Journ. Mar. Biol. Ass. U. K. 34, 289–296. 10.1017/S0025315400027661 Web of Science®Google Scholar 8 Baker, G. A., 1930: Transformations of bimodal distributions. AMSt 1, 334–344. Google Scholar 9 Baker, G. A., 1934: Transformation of non-normal frequency-distributions into normal distributions. AMSt 5, 113. Google Scholar 10 Bartlett, M. S., 1936: The square root transformation in the analysis of variance. JRSS Suppl. 3, 68–78. 10.2307/2983678 Google Scholar 11 Bartlett, M. S., 1947: The use of transformations. Biometrics 3, 39–52. 10.2307/3001536 CASPubMedWeb of Science®Google Scholar 12 Bartlett, M. S. & Kendall, D. G., 1946: The statistical analysis of variance-heterogeneity and the logarithmic transformation. JRSS Suppl. 7, 128–138. Google Scholar 13 Baten, W. D. & Henderson, E. W., 1941: A method of handling ratios by the analysis of variance. Poultry Science 20, 227–231. 10.3382/ps.0200227 Google Scholar 14 Beali, G., 1942: The transformation of data from entomological field experiments so that the analysis of variance becomes applicable. Biometrika 32, 243–262. 10.1093/biomet/32.3-4.243 Google Scholar 15 Beall, G., 1954: Data in binomial or near-binomial distribution (= Kap. 22 in Statistics and Mathematics in Biology ed. by Kempthorne et al. Ames, Iowa). Google Scholar 16 Bennett, B. M., 1956, 1957: On the variance stabilizing properties of certain logarithmic transformations. Trabajos Estadist. 7, 295–297 and 8, 69–74. 10.1007/BF03003967 Google Scholar 17 Berkson, J., 1944: Application of the logistic function to bioassay. JASA 39, 357–365. 10.2307/2280041 CASWeb of Science®Google Scholar 18 Berkson, J., 1957: Tables for use in estimating the normal distribution function by normit analysis. Biometrika 44, 411–435. Web of Science®Google Scholar 19 Berkson, J., 1951: Why I prefer logits to probits. Biometrics 7, 327–339. 10.2307/3001655 Web of Science®Google Scholar 20 Berkson, J., 1953: A statistically precise and relatively simple method of estimating the bioassay with quantal response, based on the logistic function. JASA 48, 565–599. 10.2307/2281010 Web of Science®Google Scholar 21 Berkson, J., 1957: Tables for the maximum likelihood estimate of the logistic function. Biometrics 13, 28–34. 10.2307/3001900 Web of Science®Google Scholar 22 Berkson, J., 1960: Problems recently discussed regarding estimating the logistic curve. Bull. Internat. Statist. Inst., Brüssel 37, III, 207–211. Google Scholar 23 Biggers, J. D. & Claringbold, P. J., 1954: The angular transformation in quantal analysis. Biometrics 10, 570. Google Scholar 24 Bliss, C. I., 1935: The calculation of the dosage-mortality curve. AAB 22, 134–167. CASGoogle Scholar 25 Bliss, C. I., 1935: The comparison of dosage-mortality data. AAB 22, 307–333. CASGoogle Scholar 26 Bliss, C. I., 1937: The calculation of the time-mortality curve. AAB 24, 815–825. CASGoogle Scholar 27 Bliss, C. I., 1937: The analysis of field experimental data expressed in percentages. Plant Protection 12, 67–77. Google Scholar 28 Bliss, C. I., 1938: The transformation of percentages for use in the analysis of variance. Ohio J. Sci. 38, 9–12. Google Scholar 29 Bliss, C. I., 1938: The determination of the dosage-mortality curve from small numbers. Quart. J. Pharm. Pharmacol. 11, 192–216. Google Scholar 30 Bliss, C. I., 1952: The Statistics of Bioassay, with Special Reference to the Vitamins. Academic Press, New York. Google Scholar 31 Bliss, C. I., 1956: Confidence limits for measuring the precision of bioassays. Biometrics 12, 491–526. 10.2307/3001687 CASWeb of Science®Google Scholar 32 Bliss, C. I., 1956: The analysis of insect counts as negative binomial distributions. Proc. 10. Intern. Congr. Entom. 1956. Google Scholar 33 Bliss, C. I., 1958: Periodic Regression in Biology and Climatology. The Connecticut Agricultural Experiment Station, Bulletin 615, 21–30. Google Scholar 34 Bliss, C. I. & Calhoun, D. W., 1954: An Outline of Biometry. Yale Cooperative Corp., New Haven, Connectitut. Google Scholar 35 Bliss, C. I., Greenwood, M. L. & White, E. S., 1956: A rankit analysis of paired comparisons for measuring the effect of sprays on flavor. Biometrics 12, 381–403. 10.2307/3001679 CASWeb of Science®Google Scholar 36 Bliss, C. I. & Owen, A. R. G., 1958: Negative binomial distributions with a common k. Biometrika 45, 37–58. 10.1093/biomet/45.1-2.37 Web of Science®Google Scholar 37 Blom, G., 1954: Transformations of the binomial, negative binomial, Poisson and x2-distributions. Biometrika 41, 302–316. Web of Science®Google Scholar 38 Blom, G., 1958: Statistical Estimates and Transformed Beta-Variables. Stockholm. Google Scholar 39 Boeri, E., 1950: On the mathematical theory of the equilibrium of interactions between proteins and other substances. Biometrics 6, 342–343. 10.2307/3001840 CASPubMedWeb of Science®Google Scholar 40 Borth, R. et al, 1957: Grundlagen der statistischen Auswertung biologischer Bestimmungen. Arch. Gynäk. 188, 497–538. 10.1007/BF00985483 CASPubMedGoogle Scholar 41 Box, G. E. P., 1949: A general distribution theory for a class of likelihood criteria. Biometrika 36, 317–346. 10.1093/biomet/36.3-4.317 CASPubMedWeb of Science®Google Scholar 42 Box, G. E. P., 1953: Non-normality and tests on variances. Biometrika 40, 318–335. 10.1093/biomet/40.3-4.318 Web of Science®Google Scholar 43 Bross, I., 1958: How to use ridit analysis. Biometrics 14, 18–38. 10.2307/2527727 Web of Science®Google Scholar 44 Cavalli, L. L., 1950: The analysis of selection curves. Biometrics 6, 208–220. 10.2307/3001503 Web of Science®Google Scholar 45 Cavalli-Sforza, L. L., 1956: Biometry of immune response. Arb. Paul Ehrl. Inst. 52, 22–38. CASPubMedGoogle Scholar 46 Chernoff, H. & Liebermann, G. J., 1954: Use of normal probability paper. JASA 49, 778–785. 10.1080/01621459.1954.10501234 Web of Science®Google Scholar 47 Claringbold, P. J., 1955: Matrices in quantal analysis. Biometrics 11, 481–501. 10.2307/3001726 Web of Science®Google Scholar 48 Claringbold, P. J., Biggers, J. D. & Emmens, C. W., 1953: The angular transformation in quantal analysis. Biometrics 9, 467–484. 10.2307/3001438 Web of Science®Google Scholar 49 Clark, A., & Leonard, W. H., 1939: The analysis of variance with special reference to data expressed in percentages. Journ. Amer. Soc. Agronomy, 31, 55–66. 10.2134/agronj1939.00021962003100010008x Google Scholar 50 Cochran, W. G., 1940: The analysis of variance when experimental errors follow the Poisson or binomial laws. AMSt 11, 335–347. Google Scholar 51 Cochran, W. G., 1943: Analysis of variance for percentages based on unequal numbers. JASA 38, 287–301. Web of Science®Google Scholar 52 Cochran, W. G., 1947: Some consequences when the assumptions for the analysis of variance are not satisfied. Biometrics 3, 22–38. 10.2307/3001535 CASPubMedWeb of Science®Google Scholar 53 Cochran, W. G., 1957: Analysis of covariance: its nature and uses. Biometrics 13, 261–281. 10.2307/2527916 Web of Science®Google Scholar 54 Cohen, A. C. Jr., 1951: Estimating parameters of logarithmic-normal distributions by maximum likelihood. JASA 46, 206–212. 10.1080/01621459.1951.10500781 Web of Science®Google Scholar 55 Comrie, L. J., 1939: Tables of tan−1 and log (1 + x2) in Tracts for Computers. Dept. Stat. Univ. Coll. London, Table XXIII. Google Scholar 56 Curtiss, J. H., 1943: On transformations used in the analysis of variance. AMSt 14, 107–122. Google Scholar 57 David, F. N., 1955: The transformation of discrete variables. Ann. Human Genetics 19, 174–182. 10.1111/j.1469-1809.1955.tb01342.x CASPubMedGoogle Scholar 58 David, F. N. & Johnson, N. L., 1951: The effect of non-normality on the power function of the F-test in the analysis of variance. Biometrika 38, 43–57. 10.1093/biomet/38.1-2.43 CASPubMedWeb of Science®Google Scholar 59 Deming, W. E., 1946: Statistical Adjustment of Data. Wiley, New York, pp. 18–45. Google Scholar 60 Dews, P. B. & Berksok, J., 1954: On the error of bioassay with quantal response. (= Kap. 27 in Statistics and Mathematics in Biology, ed. by Kempthorne et al. Ames, Iowa). Google Scholar 61 Draper, J., 1952: Properties of distributions resulting from certain simple transformations of the normal distribution. Biometrika 39, 290–301. 10.1093/biomet/39.3-4.290 Web of Science®Google Scholar 62 Drion, E. F., 1936: On the interpretation of frequency in biology. Thèse, Leiden. Recueil des travaux botaniques neérlandais 33, 78–132. Google Scholar 63 Druckrey, H., 1953: Dosis und Wirkung. Arzneimittelforschung 3, 394–398. CASPubMedWeb of Science®Google Scholar 64 Druckrey, H., 1959: Linear titration curves. Science 129, 1492. 10.1126/science.129.3361.1492 CASPubMedWeb of Science®Google Scholar 65 Dyke, G. V. & Patterson, H. D., 1952: Analysis of factorial arrangements when the data are proportions. Biometrics 8, 1–12. 10.2307/3001521 Web of Science®Google Scholar 66 Edgeworth, F., 1924: On the representation of statistics by mathematical formulae. JRSS 87, 571–594. 10.1111/j.2397-2335.1924.tb01710.x Google Scholar 67 Eisenhart, Ch., 1947: The assumptions underlying the analysis of variance. Biometrics 3, 1–21. 10.2307/3001534 CASPubMedWeb of Science®Google Scholar 68 Eisenhart, Ch., 1947: Inverse sine transformation of proportions. (= Kap. 16 Selected Techniques of Statistical Analysis by the Statistical Research Group, Columbia Univ. New York, pp. 395–416). Google Scholar 69 Federer, W. T., 1955: Experimental Design. MacMillan Comp. New York, pp. 45–51. Google Scholar 70 Finney, D. J., 1941: On the distribution of a variate whose logarithm is normally distributed. JRSS Suppl. 7, 155–161. Google Scholar 71 Finney, D. J., 1951: The estimation of bacterial densities from dilution series. Journal Hygiene 49, 26–35. 10.1017/S0022172400015333 CASPubMedWeb of Science®Google Scholar 72 Finney, D. J., 1952: Statistical Method in Biological Assay. Griffin, London. Google Scholar 73 Finney, D. J., 1952: Probit Analysis. 2nd ed., Cambr. Univ. Press, Cambridge. (Engl.). Google Scholar 74 Fisher, R. A., 1922: On the dominance ratio. Proc. Roy. Soc. Edinburgh 42, 321–341. 10.1017/S0370164600023993 Google Scholar 75 Fisher, R. A., 1949: A preliminary linkage test with Agouti and Undulated mice. Heredity 3, 229–241. 10.1038/hdy.1949.16 Web of Science®Google Scholar 76 Fisher, R. A., 1949: The Design of Experiments. 5. ed., Oliver and Boyd, London. Google Scholar 77 Fisher, R. A., 1950: Gene frequencies in a cline determined by selection and diffusion Biometrics 6, 353–361. 10.2307/3001780 CASPubMedWeb of Science®Google Scholar 78 Fisher, R. A., 1954: The analysis of variance with various binomial transformations. Biometrics 10, 130–139. 10.2307/3001667 Web of Science®Google Scholar 79 Fisher, R. A. & Mather, K., 1936: A linkage test with mice. Ann. Eugen. 7, 265–280. 10.1111/j.1469-1809.1936.tb02145.x Google Scholar 80 Fisher, R. A. & Mather, K., 1943: The inheritance of style-length in Lythrum salicaria. Ann. Eugen. 12, 1–23. 10.1111/j.1469-1809.1943.tb02307.x PubMedGoogle Scholar 81 Fisher, R. A. & Yates, F., 1957: Statistical Tables for Biological, Agricultural and Medical Research. 5. ed., Oliver and Boyd, Edinburgh. Google Scholar 82 Freeman, M. F. & Tukey, J. W., 1950: Transformations related to the angular and the square root. AMSt 21, 607–611, Google Scholar and Abstract in Biometrics 6, 180. Google Scholar 83 Gaddum, J. H., 1945: Lognormal distributions. Nature 156, 463. 10.1038/156463a0 Web of Science®Google Scholar 84 Gayen, A. K., 1952: The inverse hyperbolic sine transformation on Student's for non-normal samples. Sankhyä 12, 105–108. Web of Science®Google Scholar 85 Geary, R. C., 1947: Testing for normality. Biometrika 34, 209–242. 10.1093/biomet/34.3-4.209 CASPubMedWeb of Science®Google Scholar 86 Greenberg, B. G. & Sarhan, A. E., 1958: Some applications of order statistics. Bull. ISI 36, III, 172–182. Google Scholar 87 Grimm, H., 1960: Einige Probleme der Bakterienzählung. Erscheint in Biométrie-Praximétrie. Google Scholar 88 Grundy, P. M., 1952: The fitting of grouped truncated and grouped censored normal distributions. Biometrika 39, 252–259. 10.1093/biomet/39.3-4.252 Web of Science®Google Scholar 89 Hackenberg, U. & Bartling, H., 1959: Messen und Rechnen im pharmakologischen Laboratorium mit einem speziellen Zahlensystem. Naunyn-Schmiedeberg 235, 437–463. 10.1007/BF00246706 CASPubMedWeb of Science®Google Scholar 90 Hald, A., 1952: Statistical Theory with Engineering Applications. New York. Google Scholar 91 Haldane, J. B. S., 1956: The estimation and significance of the logarithm of a ratio of frequencies. Ann. Human Genetics 20, 309–311. 10.1111/j.1469-1809.1955.tb01285.x CASPubMedWeb of Science®Google Scholar 92 Harberd, D. J., 1956: Correlated characters in population studies. New Phytologist 55, 154–163. 10.1111/j.1469-8137.1956.tb05277.x Google Scholar 93 Harley, B. I., 1956: Some properties of an angular transformation for the correlation coefficient. Biometrika 43, 219–224. 10.1093/biomet/43.1-2.219 Web of Science®Google Scholar 94 Hayashi, K., 1926: Sieben- und mehrstellige Tafeln der Kreis- und Hyperbelfunktion. Springer, Berlin. 10.1007/978-3-662-29757-5 Google Scholar 95 Healy, M. J. R., 1950: The planning of probit assays. Biometrics 6, 424–431. 10.2307/3001786 CASPubMedWeb of Science®Google Scholar 96 Henning, H.-J. & Wartmann, R., 1958: Auswertung spärlicher Versuchsdaten im Wahrscheinlichkeitsnetz. Ärztl. Forschung 12, I, 60–66. Google Scholar 97 Herdan, G., 1958: Study of quantitative linguistics. Biometrika 45, 222–228. 10.1093/biomet/45.1-2.222 Web of Science®Google Scholar 98 Hodges, J. L. Jr., 1958: Fitting the logistic by maximum likelihood. Biometrics 14 453–461. 10.2307/2527513 Web of Science®Google Scholar 99 Horst, P., 1933: A method of transforming any unimodal frequency distribution into a normal one. J. Educational Psychol. 24, 129–139. 10.1037/h0075013 Google Scholar 100 Hotelling, H. & Frankel, L. R., 1938: The transformation of statistics to simplify their distribution. AMSt 9, 87–96. Google Scholar 101 Ipsen, J. & Jerne, K., 1944: Graphical evaluation of the distribution of small experimental series. Acta Pathol. 21, 343–361. 10.1111/j.1699-0463.1944.tb04945.x Google Scholar 102 Ipsen, J., 1955: Appropriate scores in bioassays using death-times and survivor symptoms. Biometrics 11, 465–480. 10.2307/3001725 Web of Science®Google Scholar 103 Johnson, N. L., 1949: Systems of frequency curves generated by methods of translation Biometrika 86, 149–176. 10.1093/biomet/36.1-2.149 Google Scholar 104 Johnson, N. L., 1949: Bivariate distribution based on simple translation systems. Biometrika 36, 297–304. 10.1093/biomet/36.3-4.297 CASPubMedWeb of Science®Google Scholar 105 Jolly, G. M., 1950: The use of probits in combining percentage kills. AAB 37, 597–606. Web of Science®Google Scholar 106 Kapteyn, J. C. & van Uven, M. J., 1916: Skew Frequency Curves in Biology and Statistics. Groningen. Google Scholar 107 Kendall, M. G., 1948: The Advanced Theory of Statistics, Vol. II. 2. ed., Griffin, London. Google Scholar 108 Kleczkowski, A., 1949: The transformation of local lesion counts for statistical analysis. AAB 36, 145–152. Google Scholar 109 Kleczkowski, A., 1953: A method for testing results of infectivity tests with plant viruses for compatibility with hypotheses. Journ. General Microbiology 8, 295–301. 10.1099/00221287-8-2-295 CASPubMedWeb of Science®Google Scholar 110 Kleczkowski, A., 1955: The statistical analysis of plant virus assays: a transformation to include lesion numbers with small means. Journ. General Microbiology 13, 91–98. 10.1099/00221287-13-1-91 CASPubMedWeb of Science®Google Scholar 111 Knudson, L. F. & Curtiss, J. M., 1947: The use of angular transformation in biological assay. JASA 42, 282–296. 10.1080/01621459.1947.10501927 PubMedWeb of Science®Google Scholar 112 Mahalanobis, P. C., 1932: Statistical notes for agricultural workers. Auxiliary tables for Fisher's z-test in analysis of variance. Indian J. Agric. Sci. 2, 679–693. Google Scholar 113 Martin, L., 1958: Analyse et ajustement des courbes de fréquences unimodales par la méthode des probits. Bull. Inst. Intern. Statistique (Stockholm) 86, III, 43–59. Google Scholar 114 Masuyama, M., 1954: Graphical Method of Statistical Inference. Maruzen, Tokyo. Google Scholar 115 Miller, L. D., 1950: Biological assays involving quantal responses. Ann. New York Acad. Sci. 53, 903–919. 10.1111/j.1749-6632.1950.tb53982.x CASPubMedWeb of Science®Google Scholar 116 Moore, P. G. & Tukey, J. W., 1954: Answer to Query 112. Biometrics 10, 562–568. 10.2307/3001625 Google Scholar 117 Morgan, W. A., 1939: A test for the significance of the difference between two variances in a sample from a bivariate population. Biometrika 31, 13–19. 10.1093/biomet/31.1-2.13 PubMedWeb of Science®Google Scholar 118 Morrison, J., 1958: The lognormal distribution in quality control. Appl. Statistics VII, Heft 3. Google Scholar 119 Mosteller, F. & Tukey, J. W., 1949: The uses and usefulness of binomial probability paper. JASA 44, 174–212. CASPubMedWeb of Science®Google Scholar 120 Pitman, E. J. G., 1939: A note on normal correlation. Biometrika 81, 9–12. 10.1093/biomet/31.1-2.9 Google Scholar 121 Quenouille, M. H., 1952: Associated Measurements. London. Google Scholar 122 Quenouille, M. H., 1957: The effect of transformations of variables upon their correlation coefficients. Biometrika 44, 272–273. 10.1093/biomet/44.1-2.272 Web of Science®Google Scholar 123 Rao, C. R., 1952: Advanced Statistical Methods in Biometric Research. New York. Google Scholar 124 Rao, C. R., 1958: Some statistical methods for comparison of growth curves. Biometrics 14, 1–17. 10.2307/2527726 Web of Science®Google Scholar 125 Rietz, H. L., 1927: On certain properties of frequency distributions of the powers and roots of the variates of a given distribution. Proc. Nat. Acad. Sci. 13, 817–820. 10.1073/pnas.13.12.817 CASPubMedGoogle Scholar 126 Schindowski, E. & Schürz, O., 1957: Einführung in die Verfahren der statistischen Qualitätskontrolle XIV. Das Binomialpapier. Fertigungstechnik 7, 465–468. Google Scholar 127 Sheps, M. C., 1958: A minimum error table for parallel line biological assays. Journ. Pharm. & Exp. Ther. 124/1, 94. Web of Science®Google Scholar 128 Sheps, M. C., 1959: An examination of some methods of comparing several rates or proportions. Biometrics 15, 87–97. 10.2307/2527603 Web of Science®Google Scholar 129 Sheps, M. C. & Munson, P. L., 1957: The error of replicated potency estimates in a biological assay method of the parallel line type. Biometrics 13, 131–148. 10.2307/2527797 CASWeb of Science®Google Scholar 130 Silverstone, H., 1957: Estimating the logistic curve. JASA 52, 567–577. Web of Science®Google Scholar 131 Srivastava, A. B. L., 1959: Effect of non-normality on the power of the analysis of variance test. Biometrika 46, 114–122. 10.1093/biomet/46.1-2.114 Web of Science®Google Scholar 132 Statistical Research Group, Columbia University. 1946. Sequential Analysis of Statistical Data: Applications. Columbia Univ. Press, New York. Google Scholar 133 Stevens, W. L., 1937: The truncated normal distribution. AAB 24, 847–850. PubMedWeb of Science®Google Scholar 134 Stevens, W. L., 1953: Tables of the angular transformation. Biometrika 40, 70–73. 10.1093/biomet/40.1-2.70 Web of Science®Google Scholar 135 Tamassy, E., 1959: The application of the probit analysis to odontological research. Intern. Stat. Seminar, Budapest. Google Scholar 136 Tarnowski, G. S. & Bross, I. D. J., 1959: Ridit analysis of the effects of carcinostatic chemicals on the growth indices of the Nelson mouse ascites tumor. Cancer Res. 16, 581–590. Google Scholar 137 Thompson, H. R., 1951: Truncated lognormal distributions. Biometrika 38, 414–422. Web of Science®Google Scholar 138 Tippett, L. H. C., 1934: Statistical methods in textile research. Part 2. Uses of the binomial and Poisson distributions. Shirley Inst. Mem. 13, 35–72. Google Scholar 139 Tocher, K. D., 1950: Extension of the Neyman-Pearson theory of tests to discontinuous variates. Biometrika 37, 130–144. 10.1093/biomet/37.1-2.130 CASPubMedWeb of Science®Google Scholar 140 Tukey, J. W., 1949: One degree of freedom for non-additivity. Biometrics 5, 232–242. 10.2307/3001938 Web of Science®Google Scholar 141 Tukey, J. W., 1955: Answer to Query 113. Biometrics 11, 111–113. 10.2307/3001486 Google Scholar 142 Votaw, D. F. Jr., 1948: Testing compound symmetry in a normal multivariate distribution. AMSt 19, 447–473. Web of Science®Google Scholar 143 Weber, E., 1957: Grundriß der biologischen Statistik, 3. Aufl., Jena. Google Scholar 144 White, R. F. & Graca, J. G., 1958: Multinomially grouped response times for the quantal response bioassay. Biometrics 14, 462–488. 10.2307/2527514 CASWeb of Science®Google Scholar 145 Wilks, S. S., 1946: Sample criteria for testing equality of means, equality of variances and equality of covariances in a normal multivariate distribution. AMSt 17, 257–281. Web of Science®Google Scholar 146 Williams, C. B., 1937: The use of logarithms in the interpretation of certain entomological problems. AAB 24, 404–414. Google Scholar 147 Williams, C. B., 1953: Answer to Query 103. Biometrics 9, 425–427. 10.2307/3001715 Google Scholar 148 Yates, F., 1955: The use of transformations and maximum likelihood in the analysis of quantal experiments involving two treatments. Biometrika 42, 382–403. Web of Science®Google Scholar 149 Zubin, J., 1936: Note on a transformation function for proportions and percentages. Journ. Appl. Psychology 19, 213–220. Sonstige in der Arbeit zitierte Literatur 10.1037/h0057566 Google Scholar 150 Box, G. E. P., 1958: Use of statistical methods in the elucidation of basic mechanisms. Bull. Intern. Stat. Inst. 36, III, 215–225. Google Scholar 151 Box, G. E. P. & Lucas, H. L., 1959: Design of experiments in non-linear situations. Biometrika 46, 77–90. 10.1093/biomet/46.1-2.77 Web of Science®Google Scholar 152 Cramér, H., 1946: Mathematical Methods of Statistics. Princeton Univ. Press. Google Scholar 153 Fraser, D. A. S., 1957: Nonparametric Methods in Statistics. Wiley, New York. Google Scholar 154 Gnedenko, B. W. & Kolmogoroff, A. N., 1959: Grenzverteilungen von Summen unabhängiger zufälliger Größen. Akademie-Verlag, Berlin. Google Scholar 155 McCall, W. A.; 1939: Measurement. McMillan, New York. Google Scholar 156 Pearson, E. S. & Hartley, H. O., 1954: Biometrika Tables for Statisticians, Vol. I. Cambridge. Google Scholar 157 Roy, S. N., 1958: Some Aspects of Multivariate Analysis. Ind. Stat. Inst. Calcutta. Google Scholar 158 Savage, I. R., 1957: Nonparametric statistics. JASA 52, 331–344. Web of Science®Google Scholar 159 Siegel, S., 1956: Nonparametric Statistics for the Behavioral Sciences. McGraw Hill B. Comp., New York. Google Scholar Citing Literature Volume2, Issue31960Pages 164-182 ReferencesRelatedInformation