Inferência informal e inferência “informal”

Referencias

BARNETT, V. (1982). Comparative statistical inference (2nd ed.). New York: Wiley. BATANERO, C. & BOROVCNIK, M. (2016). Statistics and probability in high school. Rotterdam: Sense Publishers. BEN-ZVI, D., MAKAR, K., & GARFIELD, J. (2018). International handbook of research in statistics education. Cham, Switzerland: Springer International. BIEHLER, R. (2014). On the delicate relation between informal statistical inference and formal statistical inference. In K. Makar (Ed.), Proceedings of the Ninth International Conference on Teaching Statistics. The Hague: ISI. BOROVCNIK, M. (1996). Trends und Perspektiven in der Stochastik-Didaktik [Trends and perspectives in the didactics of stochastics]. In: G. Kadunz, H. Kautschitsch, G. Ossimitz, & E. Schneider (Eds.): Trends und Perspektiven (pp. 39-60). Wien: HPT. BOROVCNIK, M. (2006a). Daten – Zufall – Resampling [Data–randomness–resampling]. In J. Meyer (Ed.), Anregungen zum Stochastikunterricht Band 3. Tagungsband 2004/5 des Arbeitskreises “Stochastik in der Schule” (p. 143-158). Berlin: Franzbecker. BOROVCNIK, M. (2006b). On outliers, statistical risks, and a resampling approach towards statistical inference. Paper presented at CERME V). Larnaka. BOROVCNIK, M. (2017). Informal inference – Some thoughts to reconsider. In Proceedings of the 61st World Statistics Congress. The Hague: ISI. BOROVCNIK, M. (n.d.). Spreadsheets in Statistics Education. Online: wwwg.uni-klu.ac.at/stochastik.schule/Boro/index_inhalt. BROUSSEAU, G. (1984). Le rôle central du contrat didactique dans l’analyse et la construction des situations. Non-published paper. CARRANZA, P. & KUZNIAK, A. (2008). Duality of probability and statistics teaching in French education. In C. Batanero, G. Burrill, C. Reading, & A. Rossman (Eds.), Joint ICMI/IASE Study: Teaching Statistics in School Mathematics. Challenges for Teaching and Teacher Education. Monterrey: ICMI and IASE. COBB, G.W. (2007). The introductory statistics course: A Ptolemaic curriculum? Technology Innovations in Statistics Education 1(1). DELMAS, R. (2017). A 21st century approach towards statistical inference – Evaluating the effects of teaching randomization methods on students’ conceptual understanding. In Proceedings of the 61st World Statistics Congress. The Hague: ISI. EFRON, B., & TIBSHIRANI, R. J. (1993). An introduction to the bootstrap. New York – London: Chapman & Hall. ENGEL, J. (2010). On teaching bootstrap confidence intervals. In C. Reading (Ed.), Data and context in statistics education: Towards an evidence-based society. Voorburg: International Statistical Institute. GIGERENZER, G. (2002). Calculated risks: How to know when numbers deceive you. New York: Simon & Schuster. HOWELL, D. (n.d.). Resampling statistics: Randomization & Bootstrap. Statistical page of D. Howell. Online: www.uvm.edu/~dhowell/StatPages/Resampling/Resampling.html. HUBBARD, R. & BAYARRI, M. J. (2003). Confusion over measures of evidence (p) versus errors (a) in classical statistical testing. The American Statistician 57(3), 171-182. LUNNEBORG, C. E. (2000). Data analysis by resampling: concepts and applications. Pacific Grove, CA: Duxbury Press. NEYMAN J. & PEARSON E. (1933). On the problem of most efficient tests of statistical hypotheses. Philosophical Transactions of the Royal Society A, 231, 289-337. NOETHER, G. (1967). Elements of noparametric statistics. New York: Wiley. ROSSMAN, A. J. (2008). Reasoning about informal statistical inference: one statistician’s view. Statistics Education Research Journal 7(2), 5-19. STOHL LEE, H., ANGOTTI, R. L., & TARR, J. E. (2010). Making comparisons between observed data and expected outcomes: students’ informal hypothesis testing with probability simulation tools. Statistics Education Research Journal 9(1), 68-96. VANCSÓ, Ö. (2009). Parallel discussion of classical and Bayesian ways as an introduction to statistical inference. International Electronic Journal of Mathematics Education 4(3), 291-322.