Wystąpienie z okazji uzyskania tytułu doktora honoris causa Szkoły Głównej Handlowej w Warszawie
Article Sidebar
Published:
Jul 9, 2018
Main Article Content
Article Details
How to Cite
Willekens, F. (2018). Wystąpienie z okazji uzyskania tytułu doktora honoris causa Szkoły Głównej Handlowej w Warszawie. Studia Demograficzne, (1 (173), 87–96. https://doi.org/10.33119/SD.2018.1.6
Section
Other
References
[1] Aalen O. O., Borgan O., Gjessing H. K. (2008), Survival and event history analysis. A process point of view, New York: Springer.
[2] Andersen E. S. (2004), Population thinking, Price's equation and the analysis of economic evolution, „Evolutionary and Institutional Economic Review”, nr 1, s. 127–148.
[3] Andersen E. S., Holm J. R. (2014), The sign of change in economic evolution. An analysis of directional, stabilizing and diversifying selection based on Price’s equation, „Journal of Evolutionary Economics”, nr 24, s. 291–316.
[4] Ariew A. (2007), Under the influence of Malthus’s law of population growth: Darwin eschews the statistical techniques of Adolphe Quetelet, „Studies in the History and Philosophy of Biological and Biomedical Sciences”, nr 38, 1–19.
[5] Billari F. C. (2006), Bridging the gap between micro-demography and macro- demography, w: G. Caselli, J. Vallin, G. Wunsch (eds.), Demography: analysis and synthesis, Vol. 4, New York: Academic Press (Elsevier), s. 695–707.
[6] Billari F. C. (2015), Integrating macro- and micro-level approaches in the explanation of population change, „Population Studies”, nr 69 (supplement 1), s. S11‑S20
[7] Blossfeld H. P., Rohwer G. (2002), Techniques of event history modeling. New approaches to causal analysis. Mahwah, New Jersey: Lawrence Erlbaum Associates (first edition 1995).
[8] Coleman J. S. (1990), Foundations of Social Theory, Cambridge (Massachusetts): Harvard University Press.
[9] Coulson T., Tuljapurkar S. (2008), The dynamics of a quantitative trait in an age-structured population living in a variable environment, „American Naturalist”, nr 172, s. 599–612.
[10] Coulson T., Tuljapurkar S. (2010), Using evolutionary demography to link life history theory, quantitative genetics and population ecology, „Journal of Animal Ecology”, nr 79, s. 1226–1240.
[11] Darwin C. (1859), On the origin of species by means of natural selection or the preservation of favoured races in the struggle for life. London: John Murray. [Available at the complete work of Charles Darwin online. http://darwin-online.org.uk/content/frameset?itemID=F373&viewtype=text&pageseq=1
[12] Ellner S. P., Childs D. Z., Rees M. (2016), Data-driven modelling of structured populations. A practical guide to the Integral Projection Model, Cham: Springer.
[13] Goldthorpe J. H. (2016), Sociology as a population science, Cambridge: Cambridge University Press.
[14] Hedström P., Schwedberg R. (1998), Social mechanisms: an introductory essay, w: P. Hedström, R. Schwedberg (eds.), Social mechanisms: An analytical approach to social theory, Cambridge: Cambridge University Press.
[15] Hodgson G. (2007), Meaning of methodological individualism, „Journal of Economic Methodology”, nr 14 (2), s. 211–226.
[16] Keyfitz N., Caswell H (2005), Applied mathematical demography, 3 rd edition, New York: Springer. [first edition by Keyfitz, 1977 and second edition by Keyfitz, 1985]
[17] Kraeger P. (2009), Darwin and Lotka: Two concepts of population, „Demographic Research”, nr 21 (16), s. 469–502.
[18] Metcalfe J. S. (2001), Evolutionary approaches to population thinking and the problem of growth and development, w: K. Dopfer (ed.), Evolutionary economics: program and scope, Dordrecht: Kluwer (Springer), s. 141–164.
[19] Mosselmans B. (2005), Adolphe Quetelet, the average man and the development of economic methodology, „European Journal of the History of Economoc Thought”, nr 12 (4), s. 565– 582.
[20] Matysiak A., Vignoli D. (2012), Methods for reconciling the micro and the macro in family demography research: a systematisation, w: A. di Ciaccio, M. Coli, J. M. A. Ibanez (eds.), Advanced statistical methods for the analysis of large data-sets, Cham: Springer, s. 475–484.
[21] Mayr E. (1959), Typological versus Population Thinking, w: Evolution and Anthropology: A Centennial Appraisal, Washington: Anthropological Society of Washington, s. 409–412. Reprinted in Sober E. (ed.) (2006), Conceptual issues in evolutionary biology, 3 rd edition, Cambridge (Massachusetts): MIT Press.
[22] Queletelet A. (1835), Sur l’homme et le développement de ses facultés ou (or) Essay de physique sociale (2 Vols). Paris: Bachelier.
[23] Salnikov V., Schaub M. T., Lambiotte R. (2016), Using higher-order Markov models to reveal flow-based communities in networks, „Nature Scientific Reports”, nr 6, s. 23194.
[24] Schumpeter J. A. (1909), On the concept of social value, „Quarterly Journal of Economics”, nr 23 (2), s. 213–232.
[25] Sear R. (2015), Evolutionary demography: A Darwinian renaissance in demography, w: J. D. Wright (ed.), International encyclopedia of the social & behavioral sciences, 2nd edition, Vol. 8. Oxford: Elsevier, s. 406–412.
[26] Snijders T. A. B. (2017), Stochastic actor-oriented models for network dynamics, „Review of Statistics and its Application”, nr 4, s. 343–363.
[27] Snijders T. A. B., Steglich C. E. G. (2015), Representing micro-macro linkages by actor-based dynamic network models, „Sociological Methods and Research”, nr 44, s. 222–271.
[28] Van Bavel J., Grow A. (2017), Introduction: Agent-based modelling as a took to advance evolutionary population theory, w: J. van Bavel, A. Grow (eds.), Agent-based modelling in population studies, Cham: Springer, s. 3–27.
[29] Vaupel J. W., Manton K. G., Stallard E. (1979), The impact of heterogeneity in individual frailty on the dynamics of mortality, „Demography”, nr 16 (3), s. 439–454.
[30] Willekens F. (2014), Multistate analysis of life histories with R, Cham: Springer.
[31] Willekens F., Bijak J., Klabunde A., Prskawetz A. (2017), The science of choice: an introduction, „Population Studies”, nr 71 (supplement 1): S1‑S13.
[2] Andersen E. S. (2004), Population thinking, Price's equation and the analysis of economic evolution, „Evolutionary and Institutional Economic Review”, nr 1, s. 127–148.
[3] Andersen E. S., Holm J. R. (2014), The sign of change in economic evolution. An analysis of directional, stabilizing and diversifying selection based on Price’s equation, „Journal of Evolutionary Economics”, nr 24, s. 291–316.
[4] Ariew A. (2007), Under the influence of Malthus’s law of population growth: Darwin eschews the statistical techniques of Adolphe Quetelet, „Studies in the History and Philosophy of Biological and Biomedical Sciences”, nr 38, 1–19.
[5] Billari F. C. (2006), Bridging the gap between micro-demography and macro- demography, w: G. Caselli, J. Vallin, G. Wunsch (eds.), Demography: analysis and synthesis, Vol. 4, New York: Academic Press (Elsevier), s. 695–707.
[6] Billari F. C. (2015), Integrating macro- and micro-level approaches in the explanation of population change, „Population Studies”, nr 69 (supplement 1), s. S11‑S20
[7] Blossfeld H. P., Rohwer G. (2002), Techniques of event history modeling. New approaches to causal analysis. Mahwah, New Jersey: Lawrence Erlbaum Associates (first edition 1995).
[8] Coleman J. S. (1990), Foundations of Social Theory, Cambridge (Massachusetts): Harvard University Press.
[9] Coulson T., Tuljapurkar S. (2008), The dynamics of a quantitative trait in an age-structured population living in a variable environment, „American Naturalist”, nr 172, s. 599–612.
[10] Coulson T., Tuljapurkar S. (2010), Using evolutionary demography to link life history theory, quantitative genetics and population ecology, „Journal of Animal Ecology”, nr 79, s. 1226–1240.
[11] Darwin C. (1859), On the origin of species by means of natural selection or the preservation of favoured races in the struggle for life. London: John Murray. [Available at the complete work of Charles Darwin online. http://darwin-online.org.uk/content/frameset?itemID=F373&viewtype=text&pageseq=1
[12] Ellner S. P., Childs D. Z., Rees M. (2016), Data-driven modelling of structured populations. A practical guide to the Integral Projection Model, Cham: Springer.
[13] Goldthorpe J. H. (2016), Sociology as a population science, Cambridge: Cambridge University Press.
[14] Hedström P., Schwedberg R. (1998), Social mechanisms: an introductory essay, w: P. Hedström, R. Schwedberg (eds.), Social mechanisms: An analytical approach to social theory, Cambridge: Cambridge University Press.
[15] Hodgson G. (2007), Meaning of methodological individualism, „Journal of Economic Methodology”, nr 14 (2), s. 211–226.
[16] Keyfitz N., Caswell H (2005), Applied mathematical demography, 3 rd edition, New York: Springer. [first edition by Keyfitz, 1977 and second edition by Keyfitz, 1985]
[17] Kraeger P. (2009), Darwin and Lotka: Two concepts of population, „Demographic Research”, nr 21 (16), s. 469–502.
[18] Metcalfe J. S. (2001), Evolutionary approaches to population thinking and the problem of growth and development, w: K. Dopfer (ed.), Evolutionary economics: program and scope, Dordrecht: Kluwer (Springer), s. 141–164.
[19] Mosselmans B. (2005), Adolphe Quetelet, the average man and the development of economic methodology, „European Journal of the History of Economoc Thought”, nr 12 (4), s. 565– 582.
[20] Matysiak A., Vignoli D. (2012), Methods for reconciling the micro and the macro in family demography research: a systematisation, w: A. di Ciaccio, M. Coli, J. M. A. Ibanez (eds.), Advanced statistical methods for the analysis of large data-sets, Cham: Springer, s. 475–484.
[21] Mayr E. (1959), Typological versus Population Thinking, w: Evolution and Anthropology: A Centennial Appraisal, Washington: Anthropological Society of Washington, s. 409–412. Reprinted in Sober E. (ed.) (2006), Conceptual issues in evolutionary biology, 3 rd edition, Cambridge (Massachusetts): MIT Press.
[22] Queletelet A. (1835), Sur l’homme et le développement de ses facultés ou (or) Essay de physique sociale (2 Vols). Paris: Bachelier.
[23] Salnikov V., Schaub M. T., Lambiotte R. (2016), Using higher-order Markov models to reveal flow-based communities in networks, „Nature Scientific Reports”, nr 6, s. 23194.
[24] Schumpeter J. A. (1909), On the concept of social value, „Quarterly Journal of Economics”, nr 23 (2), s. 213–232.
[25] Sear R. (2015), Evolutionary demography: A Darwinian renaissance in demography, w: J. D. Wright (ed.), International encyclopedia of the social & behavioral sciences, 2nd edition, Vol. 8. Oxford: Elsevier, s. 406–412.
[26] Snijders T. A. B. (2017), Stochastic actor-oriented models for network dynamics, „Review of Statistics and its Application”, nr 4, s. 343–363.
[27] Snijders T. A. B., Steglich C. E. G. (2015), Representing micro-macro linkages by actor-based dynamic network models, „Sociological Methods and Research”, nr 44, s. 222–271.
[28] Van Bavel J., Grow A. (2017), Introduction: Agent-based modelling as a took to advance evolutionary population theory, w: J. van Bavel, A. Grow (eds.), Agent-based modelling in population studies, Cham: Springer, s. 3–27.
[29] Vaupel J. W., Manton K. G., Stallard E. (1979), The impact of heterogeneity in individual frailty on the dynamics of mortality, „Demography”, nr 16 (3), s. 439–454.
[30] Willekens F. (2014), Multistate analysis of life histories with R, Cham: Springer.
[31] Willekens F., Bijak J., Klabunde A., Prskawetz A. (2017), The science of choice: an introduction, „Population Studies”, nr 71 (supplement 1): S1‑S13.