Kuzmin, E. A. (2012): Uncertainty and certainty property estimation of organizational-economic system. Published in: European Social Science Journal No. 3 (19) (March 2012): pp. 480-493.
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Uncertainty as a self-condition of open stochastic system is a principium of development of risk representations and their influences on organizational-economic subjects and objects. Undoubtedly, taking any management decisions is followed by uncertainty influence. This circumstance absolutely logically turns this category into central concept of management theory in various fields of knowledge. In this article the author deeply inquires into a question of uncertainty and certainty property estimation in organizational-economic system, gives and proves an author's opinion at the uncertainty nature and approaches to its calculation that is accompanied with studying of back property toward uncertainty – certainty of organizational-economic system. The author puts forward and reasonably proves a model of uncertainty cycle and calculation methods of cumulative uncertainty and certainty.
|Item Type:||MPRA Paper|
|Original Title:||Uncertainty and certainty property estimation of organizational-economic system|
|English Title:||Uncertainty and certainty property estimation of organizational-economic system|
|Keywords:||organizational-economic systems, uncertainty, certainty, self-organizing, uncertainty types, model of uncertainty cycle|
|Subjects:||D - Microeconomics > D8 - Information, Knowledge, and Uncertainty > D81 - Criteria for Decision-Making under Risk and Uncertainty|
|Depositing User:||Evgeny Kuzmin|
|Date Deposited:||11. Jun 2012 19:25|
|Last Modified:||13. Feb 2013 09:38|
Avdijsky V.I. and Bezdenezhnih V.M. Uncertainty, variability and contradictoriness of risk analysis problems of economic system behavior //Effective anti-recessionary management. 2011, № 3 (66).
Beck D.E., Cowan C.C. Spiral dynamics: mastering values, leadership, and change: exploring the new science of memetics. – John Wiley & Sons, 1996.
Boltzmann L. The Second Law of Thermodynamics (1886). In B. McGinness, ed., Ludwig Boltzmann: Theoretical physics and Philosophical Problems: Selected Writings. Dordrecht, Netherlands: D. Reidel, 1974. Brillouin L. Science and information theory. – M.: State Publishing House of Physical and Mathematical Literature, 1960. Clausius R. Published in Poggendoff's Annalen, Dec. 1854, vol. xciii. p. 481; translated in the Journal de Mathematiques, vol. xx. Paris, 1855, and in the Philosophical Magazine, August 1856, s. 4. vol. xii.
Clausius R. On the Application of the Mechanical theory of Heat to the Steam-Engine. (1856) as found in: Clausius, R. (1865). The Mechanical Theory of Heat – with its Applications to the Steam Engine and to Physical Properties of Bodies. London: John van Voorst, 1 Paternoster Row.
Graves, Clare W. Levels of Existence: An Open System Theory of Values // The Journal of Humanistic Psychology, Fall 1970, Vol. 10. No. 2.
Grinberg S.M. Pedagogical risk and governmentality: shantytowns in Argentina in the 21st century. – SCARR: Social Contexts and Responses to Risk, Queens' College, Cambridge: Risk & Rationalities Conference, 2007.
Hens Z. Hemptinne de X. Non-equilibrium Thermodynamics approach to Transport Processes in Gas Mixtures, Department of Chemistry, Catholic University of Leuven, Celestijnenlaan 200 F, B-3001 Heverlee, Belgium.
Laidler K.J. The Physical World of Chemistry. Oxford University Press, 1995.
OED, Second Edition, 1989, Clausius (Pogg. Ann. CXXV. 390), assuming (unhistorically) the etymological sense of energy to be «work-contents» (werk-inhalt), devised the term entropy as a corresponding designation for the «transformation-contents» (verwandlungsinhalt) of a system.
Magie W.F. The second law of thermodynamics; memoirs by Carnot, Clausius, and Thomson. Tr. and ed. by W.F. Magie/ – New York, London, Harper & brothers, 1899.
Marrewijk van M. A Value Based Approach to Organization Types: Towards a Coherent Set of Stakeholder-Oriented Management Tools // Journal of Business Ethics, Vol. 55, № 2, Social Dimensions of Organizational Excellence (EFQM-EOQ Convention 2003), 2004.
Mosleh A., Bier V. M., Apostolakis, G. A critique of current practice for the use of expert opinions in probabilistics risk assessment. Reliability Engineering and system safety, 20, 1988.
O’Hagan A., Oakley J. E. Probability is perfect, but we can’t elicit it perfectly. Reliability Engineering and system safety, 85, 2004.
Planes A., Vives E. Entropic Formulation of Statistical Mechanics, Entropic variables and Massieu-Planck functions Universitat de Barcelona, 2000.
Prangishvili I.V. Entropy and other system laws: Control Problems of Complex Systems / Prangishvili I.V.; Management Research Institute named after Trapeznikova V.A. – М.: Science, 2003.
Schrödinger E. What is Life? (ch. 6 «Order, Disorder, and Entropy»). – Cambridge: Cambridge University Press, 1944.
Shannon C.E. A Mathematical Theory of Communication //The Bell System Technical Journal, Vol. 27, № 3, 1948.
Tikhomirov N. P., Tikhomirova T. M. Risk Analysis in Economy: Monograph. – M: Economy, 2010.
Wainwright J.T. (Jacob Tripler) An investigation of the second law of thermodynamics. – Chicago, 1913.
Winkler R.L. Uncertainty in probabilistic risk assessment. Reliability Engineering and system safety, 54, 1996.
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