Epstein, Larry G. Stationary cardinal utility and optimal growth under uncertainty. (English) Zbl 0517.90007 J. Econ. Theory 31, 133-152 (1983). Page: −5 −4 −3 −2 −1 ±0 +1 +2 +3 +4 +5 Show Scanned Page Cited in 1 ReviewCited in 35 Documents MSC: 91B16 Utility theory 91B62 Economic growth models Keywords:multiperiod planning under uncertainty; non-additive utility indices; infinite consumption streams; optimal growth under uncertainty; existence and stability of a stochastic steady state PDF BibTeX XML Cite \textit{L. G. Epstein}, J. Econ. Theory 31, 133--152 (1983; Zbl 0517.90007) Full Text: DOI References: [1] Aczél, J, () [2] Beals, R; Koopmans, T, Maximizing stationary utility in a constant technology, SIAM J. appl. math., 17, 1001-1015, (1969) · Zbl 0186.24804 [3] Boyer, M, An optimal growth model with stationary non-additive utilities, Canad. J. econ., 8, 216-237, (1975) [4] Brock, W.A; Majumdar, M, Global asymptotic stability results for multisector models of optimal growth under uncertainty when future utilities are discounted, J. econ. theory, 18, 225-243, (1978) · Zbl 0414.90022 [5] Brock, W.A; Mirman, L.J, Optimal economic growth and uncertainty: the discounted case, J. econ. theory, 4, 479-513, (1972) [6] Chichilnisky, G, Existence of optimal savings policies with imperfect information and nonconvexities, J. math. econ., 8, 1-14, (1981) · Zbl 0454.90012 [7] Epstein, L.G; Tanny, S, Generalized increasing correlation: A definition and some economic consequences, Canad. J. econ., 13, 16-34, (1980) [8] Epstein, L.G; Hynes, J.A, The rate of time preference and dynamic economic analysis, J. Pol. econ., (1983), in press [9] Gorman, W.M, The structure of utility functions, Rev. econ. stud., 35, 367-390, (1968) · Zbl 0217.26801 [10] Grandmont, J.M, Continuity properties of a von Neumann-morgenstern utility, J. econ. theory, 4, 45-57, (1972) [11] Green, H.A.J, Consumer theory, (1976), Macmillan Co., London [12] Iwai, K, Optimal economic growth and stationary ordinal utility—a Fisherian approach, J. econ. theory, 5, 121-151, (1972) [13] Keeney, R, Risk independence and multi-attributed utility functions, Econometrica, 41, 27-34, (1973) · Zbl 0266.90012 [14] Koopmans, T, Stationary ordinal utility and impatience, Econometrica, 28, 287-309, (1960) · Zbl 0149.38401 [15] Koopmans, T; Diamond, P; Williamson, R, Stationary utility and time perspective, Econometrica, 32, 82-100, (1964) · Zbl 0131.18603 [16] Pollak, R.A, Additive von Neumann-morgenstern utility functions, Econometrica, 35, 485-494, (1967) · Zbl 0157.51001 [17] Pollak, R.A, The risk independence axiom, Econometrica, 41, 35-39, (1973) · Zbl 0267.90009 [18] Mirman, L.J; Zilcha, I, On optimal growth under uncertainty, J. econ. theory, 11, 329-339, (1975) · Zbl 0362.90024 [19] Mirman, L.J; Zilcha, I, Unbounded shadow prices for optimal stochastic growth models, Internat. econ. rev., 17, 121-132, (1976) [20] Schectman, J; Escudero, V, Some results on “an income fluctuation problem”, J. econ. theory, 16, 151-166, (1977) · Zbl 0402.90002 This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. It attempts to reflect the references listed in the original paper as accurately as possible without claiming the completeness or perfect precision of the matching.