Martingale conditions for optimal saving: discrete time

Necessary and sufficient conditions are derived for optimal saving in a stochastic neo-classical one-good world with discrete time. The usual technique of dynamic programming is replaced by classical variational and concavity arguments, modified to take account of conditions of measurability which represent the planner's information structure. Familiar conditions of optimality are thus extended to amit production risks represented by quite general random processes - no i.i.d.r.v.s., stationarity or Markov dependence are assumed - while utility and length of life also may be taken as random. It is found that the 'Euler' conditions may be interpreted as martingale properties of shadow prices.

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Year of publication:	1978-03
Authors:	Foldes, Lucien
Institutions:	London School of Economics (LSE)

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Extent:	application/pdf
Series:	LSE Research Online Documents on Economics.
Type of publication:	Book / Working Paper
Notes:	Published in Journal of Mathematical Economics, March, 1978, 5(1), pp. 83-96. ISSN: 0304-4068
Classification:	E31 - Price Level; Inflation; Deflation ; D81 - Criteria for Decision-Making under Risk and Uncertainty ; D90 - Intertemporal Choice and Growth. General ; O41 - One, Two, and Multisector Growth Models
Source:	RePEc - Research Papers in Economics

Persistent link: https://ebvufind01.dmz1.zbw.eu/10010928732