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Recursive Contracts
Author(s) -
Marcet Albert,
Marimon Ramon
Publication year - 2019
Publication title -
econometrica
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 16.7
H-Index - 199
eISSN - 1468-0262
pISSN - 0012-9682
DOI - 10.3982/ecta9902
Subject(s) - lagrange multiplier , mathematical optimization , class (philosophy) , continuation , bellman equation , saddle point , dynamic programming , mathematics , function (biology) , state variable , variable (mathematics) , computer science , mathematical economics , mathematical analysis , physics , geometry , artificial intelligence , evolutionary biology , biology , programming language , thermodynamics
We obtain a recursive formulation for a general class of optimization problems with forward‐looking constraints which often arise in economic dynamic models, for example, in contracting problems with incentive constraints or in models of optimal policy. In this case, the solution does not satisfy the Bellman equation. Our approach consists of studying a recursive Lagrangian. Under standard general conditions, there is a recursive saddle‐point functional equation (analogous to a Bellman equation) that characterizes a recursive solution to the planner's problem. The recursive formulation is obtained after adding a co‐state variable μ t summarizing previous commitments reflected in past Lagrange multipliers. The continuation problem is obtained with μ t playing the role of weights in the objective function. Our approach is applicable to characterizing and computing solutions to a large class of dynamic contracting problems.