An Evolutionary Approach to Passive Learning in Optimal Control Problems

An Evolutionary Approach to Passive Learning in Optimal Control Problems

We consider the optimal control problem of a small nonlinear econometric model under parameter uncertainty and passive learning (open-loop feedback). Traditionally, this type of problems has been approached by applying linear-quadratic optimization algorithms. However, the literature demonstrated th...

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Bibliographic Details
Published in:Computational economics Vol. 56; no. 3; pp. 659 - 673
Main Authors: Blueschke, D., Savin, I., Blueschke-Nikolaeva, V.
Format: Journal Article
Language:English
Published: New York Springer US 01-10-2020
Subjects:
Behavioral/Experimental Economics
Computer Appl. in Social and Behavioral Sciences
Economic Theory/Quantitative Economics/Mathematical Methods
Economics
Economics and Finance
Math Applications in Computer Science
Operations Research/Decision Theory
Optimal control
Stochastic problems
Differential Evolution
Passive learning
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Summary:We consider the optimal control problem of a small nonlinear econometric model under parameter uncertainty and passive learning (open-loop feedback). Traditionally, this type of problems has been approached by applying linear-quadratic optimization algorithms. However, the literature demonstrated that those methods are very sensitive to the choice of random seeds frequently producing very large objective function values (outliers). Furthermore, to apply those established methods, the original nonlinear problem must be linearized first, which runs the risk of solving already a different problem. Following Savin and Blueschke (Comput Econ 48(2):317–338, 2016) in explicitly addressing parameter uncertainty with a large Monte Carlo experiment of possible parameter realizations and optimizing it with the Differential Evolution algorithm, we extend this approach to the case of passive learning. Our approach provides more robust results demonstrating greater benefit from learning, while at the same time does not require to modify the original nonlinear problem at hand. This result opens new avenues for application of heuristic optimization methods to learning strategies in optimal control research.
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ISSN:0927-7099
1572-9974
DOI:10.1007/s10614-019-09961-4