Impulse controls and uncertainty in economics: Method and application

Long Chu; Tom Kompas; Quentin Grafton

doi:10.1016/j.envsoft.2014.11.027

Impulse controls and uncertainty in economics: Method and application

Long Chu, Tom Kompas^*, Quentin Grafton

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

We develop a stochastic optimal control framework to address an important class of economic problems where there are discontinuities and a decision maker is able to undertake impulse controls in response to unexpected disturbances. Our contribution is two fold: (1) to develop a linear programming algorithm that produces a consistent approximation of the maximum value and optimal policy functions in the context of stochastic impulse controls; and (2) to illustrate the economic benefits of impulse controls optimized, using our framework, and calibrated to the population dynamics of a marine fishery. We contend that the framework has wide applicability and offers the possibility of higher economic pay-off for a wide-range of policy problems in the presence of discontinuities and adverse shocks.

Original language	English
Pages (from-to)	50-57
Number of pages	8
Journal	Environmental Modelling and Software
Volume	65
DOIs	https://doi.org/10.1016/j.envsoft.2014.11.027
Publication status	Published - 1 Mar 2015

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title = "Impulse controls and uncertainty in economics: Method and application",

abstract = "We develop a stochastic optimal control framework to address an important class of economic problems where there are discontinuities and a decision maker is able to undertake impulse controls in response to unexpected disturbances. Our contribution is two fold: (1) to develop a linear programming algorithm that produces a consistent approximation of the maximum value and optimal policy functions in the context of stochastic impulse controls; and (2) to illustrate the economic benefits of impulse controls optimized, using our framework, and calibrated to the population dynamics of a marine fishery. We contend that the framework has wide applicability and offers the possibility of higher economic pay-off for a wide-range of policy problems in the presence of discontinuities and adverse shocks.",

keywords = "Consistent approximation, Discontinuous jumps, Dynamic programming, Linear programming, Marine reserves, Principle of optimality, Unexpected disturbances",

author = "Long Chu and Tom Kompas and Quentin Grafton",

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AU - Chu, Long

AU - Kompas, Tom

AU - Grafton, Quentin

PY - 2015/3/1

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N2 - We develop a stochastic optimal control framework to address an important class of economic problems where there are discontinuities and a decision maker is able to undertake impulse controls in response to unexpected disturbances. Our contribution is two fold: (1) to develop a linear programming algorithm that produces a consistent approximation of the maximum value and optimal policy functions in the context of stochastic impulse controls; and (2) to illustrate the economic benefits of impulse controls optimized, using our framework, and calibrated to the population dynamics of a marine fishery. We contend that the framework has wide applicability and offers the possibility of higher economic pay-off for a wide-range of policy problems in the presence of discontinuities and adverse shocks.

AB - We develop a stochastic optimal control framework to address an important class of economic problems where there are discontinuities and a decision maker is able to undertake impulse controls in response to unexpected disturbances. Our contribution is two fold: (1) to develop a linear programming algorithm that produces a consistent approximation of the maximum value and optimal policy functions in the context of stochastic impulse controls; and (2) to illustrate the economic benefits of impulse controls optimized, using our framework, and calibrated to the population dynamics of a marine fishery. We contend that the framework has wide applicability and offers the possibility of higher economic pay-off for a wide-range of policy problems in the presence of discontinuities and adverse shocks.

KW - Consistent approximation

KW - Discontinuous jumps

KW - Dynamic programming

KW - Linear programming

KW - Marine reserves

KW - Principle of optimality

KW - Unexpected disturbances

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DO - 10.1016/j.envsoft.2014.11.027

M3 - Article

SN - 1364-8152

VL - 65

SP - 50

EP - 57

JO - Environmental Modelling and Software

JF - Environmental Modelling and Software

ER -

Impulse controls and uncertainty in economics: Method and application

Abstract

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