Evolving decision strategies for dynamic environments: A genetic programming approach

Georg Meyer; Paul E. Johnson; Gediminas Adomavicius; Patrick O'Connor; JoAnn Sperl-Hillen; William Rush; Mohamed Elidrisi; Sunayan Bandyopadhyay

Evolving decision strategies for dynamic environments: A genetic programming approach

Georg Meyer, Paul E. Johnson, Gediminas Adomavicius, Patrick O'Connor, JoAnn Sperl-Hillen, William Rush, Mohamed Elidrisi, Sunayan Bandyopadhyay

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

A decision strategy is systematic way of choosing among alternatives or eliminating options in order to arrive at a goal. Individuals apply decision strategies in dynamic environments that require repeated decision making where decisions are path-dependent, time-constrained, and the environment changes not only in response to the actions taken by the decision maker but also autonomously. In addition to being used by individual agents, decision strategies are found in organizations in the form of policies, guidelines, and algorithms. In this paper, we consider decision strategies (specifically in the context of chronic disease care) as the product of an evolutionary process and outline an approach to develop strategies by means of a computational process based on genetic programming. By evolving strategies in a simulated environment, we find that the evolutionary process is capable of developing strategies comparable to those found in practice. Moreover, the proposed approach can serve as a useful tool for analyzing various incentive structures and identifying their potential unintended consequences.

Original language	English (US)
Title of host publication	22nd Workshop on Information Technologies and Systems, WITS 2012
Publisher	University of Florida, Warrington College
Pages	175-180
Number of pages	6
State	Published - 2012
Event	22nd Workshop on Information Technologies and Systems, WITS 2012 - Orlando, FL, United States Duration: Dec 15 2012 → Dec 16 2012

Other

Other	22nd Workshop on Information Technologies and Systems, WITS 2012
Country/Territory	United States
City	Orlando, FL
Period	12/15/12 → 12/16/12

Keywords

Dynamic decision making
Genetic programming
Simulation
Strategy development

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Meyer, G, Johnson, PE, Adomavicius, G, O'Connor, P, Sperl-Hillen, J, Rush, W, Elidrisi, M & Bandyopadhyay, S 2012, Evolving decision strategies for dynamic environments: A genetic programming approach. in 22nd Workshop on Information Technologies and Systems, WITS 2012. University of Florida, Warrington College, pp. 175-180, 22nd Workshop on Information Technologies and Systems, WITS 2012, Orlando, FL, United States, 12/15/12.

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AU - Meyer, Georg

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AU - Adomavicius, Gediminas

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AU - Sperl-Hillen, JoAnn

AU - Rush, William

AU - Elidrisi, Mohamed

AU - Bandyopadhyay, Sunayan

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AB - A decision strategy is systematic way of choosing among alternatives or eliminating options in order to arrive at a goal. Individuals apply decision strategies in dynamic environments that require repeated decision making where decisions are path-dependent, time-constrained, and the environment changes not only in response to the actions taken by the decision maker but also autonomously. In addition to being used by individual agents, decision strategies are found in organizations in the form of policies, guidelines, and algorithms. In this paper, we consider decision strategies (specifically in the context of chronic disease care) as the product of an evolutionary process and outline an approach to develop strategies by means of a computational process based on genetic programming. By evolving strategies in a simulated environment, we find that the evolutionary process is capable of developing strategies comparable to those found in practice. Moreover, the proposed approach can serve as a useful tool for analyzing various incentive structures and identifying their potential unintended consequences.

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KW - Genetic programming

KW - Simulation

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Y2 - 15 December 2012 through 16 December 2012

ER -

Evolving decision strategies for dynamic environments: A genetic programming approach

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