Satisficing the Masses: Applying Game Theory to Large-Scale, Democratic Decision Problems

We present ongoing research on large-scale decision models in which there are many invested individuals. We apply our unique Bayesian belief aggregation approach to decision problems, taking into consideration the beliefs and utilities of each individual. Instead of averaging all beliefs to form a s...

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Hauptverfasser:	Greene, K.A., Kniss, J.M., Luger, G.F., Stern, C.R.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Bayesian methods Bayesian Networks Belief Aggregation Collaboration Computer science Cultural differences Decision making Feedback Game theory Humans Large-scale systems Social Intelligence Stem cells Uncertainty
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creator	Greene, K.A. Kniss, J.M. Luger, G.F. Stern, C.R.
description	We present ongoing research on large-scale decision models in which there are many invested individuals. We apply our unique Bayesian belief aggregation approach to decision problems, taking into consideration the beliefs and utilities of each individual. Instead of averaging all beliefs to form a single consensus, our aggregation approach allows divergence in beliefs and utilities to emerge. In decision models this divergence has implications for game theory enabling the competitive aspects in an apparent cooperative situation to emerge. Current approaches to belief aggregation assume cooperative situations by forming one consensus from diverse beliefs. However, many decision problems have individuals and groups with opposing goals, therefore this forced consensus does not accurately represent the decision problem. By applying our approach to the topical issue of stem cell research using input from many diverse individuals, we analyze the behavior of a decision model including the groups of agreement that emerge. We show how to find the Pareto optimal solutions, which represent the decisions in which no group can do better without another group doing worse. We analyze a range of solutions, from attempting to "please everybody," with the solution that minimizes all emerging group's losses, to optimizing the outcome for a subset of individuals. Our approach has the long-reaching potential to help define policy and analyze the effect of policy change on individuals.
doi_str_mv	10.1109/CSE.2009.242
format	Conference Proceeding
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subjects	Bayesian methods Bayesian Networks Belief Aggregation Collaboration Computer science Cultural differences Decision making Feedback Game theory Humans Large-scale systems Social Intelligence Stem cells Uncertainty
title	Satisficing the Masses: Applying Game Theory to Large-Scale, Democratic Decision Problems
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