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Result in social choice theory From Wikipedia, the free encyclopedia
The McKelvey–Schofield chaos theorem is a result in social choice theory. It states that if preferences are defined over a multidimensional policy space, then majority rule is in general unstable: there is no Condorcet winner. Furthermore, any point in the space can be reached from any other point by a sequence of majority votes.
The theorem can be thought of as showing that Arrow's impossibility theorem holds when preferences are restricted to be concave in . The median voter theorem shows that when preferences are restricted to be single-peaked on the real line, Arrow's theorem does not hold, and the median voter's ideal point is a Condorcet winner. The chaos theorem shows that this good news does not continue in multiple dimensions.
The theorem considers a finite number of voters, n, who vote for policies which are represented as points in Euclidean space of dimension m. Each vote is between two policies using majority rule. Each voter, i, has a utility function, Ui, which measures how much they value different policies.[clarification needed]
Richard McKelvey considered the case when preferences are "Euclidean metrics".[1] That means every voter's utility function has the form for all policies x and some xi, where d is the Euclidean distance and is a monotone decreasing function.
Under these conditions, there could be a collection of policies which don't have a Condorcet winner using majority rule. This means that, given a number of policies Xa, Xb, Xc, there could be a series of pairwise elections where:
McKelvey proved that elections can be even more "chaotic" than that: If there is no equilibrium outcome[clarification needed] then any two policies, e.g. A and B, have a sequence of policies, , where each one pairwise wins over the other in a series of elections, meaning:
This is true regardless of whether A would beat B or vice versa.
The simplest illustrating example is in two dimensions, with three voters. Each voter will then have a maximum preferred policy, and any other policy will have a corresponding circular indifference curve centered at the preferred policy. If a policy was proposed, then any policy in the intersection of two voters indifference curves would beat it. Any point in the plane will almost always have a set of points that are preferred by 2 out of 3 voters.
Norman Schofield extended the theorem to more general classes of utility functions, requiring only that they are differentiable. He also established conditions for the existence of a directed continuous path of policies, where each policy further along the path would win against one earlier.[2][3] Some of Schofield's proofs were later found to be incorrect by Jeffrey S. Banks, who corrected his proofs.[4][5]
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