Condorcet criterion
It has been suggested that this article be merged with Condorcet method. (Discuss) Proposed since November 2017. 
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The Condorcet candidate (a.k.a. Condorcet winner) is the person who would win a twocandidate election against each of the other candidates in a plurality vote.^{[1]}^{[2]} For a set of candidates, the Condorcet winner is always the same regardless of the voting system in question. A voting system satisfies the Condorcet criterion (English: /kɒndɔːrˈseɪ/) if it always chooses the Condorcet winner when one exists. Any voting method conforming to the Condorcet criterion is known as a Condorcet method.
A Condorcet winner will not always exist in a given set of votes, which is known as Condorcet's voting paradox. When voters identify candidates on a 1dimensional lefttoright axis and always prefer candidates closer to themselves, a Condorcet winner always exists.^{[3]} Real political positions are multidimensional, however,^{[4]} which can lead to circular societal preferences with no Condorcet winner.^{[5]}
These terms are named after the 18thcentury mathematician and philosopher Marie Jean Antoine Nicolas Caritat, the Marquis de Condorcet.
Contents
Relation to other criteria[edit]
The Condorcet criterion implies the majority criterion; that is, any system that satisfies the former will satisfy the latter. The Condorcet criterion is incompatible with the laternoharm criterion, the favorite betrayal criterion, the participation criterion, and the consistency criterion.
Compliance of methods[edit]
Complying methods[edit]
The following methods satisfy with the Condorcet criterion:
 Black
 Copeland
 Dodgson's method
 KemenyYoung
 Minimax
 Nanson's method
 Ranked pairs
 Schulze
 Smith/IRV
 Smith/minimax
 Fully strategic Approval voting
Noncomplying methods[edit]
The following methods do not satisfy the Condorcet criterion. (This statement requires qualification in some cases: see the individual subsections.)
 Borda count
 Bucklin voting
 Instantrunoff voting
 Majority Judgment
 Plurality voting
 Honest Approval voting
 Range voting
Borda count[edit]
Borda count is a voting system in which voters rank the candidates in an order of preference. Points are given for the position of a candidate in a voter's rank order. The candidate with the most points wins.
The Borda count does not comply with the Condorcet criterion in the following case. Consider an election consisting of five voters and three alternatives, in which three voters prefer A to B and B to C, while two of the voters prefer B to C and C to A. The fact that A is preferred by three of the five voters to all other alternatives makes it a Condorcet Winner. However the Borda count awards 2 points for 1st choice, 1 point for second and 0 points for third. Thus, from three voters who prefer A, A receives 6 points (3 x 2), and 0 points from the other two voters, for a total of 6 points. B receives 3 points (3 x 1) from the three voters who prefer A to B to C, and 4 points (2 x 2) from the other two voters who prefer B to C to A. With 7 points, B is the Borda winner.
Bucklin voting[edit]
Bucklin is a ranked voting method that was used in some elections during the early 20th century in the United States. The election proceeds in rounds, one rank at a time, until a majority is reached. Initially, votes are counted for all candidates ranked in first place; if no candidate has a majority, votes are recounted with candidates in both first and second place. This continues until one candidate has a total number of votes that is more than half the number of voters. Because multiple candidates per vote may be considered at one time, it is possible for more than one candidate to achieve a majority.
Instantrunoff voting[edit]
Instantrunoff voting (IRV) is a method (like Borda count) which requires each voter to rank the candidates. Unlike the Borda count, IRV uses a process of elimination to assign each voter's ballot to their first choice among a dwindling list of remaining candidates until one candidate receives an outright majority of ballots. It does not comply with the Condorcet criterion. Consider, for example, the following vote count of preferences with three candidates {A,B,C}:
35:  A>B>C 
34:  C>B>A 
31:  B>C>A 
In this case, B is preferred to A by 65 votes to 35, and B is preferred to C by 66 to 34, hence B is strongly preferred to both A and C. B must then win according to the Condorcet criterion. Using the rules of IRV, B is ranked first by the fewest voters and is eliminated, and then C wins with the transferred votes from B.
In cases where there is a Condorcet Winner, and where IRV does not choose it, a majority would by definition prefer the Condorcet Winner to the IRV winner.
Majority judgment[edit]
Majority judgment is a system in which the voter gives all candidates a rating out of a predetermined set (e.g. {"excellent", "fair", "poor"}). The winner of the election would be the candidate with the best median rating.
Consider an election with three candidates A, B, C.
35 voters rate candidate A "excellent", B "fair", and C "poor",
34 voters rate candidate C "excellent", B "fair", and A "poor", and
31 voters rate candidate B "excellent", C "fair", and A "poor".
B is preferred to A by 65 votes to 35, and B is preferred to C by 66 to 34. Hence, B is the Condorcet winner. But B only gets the median rating "fair", while C has the median rating "good" and hereby C is chosen winner by Majority Judgment.
Plurality voting[edit]
With plurality voting, the full set of voter preferences is not recorded on the ballot and so cannot be deduced therefrom (e.g. following a real election). Under the assumption that no tactical voting takes place, i.e. that all voters vote for their first preference, it is easy to construct an example which fails the Condorcet criterion.
Consider an election in which 30% of the voters prefer candidate A to candidate B to candidate C and vote for A, 30% of the voters prefer C to A to B and vote for C, and 40% of the voters prefer B to A to C and vote for B. Candidate B would win (with 40% of the vote) even though A would be the Condorcet winner, beating B 60% to 40%, and C 70% to 30%.
The assumption of no tactical voting is also used to evaluate other systems; however, the assumption may be far less plausible with plurality precisely because plurality accommodates no other way for subsidiary preferences to be taken into account.
Approval voting[edit]
Approval voting is a system in which the voter can approve of (or vote for) any number of candidates on a ballot. Depending on which strategies voters use, the Condorcet criterion may be violated.
Consider an election in which 70% of the voters prefer candidate A to candidate B to candidate C, while 30% of the voters prefer C to B to A. If every voter votes for their top two favorites, Candidate B would win (with 100% approval) even though A would be the Condorcet winner.
Note that this failure of Approval depends upon a particular generalization of the Condorcet criterion, which may not be accepted by all voting theorists. Other generalizations, such as a "votesonly" generalization that makes no reference to voter preferences, may result in a different analysis. Also, if all voters have perfect information about each other's motivations, and a single Condorcet winner exists, then that candidate will win under the Nash equilibrium.^{[6]}
Range voting[edit]
Range voting is a system in which the voter gives all candidates a score on a predetermined scale (e.g. from 0 to 9). The winner of the election is the candidate with the highest total score.
Range voting doesn't satisfy the Condorcet criterion. Consider an election with three voters and three candidates with the following range votes:
Candidate  Voter 1  Voter 2  Voter 3 

A  5  5  1 
B  4  4  4 
C  0  0  0 
In pluralistic headtohead elections, two voters prefer A to B, and all three prefer both A and B to C, making A the Condorcet winner. However, candidate B is the range winner with 12 points compared to 11 points for A.
Range voting satisfies the Condorcet criterion as long as voters score candidates in the headtohead elections as they do in the full election.^{[7]} For example, let's say three voters vote for three candidates (A,B,C) as follows:
The second candidate is the Condorcet winner and the winner of the normal election with 12 to 10 and 0 points. In the case where all voters are voting strategically, range voting is equivalent to approval voting, and any Condorcet winner will win because of the Nash equilibrium as mentioned above.
However, if voters change their voting strategy from honest to strategic only for the headtohead elections, then range voting does not satisfy Condorcet. For the same example shown above, the head to head elections involving A would look like this:


Since in both cases, A would be the winner, the Condorcet winner is A, but B still wins the full election. Some, like the authors of rangevoting.org, say that defining the Condorcet criterion in this way makes the criterion not always desirable.^{[7]} If the winners of the headtohead contests were determined by range voting rules rather than pluralistic voting, range voting would satisfy Condorcet.
Further reading[edit]
 Black, Duncan (1958). The Theory of Committees and Elections. Cambridge University Press.
 Farquharson, Robin (1969). Theory of Voting. Oxford: Blackwell. ISBN 0631124608.
 Sen, Amartya Kumar (1970). Collective Choice and Social Welfare. HoldenDay. ISBN 9780816277650.
See also[edit]
 Condorcet loser criterion
 Condorcet method
 Ramon Llull (1232–1315), who with the 2001 discovery of his lost manuscripts Ars notandi, Ars eleccionis, and Alia ars eleccionis, was given credit for discovering the Borda count and Condorcet criterion (Llull winner) in the 13th century
References[edit]
 ^ Erdmann, Eric (2011). "Strengths and Drawbacks of Voting Methods for Political Elections" (PDF).
 ^ "MATH 1340: Mathematics and Politics: Condorcet's Method and Condorcet Winners" (PDF). 2010.
 ^ Black, Duncan (1948). "On the Rationale of Group Decisionmaking". The Journal of Political Economy. 56 (1): 23–34. doi:10.1086/256633. JSTOR 1825026.
 ^ AlósFerrer, Carlos; Granić, ĐuraGeorg (20150901). "Political space representations with approval data". Electoral Studies. 39: 56–71. doi:10.1016/j.electstud.2015.04.003.
The analysis reveals that the underlying political landscapes ... are inherently multidimensional and cannot be reduced to a single leftright dimension, or even to a twodimensional space.
 ^ McLean, Iain S.; McMillan, Alistair; Monroe, Burt L. (20130309). The Theory of Committees and Elections by Duncan Black and Committee Decisions with Complementary Valuation by Duncan Black and R.A. Newing. Springer Science & Business Media. ISBN 9789401148603.
For instance, if preferences are distributed spatially, there need only be two or more dimensions to the alternative space for cyclic preferences to be almost inevitable
 ^ Laslier, JeanFrancois (2006). "Strategic Approval Voting in a Large Electorate" (PDF). IDEP Working Papers. Marseille, France: Institut D'Economie Publique. 405.
 ^ ^{a} ^{b} "Why Range Voting is better than Condorcet methods". RangeVoting.org. Retrieved 20170108.