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Proportional approval voting

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Title: Proportional approval voting  
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Subject: Approval voting, Satisfaction approval voting, Alternative vote Plus, Bucklin voting, Contingent vote
Collection: Cardinal Electoral Systems, Voting Systems
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Proportional approval voting

Proportional approval voting (PAV) is an extension of approval voting to multiple-winner elections. It allows each voter to vote for as many or as few candidates as they choose. It was first developed by Forest Simmons in 2001.[1]

Contents

  • Description 1
  • Example 2
  • See also 3
  • References 4

Description

PAV works by looking at how "satisfied" each voter is with each potential result or outcome of the election. The calculated satisfaction with any particular result for an individual voter is a function of how many of the elected candidates the individual originally voted for.[2] Under PAV, to calculate the satisfaction of an individual, only the elected candidates that the individual voted for are counted - the unsuccessful candidates that they voted for, as well as the elected candidates that they did not vote for are not taken into account. Assuming that an individual voted for n candidates that were successful, their satisfaction would be calculated using the formula[1]

1 + \frac{1}{2} + \frac{1}{3} + \cdots + \frac{1}{n}

Summing the satisfaction across all voters with any potential result gives the population's total satisfaction with that result. The total satisfaction is calculated for every possible set of candidates, and the set of candidates with the highest total satisfaction is deemed to be the winning set.

In an election with only one winner, PAV operates in exactly the same way as normal approval voting. If on the other hand, each voter voted exclusively for all of the candidates within a single party, PAV would function in the same way as the D'Hondt method of party-list proportional representation.

Counting the votes in PAV is NP-hard, making it a very computationally demanding voting method as the number of candidates and seats increase.[3] If there were c candidates and s seats, then there would be

\frac{c!}{s! (c-s)!}

combinations of candidates to compare with each election,[4] for example if there were 24 candidates for 4 seats, there would be 10,626 combinations to calculate total satisfaction for. An election requiring this many calculations would necessitate vote counting by computer.

Example

2 seats to be filled, four candidates: Andrea (A), Brad (B), Carter (C), and Delilah (D). The ballots are:

  • 5: AB
  • 17: AC
  • 8: D

There are 6 possible results: AB, AC, AD, BC, BD, and CD.

AB AC AD BC BD CD
Voters approving 2 successful candidates (satisfaction of 1 1/2) 5 17 0 0 0 0
Voters approving 1 successful candidate (satisfaction of 1) 17 5 30 22 13 25
Voters approving no successful candidates (satisfaction of 0) 8 8 0 8 17 5
Total satisfaction 24.5 30.5 30 22 13 25

Andrea and Carter are elected.

See also

References

  1. ^ a b Kilgour, D. Marc (2010). "Approval Balloting for Multi-winner Elections". In Jean-François Laslier; M. Remzi Sanver. Handbook on Approval Voting. Springer. pp. 105–124.  
  2. ^ Aziz, H., Brill, M., Conitzer, V., et al. (2014): "Justified Representation in Approval-Based Committee Voting", arXiv:1407.8269 [1]
  3. ^ Aziz, Haris; Serge Gaspers, Joachim Gudmundsson, Simon Mackenzie, Nicholas Mattei, Toby Walsh. "Computational Aspects of Multi-Winner Approval Voting" (PDF). Proceedings of the 2015 International Conference on Autonomous Agents and Multiagent Systems. pp. 107–115.  
  4. ^ Enric Plaza: "Technologies for political representation and accountability": p9 [2]
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