Difference between revisions of "D2MAC"

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(New page: ==Summary== '''D2MAC (Draw Two / Most Approved Compromise)''' is a non-deterministic and non-majoritarian single-winner election (or group decision) method which lets each voter contr...)
 
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'''D2MAC (Draw Two / Most Approved Compromise)''' is a [[non-deterministic]] and non-majoritarian single-winner election (or group decision) method which lets each voter control and in a sense "trade" an equal share of the [[winning probability]].  
 
'''D2MAC (Draw Two / Most Approved Compromise)''' is a [[non-deterministic]] and non-majoritarian single-winner election (or group decision) method which lets each voter control and in a sense "trade" an equal share of the [[winning probability]].  
  
It allowes each voter to indicate one "favourite" and any additional number of "also approved" candidates (or options) and assigns the voter's share of the winning probability to one of these "approved" (i.e., "favourite" or "also approved") candidates.
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It allows each voter to indicate one "favourite" and any additional number of "also approved" candidates (or options) and assigns the voter's share of the winning probability to one of these "approved" (i.e., "favourite" or "also approved") candidates.
  
 
==Procedure==  
 
==Procedure==  
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B wins if (a) the first voter is amoung the 15 "non-cooperative" B-voters or (b) the first voter is amoung the 30 "cooperative" B-voters but the second voter is not amoung the 60 "cooperative" voters. This has a probability of 15% + 30%*40% = 27%.
 
B wins if (a) the first voter is amoung the 15 "non-cooperative" B-voters or (b) the first voter is amoung the 30 "cooperative" B-voters but the second voter is not amoung the 60 "cooperative" voters. This has a probability of 15% + 30%*40% = 27%.
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==Variants==
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===Ratings-based D2MAC===
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This mainly differ from D2MAC in that voters submit a standard cardinal [[ratings]] ballot, that is, each voter assigns to each candidate (or option) a number as "rating", and in that those candidates are considered "approved" which the voter seems to prefer to the Random Ballot lottery. The exact procedure is this:
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# For each voter, let ''r'' be the expected value of the voter's rating of the candidate that a randomly chosen ballot assigned the highest rating to. Then consider those candidates as "approved" by the voter whom the voter rates at least as high as ''r''. Then, for each candidate, determine the [[approval score]] (= no. of voters who "approve" of the candidate in the above sense).
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# Draw two voters (or ballots) at random (uniformly and with replacement) and determine the set of candidates X "approved" by both voters.
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# If that set is not empty, the winner is that member of the set which has the highest approval score.
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# Otherwise, the winner is the candidate the first drawn voter assigned the highest rating to.
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===D2MSC===
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D2MSC (Draw Two / Maximum Sum Compromise) differs from Ratings-based D2MAC only in that not the approval score but the ''ratings sum'' (= sum of ratings assigned to the candidate by all voters) is used in step 3.
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===D2MGC===
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D2MGC (Draw Two / Maximum Gini Compromise) differs from D2MAC(Ratings) only in that not the approval score but the [[Gini welfare function]] based on the ratings (= expected minimum of the ratings assigned to the candidate by two voters drawn uniformly at random with replacement) is used in step 3.
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===RB-normalized D2MSC and D2MGC===
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These two variants differ from D2MSC and D2MGC in that the ratings of each voters are first normalized by an affine transformation so that the voter's favourite receives a rating of 1 and so that 0 is the expected value of the voter's rating of the candidate that a randomly chosen ballot assigned the highest rating to.

Revision as of 03:21, 30 September 2007

Summary

D2MAC (Draw Two / Most Approved Compromise) is a non-deterministic and non-majoritarian single-winner election (or group decision) method which lets each voter control and in a sense "trade" an equal share of the winning probability.

It allows each voter to indicate one "favourite" and any additional number of "also approved" candidates (or options) and assigns the voter's share of the winning probability to one of these "approved" (i.e., "favourite" or "also approved") candidates.

Procedure

  1. For each candidate, determine the approval score (= no. of voters who marked the candidate as "favourite" or "also approved").
  2. Draw two voters (or ballots) at random (uniformly and with replacement) and determine the set of candidates marked as "favourite" or "also approved" by both voters.
  3. If that set is not empty, the winner is that member of the set which has the highest approval score.
  4. Otherwise, the winner is the candidate marked "favourite" by the first drawn voter.

(D2MAC does not specify how possible ties in the approval score in step 3 are resolved.)

Examples

Two factions with a compromise option and full cooperation

55 voters: A favourite, C also approved.
45 voters: B favourite, C also approved.

Approval scores: A 55, B 45, C 100.

Whatever two voters are drawn, both approve of C, hence C is the certain winner (i.e. has a winning probability of 1).

This shows that D2MAC does not necessarily elect the favourite of a majority when there is a strong compromise option.

Two factions with a compromise option and unilateral cooperation

54 voters: A favourite, none also approved.
1 voter: A favourite, C also approved.
45 voters: B favourite, C also approved.

Approval scores: A 55, B 45, C 46.

C wins if and only if (a) both drawn voters are amoung the 45 B-voter or (b) one of the two is amoung them and the other is the lone "cooperative" A-voter. This has a probability of 45%*45% + 1%*45% + 45%*1% = 21.15%.

A wins if (a) the first voter is amoung the 54 "non-cooperative" A-voters or (b) the first voter is the lone "cooperative" A-voter and the second voter is amoung all 55 A-voters. This has a probability of 54% + 1%*55% = 54.55%.

B wins if the first voter is amoung the 45 B-voters and the second voter is amoung the 54 "non-cooperative" A-voters. This has a probability of 45%*54% = 24.30%.

This shows that under D2MAC a majority (here the 54 A-voters) cannot necessarily make sure their favourite (here A) wins with certainty. Rather every group of voters who favour the same option can make sure their favourite gets at least a winning probability of size of group / no. of voters.

Two factions with a compromise option and bilateral partial cooperation

25 voters: A favourite, none also approved.
30 voters: A favourite, C also approved.
30 voters: B favourite, C also approved.
15 voters: B favourite, none also approved.

Approval scores: A 55, B 45, C 60.

C wins if and only if both drawn voters are amoung the 30+30 "cooperative" voters, which has a probability of 60%*60% = 36%.

A wins if (a) the first voter is amoung the 25 "non-cooperative" A-voters or (b) the first voter is amoung the 30 "cooperative" A-voters but the second voter is not amoung the 60 "cooperative" voters. This has a probability of 25% + 30%*40% = 37%.

B wins if (a) the first voter is amoung the 15 "non-cooperative" B-voters or (b) the first voter is amoung the 30 "cooperative" B-voters but the second voter is not amoung the 60 "cooperative" voters. This has a probability of 15% + 30%*40% = 27%.

Variants

Ratings-based D2MAC

This mainly differ from D2MAC in that voters submit a standard cardinal ratings ballot, that is, each voter assigns to each candidate (or option) a number as "rating", and in that those candidates are considered "approved" which the voter seems to prefer to the Random Ballot lottery. The exact procedure is this:

  1. For each voter, let r be the expected value of the voter's rating of the candidate that a randomly chosen ballot assigned the highest rating to. Then consider those candidates as "approved" by the voter whom the voter rates at least as high as r. Then, for each candidate, determine the approval score (= no. of voters who "approve" of the candidate in the above sense).
  2. Draw two voters (or ballots) at random (uniformly and with replacement) and determine the set of candidates X "approved" by both voters.
  3. If that set is not empty, the winner is that member of the set which has the highest approval score.
  4. Otherwise, the winner is the candidate the first drawn voter assigned the highest rating to.

D2MSC

D2MSC (Draw Two / Maximum Sum Compromise) differs from Ratings-based D2MAC only in that not the approval score but the ratings sum (= sum of ratings assigned to the candidate by all voters) is used in step 3.

D2MGC

D2MGC (Draw Two / Maximum Gini Compromise) differs from D2MAC(Ratings) only in that not the approval score but the Gini welfare function based on the ratings (= expected minimum of the ratings assigned to the candidate by two voters drawn uniformly at random with replacement) is used in step 3.

RB-normalized D2MSC and D2MGC

These two variants differ from D2MSC and D2MGC in that the ratings of each voters are first normalized by an affine transformation so that the voter's favourite receives a rating of 1 and so that 0 is the expected value of the voter's rating of the candidate that a randomly chosen ballot assigned the highest rating to.