<a onclick="return top.js.OpenExtLink(window,event,this)" href="mailto:election-methods@electorama.com">election-methods@electorama.com</a><br><br><br><br>Jonathan Lundell <<a href="mailto:jlundell@pobox.com">jlundell@pobox.com
</a>> wrote:<br><br> At 2:18 PM -0600 6/13/06, Jan Kok wrote:<br> >One bit of help I could use: Is anyone familiar with the article Rob<br> >mentions in this paragraph?<br> ><br> >> Jack Nagel, a UPenn professor, has an important new article out
<br> >>this year called "Burr's Dilemma" that goes into how this flaw<br> >>played out in the 1796 and 1800 presidential election, where the<br> >>presidential electors (who at that time had two equally weighted
<br> >>votes), made strategic mistakes with major consequences in both<br> >>elections. Nagel used to say approval voting was better, but now<br> >>says IRV is better.<br><br> The key slide from Nagel's presentation:
<br><br> Statement of the Burr Dilemma<br><br> When three or more candidates compete for an office that only one can<br> win, and voters (V) may support two (or more) of them by casting<br> equal (approval) votes, candidates (C1 and C2) seeking support from
<br> the same group (G) of voters will maximize their respective votes if<br> all members of G vote for both C1 and C2. Both candidates thus have<br> an incentive to appeal for shared support. However, if such appeals
<br> succeed completely and neither candidate receives votes from members<br> of V-G, the outcome will be at best a tie in which neither C1 nor C2<br> is assured of victory. Each candidate therefore has an incentive to
<br> encourage some members of G to vote only for himself or herself. If<br> both C1 and C2 successfully follow such a strategy, either or both<br> may receive fewer votes than some other candidate C3 supported by
<br> members of V-G. The risk that both C1 and C2 will lose is<br> exacerbated if a retaliatory spiral increases the number of single<br> votes cast by members of G. At the limit, such retribution reduces<br> approval voting to conventional single-vote balloting among the
<br> members of G or, if the problem is endemic, among all voters. The<br> nearer that limit is approached, the lower the probability that<br> advantages claimed for approval voting will be realized..<br><br> I believe that range voting could mostly solve such problems. Parties could instruct people to vote all their voting power for their favorite of the candidates and all of their voting power minus 1 for the next favorite... if all voters pursued this strategy, the most preferred of the group would get elected while taking little from the groups' total strength. It would be unlikely that a competitor could gain much from such a small loss in total strength unless the amount of range is somewhere like 1-10, but if you give people more range to deal with the effects are diminished.
<br><br> Such a strategy is actually somewhat equivalent to Borda count. Borda count has the effect of giving the win to the person with the highest average rank, it would make sense to use the same method for deciding between two people, although if a group used it to decide between more than three people burying and the other negative effects of Borda would come into play.
<br><br> Range actually solves a lot of approvals' problems. For one, people often complain about the "lowest common denominator" problem, which happens because approval forces people to give out thier full range. Such a lowest common denominator is likely to get far less votes under range than approval, because if you had the option you'd likely give out smaller approval to such a candidate.
<br><br> Range is really starting to make more and more sense to me as the days go by. I originally disliked it because I assumed people would always vote approval-esque, but this isn't exactly true, and it never really can make the results worse than approval. I'm trying to come up with a range equivalent of proportional approval voting, but I really haven't put much thought into it yet, even though it seems easy. The reweighted range voting method that already exists shares many of the same problems as sequential approval voting -
I.E. it is strategically optimal to withold votes from people you know are going to win.<br>