Everything about Single Transferable Vote totally explained
Single transferable vote (STV) is a
preferential voting system designed to minimize
wasted votes and provide
proportional representation while ensuring that votes are explicitly for candidates rather than
party lists. It achieves this by using multi-seat constituencies (districts) and by transferring votes that would otherwise be wasted. STV initially allocates an individual's vote to his or her most preferred candidate, and then subsequently transfers unneeded or unused votes after candidates are either elected or eliminated, according to the voter's stated preferences.
STV has had its widest adoption in the English-speaking world. As of 2007, STV is used for elections in the
Republic of Ireland (since 1919),
Northern Ireland (except elections to the
British House of Commons) and
Malta. It is also used for the
Australian Senate in the form of a
group voting ticket, as well as certain regional and local elections in
Australia, local government elections in
Scotland and some local government elections in
New Zealand — see
History and use of the Single Transferable Vote. In the United States, it's used for city elections in
Cambridge, Massachusetts, various
student government elections, and will be used for certain city elections in
Minneapolis, Minnesota, starting in 2009. Under a bill before the
Parliament of Canada, STV would be used for
consultative elections of Senators. A variation of STV known as
BC-STV came within three points of meeting the 60% threshold the government had set for adoption in
British Columbia in a 2005 referendum, but it'll be put to the voters a second time in 2009. STV has been used for local elections in
Scotland since May 2007.
STV was pioneered in Tasmania, Australia, where it has been in constant use in lower house (House of Assembly) since the early 1900s. It is known as Hare-Clark, in recognition of Thomas Hare who initially developed the system and the Tasmanian Attorney-General, Andrew Inglis Clark who worked hard to have a modified version introduced. Hare-Clark has been subsequently modified to allow for improvements, such as rotating ballot papers (the Robson Rotation). It is held up by its supporters as being the best and fairest electoral system in the world, but outstanding concerns remain that have prevented its widespread adoption.
Terminology
When STV is used in a single-winner election, it's the same as
instant-runoff voting. When used in multi-seat constituencies, it's also called
proportional representation through the single transferable vote (PR-STV). Because instant-runoff isn't a form of
proportional representation, some scholars consider it a separate system from PR-STV.
STV usually refers to PR-STV, and it does in this article. In Australia STV is known as the
Hare-Clark Proportional method, while in the United States it's sometimes called
choice voting and
preference voting.
Voting
In STV, each voter ranks the list of candidates in order of preference. In other words (under the most common ballot design), they place a '1' beside their most preferred candidate, a '2' beside their second most preferred, and so on. The ballot paper submitted by the voter therefore contains an ordinal list of candidates. In the ballot paper shown in the image on the right, the preferences of the voter are as follows:
- John Citizen
- Mary Hill
- Jane Doe
Counting the votes
Setting the quota
In an STV election, a candidate requires a certain minimum number of votes – the quota (or threshold) – to be elected. A number of different quotas can be used; the most common is the
Droop quota, given by the formula:
»
When ballots are counted the election proceeds as follows:
| Candidate: | |
|
|
|
|
| Round 1 |
x x x x |
x x |
x x x x
x x x x
x x x x |
x |
x | Round 1: Chocolate is declared elected, since Chocolate has more votes than the quota
|
| Round 2 |
x x x x |
x x |
x x x x
x x |
x x x x
x |
x x x | Round 2: Chocolate's surplus votes transfer proportionately to Strawberry and Candy according to the Chocolate voters' second choice preferences. However, even with the transfer of this surplus no candidate has reached the quota. Therefore Pear, who has the fewest votes, is eliminated.
|
| Round 3 |
x x x x
x x |
|
x x x x
x x |
x x x x
x |
x x x | Round 3: Pear's votes transfer to their second preference, Oranges, causing Orange to reach the quota and be elected. Orange barely meets the quota, and therefore has no surplus to transfer.
|
| Round 4 |
x x x x
x x |
|
x x x x
x x |
x x x x
x |
x x x | Round 4: Neither of the remaining candidates meets the quota, so Candy is eliminated. Strawberry is the only remaining candidate and so wins the final seat.
|
Result: The winners are
Chocolate,
Oranges and
Strawberries.
Differing counting methods
» Main article: Counting Single Transferable Votes
STV systems differ in a number of ways, primarily in how they transfer votes as well as in the exact size of the quota used for determining winners. In fact, for this reason some have suggested that STV can be considered a family of voting systems rather than a single system. Today the
Droop quota is the most commonly used quota. This ensures majority rule (except in rare cases) while maintaining the condition that no more candidates can reach a quota than there are seats to be filled. As originally conceived STV used the
Hare quota, but this is now generally considered to be technically inferior. New Zealand uses a quota similar to the Droop quota — see:
Electoral system of New Zealand.
The simplest methods of transferring surpluses under STV involve an element of randomness; partially random systems are used in the Republic of Ireland (except Senate elections) and Malta, among other places. For this reason the Gregory method (also known as Newland-Britain or Senatorial rules) was invented, which eliminates randomness by allowing for the transfer of fractions of votes. Gregory is in use in Northern Ireland, Republic of Ireland (Senate elections) and Australia. Both Gregory and these earlier methods have the problem, however, that in some circumstances they don't treat all votes equally. For this reason
Meek's method and
Warren's method have been invented. However, while simpler methods can usually be counted by hand, except in a very small election Meek and Warren require counting to be conducted by computer. Meek is currently used in STV local body elections in New Zealand.
The most recent refinements of STV involve attempting to remove the problem of sequential exclusions. Sequential exclusions mean that sometimes STV eliminates, at an early stage in the count, a candidate who might have gone on to be elected later had they been allowed to remain in the contest. Systems such as
CPO-STV and Sequential STV have been invented to overcome this problem by incorporating elements of
Condorcet methods into STV. A method known as BTR-STV deals with the problem differently and more simply than these systems by simply making sure no such candidate could possibly be eliminated. None of these new methods has yet been used in a government election.
Most of the systems that are currently in use were designed to facilitate a manual counting process. With the ever increasing use of computer technology, many of the processes are in need of review. For example, in calculating a candidate's surplus, some systems use the
number of ballot papers (surplus/number of papers) as opposed to the
allocated value of the ballot papers to determine the value of any candidates surplus (value of the vote/surplus). Computers make it feasible to use the more accurate allocated value method, which maintains the one vote one value principle. A paper-based formula distorts the vote, increasing the value of some votes at the expense of others.
Manual counting issues, like segmentation transfers, need to be further considered in a computerised count. Segmentation transfers are where votes are distributed according to either the order in which they were received, last bundle or the grouping of common value of ballot papers to be transferred from highest to lowest. To simplify the counting process in a computerised count there should be single transaction per candidate without segmentation.
History and current use
The concept of transferable voting was first proposed by
Thomas Wright Hill in 1821. The system remained unused in real elections until 1855, when
Carl Andræ proposed a transferable vote system for elections in
Denmark. Andræ's system was used in 1856 to elect the Danish
Rigsdag, and by 1866 it was also adapted for indirect elections to the second chamber, the
Landsting, until 1915.
Although he wasn't the first to propose a system of transferable votes, the English
barrister Thomas Hare is generally credited with the conception of STV, and he may have independently developed the idea in 1857. Hare's view was that STV should be a means of "making the exercise of the suffrage a step in the elevation of the individual character, whether it be found in the majority or the minority." In Hare's original STV system, he further proposed that electors should have the opportunity of discovering which candidate their vote had ultimately counted for, to improve their personal connection with voting. This is unnecessary in modern STV elections, however, as an individual voter can discover how their vote was ultimately distributed by viewing detailed election results, (this is particularly easy to do using
Meek's method, where only the final weighting's of each candidate need to be published).
The noted political essayist,
John Stuart Mill, was a friend of Hare and an early proponent of STV, praising it in his essay Considerations on Representative Government. His contemporary,
Walter Bagehot, also praised the Hare system for allowing everyone to elect an MP, even ideological minorities, but also added that the Hare system would create more problems than it solved: "[theHare system] is inconsistent with the extrinsic independence as well as the inherent moderation of a Parliament - two of the conditions we've seen, are essential to the bare possibility of parliamentary government."
Advocacy of STV spread through the
British Empire, leading it to be sometimes known as
British Proportional Representation. In 1896,
Andrew Inglis Clark was successful in persuading the
Tasmanian House of Assembly to be the first parliament in the world elected by what became known as the
Hare-Clark system, named after himself and Thomas Hare.
Meek also considered a variant on his system which would have allowed for equal preferences to be expressed.
Issues
A frequent concern with STV among electorates considering its adoption is its relative complexity compared with
plurality voting methods.
STV differs from all other proportional-representation systems in actual use in that candidates of one party can be elected on transfers from voters for other parties. Hence, the use of STV may reduce the role of political parties in the electoral process and corresponding
partisanship in the resulting government.
As a multi-member system, filling vacancies between elections can be problematic, and a variety of responses have been devised. The countback method is used in the Australian Capital Territory, Tasmania, Victoria, Malta, and Cambridge, Massachusetts. Casual vacancies are filled re-examining the ballot papers data from the previous election. Another option is to have a head official or remaining members of the elected body appoint a new member to fulfil the vacancy. A third alternative to fulfil a vacancy is to hold a single-winner by-election (effectively instant-runoff); this allows each party to choose a new candidate and all voters to participate. Another alternative is to have the candidates themselves create an ordered list of successors before leaving their seat. In the European Parliament, a departing Republic of Ireland or Northern Ireland member is replaced with the top eligible name from a replacement list submitted by the candidate at the time of the original election.
Standing too few candidates may result in all of them being elected in the early stages, and votes being transferred to candidates of other parties. Standing too many candidates might result in first-preference votes being spread too thinly among them, and consequently several potential winners with broad second-preference appeal may be eliminated before others are elected and their second-preference votes distributed. In practice, most voters will preference candidates from the same party in order, which minimises the impact of this potential shortcoming of STV.
The outcome of voting under STV is proportional within a single election to the collective preference of voters, assuming voters have ranked their real preferences and vote along strict party lines. However, due to other voting mechanisms usually used in conjunction with STV, such as a district or constituency system, an election using STV may not guarantee proportionality across all districts put together.
STV systems in use in different countries vary, both in ballot design and in whether or not voters are obliged to provide a full list of preferences. In jurisdictions such as the Republic of Ireland and Northern Ireland, voters are permitted to rank as many or as few candidates as they wish. Consequently voters sometimes, for example, rank only the candidates of a single party, or of their most preferred parties. A minority of voters, especially if they don't fully understand the system, may even 'bullet vote', only expressing a first preference. Allowing voters to rank only as many candidates as they wish grants them greater freedom but can also lead to some voters ranking so few candidates that their vote eventually becomes 'exhausted'–that is, at a certain point during the count it can no longer be transferred and therefore loses an opportunity to influence the result.
STV provides proportionality by transferring votes to minimise waste, and therefore also minimises the number of unrepresented or disenfranchised voters.
According to the
Gibbard-Satterthwaite theorem tactical voting is possible in all non-dictatorial
deterministic voting systems. A number of methods of tactical or strategic voting exist that can be used in elections conducted using STV. In general these methods are only effective in marginal districts and only affect the allocation of a single seat per district.
Academic analysis of voting systems such as STV generally centers on the
voting system criteria that they pass. No preference voting system satisfies all the criteria described in
Arrow's impossibility theorem: in particular, STV fails to achieve
independence of irrelevant alternatives (like most other vote-based ordering systems) as well as
monotonicity.
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