Spatial models of voting: Difference between revisions
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The '''spatial model of voting''' plots voters and candidates in a multi-dimensional space where each dimension represents a single political issue<ref name=":1">{{Cite journal|last=Davis|first=Otto A.|last2=Hinich|first2=Melvin J.|last3=Ordeshook|first3=Peter C.|date=1970-01-01|title=An Expository Development of a Mathematical Model of the Electoral Process|url=https://semanticscholar.org/paper/66661f9678dbe956e525e87a50b5b4ee6bf280f1|journal=The American Political Science Review|volume=64|issue=2|pages=426–448|doi=10.2307/1953842|jstor=1953842|quote=Since our model is multi-dimensional, we can incorporate all criteria which we normally associate with a citizen's voting decision process — issues, style, partisan identification, and the like.}}</ref><ref>{{Cite journal|last=Stoetzer|first=Lukas F.|last2=Zittlau|first2=Steffen|date=2015-07-01|title=Multidimensional Spatial Voting with Non-separable Preferences|url=http://pan.oxfordjournals.org/lookup/doi/10.1093/pan/mpv013|journal=Political Analysis|volume=23|issue=3|pages=415–428|doi=10.1093/pan/mpv013|issn=1047-1987|quote=The spatial model of voting is ''the'' work horse for theories and empirical models in many fields of political science research, such as the equilibrium analysis in mass elections ... the estimation of legislators’ ideal points ... and the study of voting behavior. ... Its generalization to the multidimensional policy space, the Weighted Euclidean Distance (WED) model ... forms the stable theoretical foundation upon which nearly all present variations, extensions, and applications of multidimensional spatial voting rest.|via=}}{{Dead link|date=November 2019|bot=InternetArchiveBot|fix-attempted=yes}}</ref> sub-component of an issue,<ref>If voter preferences have more than one peak along a dimension, it needs to be decomposed into multiple dimensions that each only have a single peak. "We can satisfy our assumption about the form of the loss function if we increase the dimensionality of the analysis — by decomposing one dimension into two or more"</ref> or candidate attribute.<ref>{{Cite journal|last=Tideman|first=T|last2=Plassmann|first2=Florenz|date=June 2008|title=The Source of Election Results: An Empirical Analysis of Statistical Models of Voter Behavior|url=https://www.researchgate.net/publication/228920943|quote=Assume that voters care about the “attributes” of candidates. These attributes form a multi-dimensional “attribute space.”|via=}}</ref> Voters are then modeled as having an ''ideal point'' in this space and voting for the nearest candidates to that point. The dimensions of this model can also be assigned to non-political properties of the candidates, such as perceived corruption, health, etc.<ref name=":1" />
The spatial model of voting assumes voters can be treated as having a preference distance between themselves and various policy proposals, such that the some policies are closer or further to what the voter wants. This can be mapped out through multiple dimensions i.e. a voter may be closer to a candidate on gun control, but disagree on abortion.
<ref>http://www.pitt.edu/~woon/courses/ps2703_Lec4.pdf</ref>
Most of the other spectra in this article can then be considered [https://en.wikipedia.org/wiki/Projection_(mathematics) projections] of this multi-dimensional space onto a smaller number of dimensions.<ref name=":2">{{Cite journal|last=Alós-Ferrer|first=Carlos|last2=Granić|first2=Đura-Georg|date=2015-09-01|title=Political space representations with approval data|url=http://repub.eur.nl/pub/111247|journal=Electoral Studies|volume=39|pages=56–71|doi=10.1016/j.electstud.2015.04.003|quote=The analysis reveals that the underlying political landscapes ... are inherently multidimensional and cannot be reduced to a single left-right dimension, or even to a two-dimensional space. ... From this representation, lower-dimensional projections can be considered which help with the visualization of the political space as resulting from an aggregation of voters' preferences. ... Even though the method aims to obtain a representation with as few dimensions as possible, we still obtain representations with four dimensions or more.|hdl=1765/111247}}</ref> For example, a study of German voters found that at least four dimensions were required to adequately represent all political parties.<ref name=":2" />
While scholars employ many models to study voting habits, there are three primary models used in statistical studies of issue voting: the linear position model, the spatial model and the salience model. Each model takes a different approach to issue voting into account.
* The Linear Position Model attempts to predict how strongly an individual will issue vote in an election. The model suggests that the more a voter and candidate agree on a particular issue, the better chance the candidate has of receiving the individual's vote.<ref>Borre, 19</ref><ref>Meier and Campbell, 26-43</ref> In this model, a graph is used to display the relationship between the number of people voting for the party and the consistency of the issue position.<ref>Borre, 19</ref><ref>Meier and Campbell, 26-43</ref> The equation “Y = a + bX” is used, where the variable “a” represents the minimal numbert of people voting for the party, “b” is a variable used to ensure that there is a positive gradient, "X" represents the consistency of the party's issue position, and Y represents the number of people who vote for the party.<ref>Borre, 20</ref><ref>Davis et. al, 426-429</ref>
* The [https://en.wikipedia.org/wiki/Spatial_model_of_voting Spatial Model] attempts to show the perceptions and decisions of voters when issue voting strategies are used in elections.<ref>Cho, 275</ref> This model assumes that if someone’s issue preferences are placed on a hypothetical spatial field along with all possible candidates’ policy positions, the individual will vote for the candidate whose political stances are closest to their own.<ref>Rabinowitz, 94</ref><ref>McCullough,199-22</ref> Other models that follow the idea of “closeness” are called proximity models.<ref>Rabinowitz, 93, 96</ref>
* The Salience Model asserts that the two major parties in the [https://en.wikipedia.org/wiki/United_States United States] are associated with certain goals or views on an issue, and that the voter’s decision in selecting a candidate depends on the actual salience of the issue to the voter.<ref>Borre, 6</ref><ref>Campbell, 93</ref> This model is important when considering issue voting because it utilizes election agenda data to predict election outcome.<ref>Borre, 6</ref><ref>Niemi,1212</ref> A simple view of this model can be summarized with the equation:
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== See also ==
[[Statistics]]▼
▲* [[Statistics]]
[[McKelvey–Schofield chaos theorem]]▼
▲* [[McKelvey–Schofield chaos theorem]]
== References ==
<references />
[[Category:Voting theory]]
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