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| Ideal Point Estimation× | Roll-Call Analysis× | Wordfish Scaling× | |
|---|---|---|---|
| Fagområde | Political Science | Political Science | Political Science |
| Familie | Latent structure | Latent structure | Latent structure |
| Oprindelsesår≠ | 2004 | — | 2008 |
| Ophavsperson≠ | Clinton, Jackman & Rivers (Bayesian formulation); Poole & Rosenthal (spatial tradition) | Spatial-voting tradition; Poole, Rosenthal, Clinton, Jackman, Rivers | Jonathan Slapin and Sven-Oliver Proksch |
| Type≠ | Latent-variable spatial model of binary choice data | Scaling and analysis of legislative binary-choice data | Unsupervised latent-position model for word-count data |
| Oprindelig kilde≠ | Clinton, J., Jackman, S., & Rivers, D. (2004). The Statistical Analysis of Roll Call Data. American Political Science Review, 98(2), 355–370. DOI ↗ | Poole, K. T. (2000). Nonparametric Unfolding of Binary Choice Data. Political Analysis, 8(3), 211–237. link ↗ | Slapin, J. B., & Proksch, S.-O. (2008). A Scaling Model for Estimating Time-Series Party Positions from Texts. American Journal of Political Science, 52(3), 705–722. DOI ↗ |
| Aliasser | Ideal point model, Item response theory for roll calls, Spatial voting model, Bayesian ideal points | Roll call voting analysis, Legislative vote scaling, Roll-call scaling, Optimal classification of votes | Wordfish text scaling, Poisson scaling of texts, Unsupervised text scaling, Wordfish position estimation |
| Relaterede≠ | 4 | 3 | 4 |
| Resumé≠ | Ideal point estimation recovers the latent policy positions — ideal points — of political actors from their observed binary choices, most often legislators' yea/nay votes on roll calls. Building on the spatial theory of voting and formalized as a Bayesian item-response model by Clinton, Jackman, and Rivers in 2004, it places each legislator and each bill in a low-dimensional policy space and estimates positions so that the probability a legislator votes yea increases as the bill's 'yea' outcome moves closer to that legislator's ideal point. | Roll-call analysis is the study of recorded legislative votes to recover the structure of political conflict — the ideological positions of legislators, the dimensionality of the issue space, and the cohesion of parties. It encompasses parametric spatial and item-response models that estimate latent ideal points, nonparametric scaling such as optimal classification that maximizes correctly classified votes without distributional assumptions, and descriptive cohesion statistics like the Rice index. Together these tools turn a matrix of yea/nay votes into a map of who agrees with whom and why. | Wordfish scaling is an unsupervised text-as-data method that estimates a single latent position for each political document — a party manifesto, a legislative speech, a press release — directly from its word frequencies, without any reference texts or hand coding. Introduced by Slapin and Proksch in 2008, it models word counts as draws from a Poisson distribution whose rate depends on a document position and word-specific parameters, recovering, for example, a left–right ordering of parties purely from how often each word appears in each text. |
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