Social:Latent variable

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Short description: Variable not directly observed

In statistics, latent variables (from Latin: present participle of lateo (“lie hidden”), opposed to observable variables) are variables that are not directly observed but are rather inferred through a mathematical model from other variables that are observed (directly measured). Mathematical models that aim to explain observed variables in terms of latent variables are called latent variable models. Latent variable models are used in many disciplines, including political science, demography, engineering, medicine, ecology, physics, machine learning/artificial intelligence, bioinformatics, chemometrics, natural language processing, management and the social sciences.

Latent variables may correspond to aspects of physical reality. These could in principle be measured, but may not be for practical reasons. In this situation, the term hidden variables is commonly used (reflecting the fact that the variables are meaningful, but not observable). Other latent variables correspond to abstract concepts, like categories, behavioral or mental states, or data structures. The terms hypothetical variables or hypothetical constructs may be used in these situations.

The use of latent variables can serve to reduce the dimensionality of data. Many observable variables can be aggregated in a model to represent an underlying concept, making it easier to understand the data. In this sense, they serve a function similar to that of scientific theories. At the same time, latent variables link observable "sub-symbolic" data in the real world to symbolic data in the modeled world.

Examples

Estimation of a mean height curve (black) for boys from the Berkeley Growth Study with and without warping. The warping is based on latent variables that maps age to a synchronized biological age using a nonlinear mixed-effects model.[1]

Psychology

Latent variables, as created by factor analytic methods, generally represent "shared" variance, or the degree to which variables "move" together. Variables that have no correlation cannot result in a latent construct based on the common factor model.[2]

Economics

Examples of latent variables from the field of economics include quality of life, business confidence, morale, happiness and conservatism: these are all variables which cannot be measured directly. But linking these latent variables to other, observable variables, the values of the latent variables can be inferred from measurements of the observable variables. Quality of life is a latent variable which cannot be measured directly so observable variables are used to infer quality of life. Observable variables to measure quality of life include wealth, employment, environment, physical and mental health, education, recreation and leisure time, and social belonging.

Medicine

Latent-variable methodology is used in many branches of medicine. A class of problems that naturally lend themselves to latent variables approaches are longitudinal studies where the time scale (e.g. age of participant or time since study baseline) is not synchronized with the trait being studied. For such studies, an unobserved time scale that is synchronized with the trait being studied can be modeled as a transformation of the observed time scale using latent variables. Examples of this include disease progression modeling and modeling of growth (see box).

Inferring latent variables

There exists a range of different model classes and methodology that make use of latent variables and allow inference in the presence of latent variables. Models include:

Analysis and inference methods include:

Bayesian algorithms and methods

Bayesian statistics is often used for inferring latent variables.

See also


References

  1. "A nonlinear mixed-effects model for simultaneous smoothing and registration of functional data". Pattern Recognition Letters 38: 1-7. 2014. doi:10.1016/j.patrec.2013.10.018. 
  2. Tabachnick, B.G.; Fidell, L.S. (2001). Using Multivariate Analysis. Boston: Allyn and Bacon. ISBN 978-0-321-05677-1. [page needed]
  3. 3.0 3.1 Borsboom, D.; Mellenbergh, G.J.; van Heerden, J. (2003). "The Theoretical Status of Latent Variables". Psychological Review 110 (2): 203–219. doi:10.1037/0033-295X.110.2.203. PMID 12747522. http://rhowell.ba.ttu.edu/BorsboomLatentvars2003.pdf. Retrieved 2008-04-08. 
  4. Greene, Jeffrey A.; Brown, Scott C. (2009). "The Wisdom Development Scale: Further Validity Investigations". International Journal of Aging and Human Development 68 (4): 289–320 (at p. 291). doi:10.2190/AG.68.4.b. PMID 19711618. 
  5. Spearman, C. (1904). ""General Intelligence," Objectively Determined and Measured". The American Journal of Psychology 15 (2): 201–292. doi:10.2307/1412107. 
  6. Kelly, Bryan T. and Pruitt, Seth and Su, Yinan, Instrumented Principal Component Analysis (December 17, 2020). Available at SSRN: https://ssrn.com/abstract=2983919 or http://dx.doi.org/10.2139/ssrn.2983919

Further reading

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