General Linear Model

Background

The General Linear Model (GLM) is a foundational concept in econometrics and statistics. It encompasses a wide range of statistical models in which the outcome variable is expressed linearly in terms of predictor variables.

Historical Context

The roots of the General Linear Model can be traced back to the early developments in regression analysis in the 18th and 19th centuries. Significant historical developments in GLM included contributions from neurons like Gauss and Legendre, who laid down the fundamentals of least squares estimation.

Definitions and Concepts

The General Linear Model is formally defined as: \[ Y = XB + U \] where:

• \( Y \) is a matrix of multivariate observations (response variables),
• \( X \) is a matrix containing the predictor variables,
• \( B \) is a matrix of parameters to be estimated (regression coefficients),
• and \( U \) is a matrix of random errors, often assumed to follow a multivariate normal distribution.

Major Analytical Frameworks

Classical Economics

Within classical economics, linear models have been employed primarily to study the relationship between variables of interest, such as the relationship between national product and input factors like labor and capital.

Neoclassical Economics

The neoclassical framework benefited from GLMs to extend theories of optimization across multiple variables, aligning closely with utility maximization and cost minimization problems.

Keynesian Economics

GLMs have been used in Keynesian economics to analyze aggregate consumption patterns, investment behavior, and the effectiveness of fiscal policy interventions.

Marxian Economics

Marxian economists have occasionally utilized linear models to analyze commodity prices, labor surplus values, and the dynamics within capital markets.

Institutional Economics

Institutional economists deploy GLMs to investigate the effect of different institutional frameworks and policies on economic outcomes.

Behavioral Economics

In behavioral economics, GLMs function as analysis tools to encapsulate and measure the impact of psychological factors on economic decision-making.

Post-Keynesian Economics

GLMs help in examining non-equilibrium conditions and the effects of financial markets, emphasizing a dynamic analysis distinctive to Post-Keynesian schools of thought.

Austrian Economics

Austrians are more critical of heavy reliance on statistical modelling akin to GLMs but can sometimes use linear approximations in their empirical investigations.

Development Economics

GLMs enable the modeling of multifaceted relationships between economic variables vital to understanding and improving development outcomes.

Monetarism

Monetarists frequently utilize GLMs to understand the quantitative relationships underpinning the supply of money and economic output and price levels.

Comparative Analysis

Different schools of economic thought place varying emphasis on their use of the General Linear Model. For example, while neoclassical and Keynesian approaches might extensively utilize GLMs for policy evaluation, Austrian economists might view such models with more skepticism.

Case Studies

Application in Labor Economics

In labor economics, GLMs are used to model wage determinants, uncovering the impact of education, experience, and economic conditions on salary variances.

Analysis of Consumption Patterns

The use of GLM for investigating consumption data allows for detailed understanding of individual household behaviors contributing to aggregate demand.

Suggested Books for Further Studies

1. “Econometric Analysis” by William H. Greene
2. “Introduction to Econometrics” by James H. Stock, Mark W. Watson
3. “A Guide to Econometrics” by Peter Kennedy
4. “Principles of Econometrics” by R. Carter Hill, William E. Griffiths, Guay C. Lim

Related Terms with Definitions

• Ordinary Least Squares (OLS): A method for estimating the parameters in a linear regression model.
• Multivariate Normal Distribution: A generalization of the normal distribution to multiple variables.
• Fixed-effects model: A model that allows for estimator inferences with heterogeneously distributed variables.
• Random-effects model: A model that assumes data being analyzed is drawn from a hierarchy of different populations.