Table of Contents
Multinomial Logistic Regression is a statistical technique used to model the relationship between a categorical dependent variable with three or more categories and one or more independent variables. It is an extension of the binary logistic regression model and allows for the prediction of multiple outcomes.
In Mplus, Multinomial Logistic Regression is used for data analysis by estimating the parameters of the model and providing information on the strength and direction of the relationship between the dependent and independent variables. This technique is commonly used in social sciences, education, and psychology to examine the influence of various factors on a categorical outcome. It is particularly useful in understanding the effects of multiple predictors on a categorical response and can provide valuable insights for decision-making and policy development. With its ability to handle complex data structures and non-linear relationships, Multinomial Logistic Regression is a powerful tool for analyzing categorical data in Mplus.
Multinomial Logistic Regression | Mplus Data Analysis Examples
Version info: Code for this page was tested in Mplus version 6.12.
Multinomial logistic regression is used to model nominal
outcome variables, in which the log odds of the outcomes are modeled as a linear
combination of the predictor variables.
Please note: The purpose of this page is to show how to use various data analysis commands.
It does not cover all aspects of the research process which researchers are expected to do. In
particular, it does not cover data cleaning and checking, verification of assumptions, model
diagnostics and potential follow-up analyses.
Examples of multinomial logistic regression
Example 1. People’s occupational choices might be influenced
by their parents’ occupations and their own education level. We can study the
relationship of one’s occupation choice with education level and father’s
occupation. The occupational choices will be the outcome variable which
consists of categories of occupations.
Example 2. A biologist may be
interested in food choices that alligators make. Adult alligators might have
different preferences from young ones. The outcome variable here will be the
types of food, and the predictor variables might be size of the alligators
and other environmental variables.
Example 3. Entering high school students make program choices among general program,
vocational program and academic program. Their choice might be modeled using
their writing score and their social economic status.
Description of the data
For our data analysis example, we will expand our third example with a
hypothetical data set. The data set contains variables on 200 students. The outcome variable is
prog, program type, where program type 1 is general, type 2 is academic,
and type 3 is vocational. The predictor variables are social economic status,
ses, a three-level categorical variable and writing score, write, a continuous variable. Let’s start with getting some descriptive statistics of the variables of interest. You can download the
data set here.
Data:
File is D:hsbdemo.dat ;
Variable:
Names are
id female ses schtyp prog read write math science socst honors awards
cid;
Missing are all (-9999) ;
Analysis:
Type = basic;
Plot:
type = plot1;
RESULTS FOR BASIC ANALYSIS
ESTIMATED SAMPLE STATISTICS
Means
ID FEMALE SES SCHTYP PROG
________ ________ ________ ________ ________
1 100.500 0.545 2.055 1.160 2.025
Means
READ WRITE MATH SCIENCE SOCST
________ ________ ________ ________ ________
1 52.230 52.775 52.645 51.850 52.405
Means
HONORS AWARDS CID
________ ________ ________
1 0.265 1.670 10.430
Covariances
ID FEMALE SES SCHTYP PROG
________ ________ ________ ________ ________
ID 3333.250
FEMALE -2.507 0.248
SES 8.797 -0.045 0.522
SCHTYP 10.210 0.003 0.036 0.134
PROG -2.308 0.001 0.009 -0.024 0.474
READ 87.755 -0.270 2.167 0.323 -0.951
WRITE 101.907 1.208 1.417 0.441 -1.179
MATH 118.283 -0.137 1.840 0.337 -0.966
SCIENCE 183.260 -0.628 2.018 0.234 -1.291
SOCST 113.333 0.279 2.568 0.380 -1.440
HONORS 1.148 0.031 0.060 -0.002 -0.012
AWARDS 10.490 0.160 0.318 0.038 -0.152
CID 89.335 0.031 1.336 0.236 -0.766
Covariances
READ WRITE MATH SCIENCE SOCST
________ ________ ________ ________ ________
READ 104.597
WRITE 57.707 89.394
MATH 63.297 54.555 87.329
SCIENCE 63.649 53.266 58.212 97.538
SOCST 68.067 61.236 54.489 49.191 114.681
HONORS 2.209 2.820 2.234 1.820 1.833
AWARDS 10.421 14.616 10.168 9.021 10.129
CID 50.576 44.807 46.073 47.645 40.461
Covariances
HONORS AWARDS CID
________ ________ ________
HONORS 0.195
AWARDS 0.652 3.291
CID 1.611 7.832 33.485
Correlations
ID FEMALE SES SCHTYP PROG
________ ________ ________ ________ ________
ID 1.000
FEMALE -0.087 1.000
SES 0.211 -0.125 1.000
SCHTYP 0.482 0.015 0.137 1.000
PROG -0.058 0.004 0.017 -0.095 1.000
READ 0.149 -0.053 0.293 0.086 -0.135
WRITE 0.187 0.256 0.207 0.127 -0.181
MATH 0.219 -0.029 0.272 0.098 -0.150
SCIENCE 0.321 -0.128 0.283 0.065 -0.190
SOCST 0.183 0.052 0.332 0.097 -0.195
HONORS 0.045 0.139 0.190 -0.015 -0.038
AWARDS 0.100 0.177 0.243 0.057 -0.121
CID 0.267 0.011 0.320 0.111 -0.192
Correlations
READ WRITE MATH SCIENCE SOCST
________ ________ ________ ________ ________
READ 1.000
WRITE 0.597 1.000
MATH 0.662 0.617 1.000
SCIENCE 0.630 0.570 0.631 1.000
SOCST 0.621 0.605 0.544 0.465 1.000
HONORS 0.489 0.676 0.542 0.418 0.388
AWARDS 0.562 0.852 0.600 0.503 0.521
CID 0.855 0.819 0.852 0.834 0.653
Correlations
HONORS AWARDS CID
________ ________ ________
HONORS 1.000
AWARDS 0.815 1.000
CID 0.631 0.746 1.000
Analysis methods you might consider
Multinomial logistic regression
Below we show how to regress prog on ses and write in a
multinomial logit model in Mplus. We specify that the dependent variable,
prog, is an unordered categorical variable using the Nominal option. Mplus
will not automatically dummy-code categorical variables for you, so in order to
get separate coefficients for ses groups 1 and 2 relative to ses group 3, we
must create dummy variables using the Define command. We include our newly
created dummy variables, ses1 and ses2, in both the Usevariables option and the
Model command. In the multinomial logit model, one
outcome group is used as the “reference group” (also called a base category), and the
coefficients for all other outcome groups describe how the independent variables
are related to the probability of being in that outcome group versus the reference
group. Mplus automatically uses the last
category of the dependent variable as the base category or comparison group,
which in this case is the vocational category.
Looking at the syntax below, in the model statement we have entered “prog#1
prog#2 on ses1 ses2 write.” Mplus uses a variable name followed by a pound sign
and a number to refer to the categories of the nominal dependent variable, except the final category,
which is the reference group and cannot be referred to in the model statement
(if you try, Mplus will issue an error message). Thus the
line included in our model statement indicates that we want to regress both
levels of prog on ses(as dummy variables) and write.
Additionally, by default for multinomial logistic regression, Mplus calculates
robust standard errors.
Data:
File is C:UsersalinDocumentsmplus_andyhsbdemo.dat ;
Variable:
Names are
id female ses schtyp prog read write math science socst honors awards
cid;
Missing are all (-9999) ;
Usevariables are prog write ses1 ses2;
Nominal is prog;
Define:
ses1 = ses == 1;
ses2 = ses == 2;
Model:
prog#1 prog#2 on ses1 ses2 write;
MODEL FIT INFORMATION
Number of Free Parameters 8
Loglikelihood
H0 Value -179.982
H0 Scaling Correction Factor 1.016
for MLR
Information Criteria
Akaike (AIC) 375.963
Bayesian (BIC) 402.350
Sample-Size Adjusted BIC 377.005
(n* = (n + 2) / 24)
MODEL RESULTS
Two-Tailed
Estimate S.E. Est./S.E. P-Value
PROG#1 ON
SES1 0.180 0.651 0.277 0.782
SES2 -0.645 0.602 -1.071 0.284
WRITE 0.056 0.024 2.276 0.023
PROG#2 ON
SES1 -0.983 0.612 -1.604 0.109
SES2 -1.274 0.524 -2.430 0.015
WRITE 0.114 0.022 5.208 0.000
Intercepts
PROG#1 -2.546 1.331 -1.914 0.056
PROG#2 -4.236 1.206 -3.511 0.000
LOGISTIC REGRESSION ODDS RATIO RESULTS
PROG#1 ON
SES1 1.197
SES2 0.525
WRITE 1.057
PROG#2 ON
SES1 0.374
SES2 0.280
WRITE 1.120
The ratio of the probability of choosing one outcome category over the
probability of choosing the baseline category is often referred to as relative risk
(and it is also sometimes referred to as odds as we have just used to described the
regression parameters above). Relative risk can be obtained by
exponentiating the linear equations above, yielding regression coefficients that
are relative risk ratios for a unit change in the predictor variable. These
relative risk ratios can be found in the Logistic Regression Odds Ratio Results
section of the output.
Things to consider
See also
References
Cite this article
stats writer (2024). What is Multinomial Logistic Regression and how is it used in Mplus for data analysis?. PSYCHOLOGICAL SCALES. Retrieved from https://scales.arabpsychology.com/stats/what-is-multinomial-logistic-regression-and-how-is-it-used-in-mplus-for-data-analysis/
stats writer. "What is Multinomial Logistic Regression and how is it used in Mplus for data analysis?." PSYCHOLOGICAL SCALES, 29 Jun. 2024, https://scales.arabpsychology.com/stats/what-is-multinomial-logistic-regression-and-how-is-it-used-in-mplus-for-data-analysis/.
stats writer. "What is Multinomial Logistic Regression and how is it used in Mplus for data analysis?." PSYCHOLOGICAL SCALES, 2024. https://scales.arabpsychology.com/stats/what-is-multinomial-logistic-regression-and-how-is-it-used-in-mplus-for-data-analysis/.
stats writer (2024) 'What is Multinomial Logistic Regression and how is it used in Mplus for data analysis?', PSYCHOLOGICAL SCALES. Available at: https://scales.arabpsychology.com/stats/what-is-multinomial-logistic-regression-and-how-is-it-used-in-mplus-for-data-analysis/.
[1] stats writer, "What is Multinomial Logistic Regression and how is it used in Mplus for data analysis?," PSYCHOLOGICAL SCALES, vol. X, no. Y, ص Z-Z, June, 2024.
stats writer. What is Multinomial Logistic Regression and how is it used in Mplus for data analysis?. PSYCHOLOGICAL SCALES. 2024;vol(issue):pages.