# fixedEffects

Estimates of fixed effects and related statistics

## Syntax

## Description

## Examples

### Display Fixed-Effects Coefficient Estimates and Names

Load the sample data.

`load('weight.mat');`

The data set `weight`

contains data from a longitudinal study, where 20 subjects are randomly assigned to 4 exercise programs, and their weight loss is recorded over six 2-week time periods. This is simulated data.

Store the data in a table. Define `Subject`

and `Program`

as categorical variables.

tbl = table(InitialWeight,Program,Subject,Week,y); tbl.Subject = nominal(tbl.Subject); tbl.Program = nominal(tbl.Program);

Fit a linear mixed-effects model where the initial weight, type of program, week, and the interaction between week and program are the fixed effects. The intercept and week vary by subject.

`lme = fitlme(tbl,'y ~ InitialWeight + Program*Week + (Week|Subject)');`

Display the fixed-effects coefficient estimates and corresponding fixed-effects names.

[beta,betanames] = fixedEffects(lme)

`beta = `*9×1*
0.6610
0.0032
0.3608
-0.0333
0.1132
0.1732
0.0388
0.0305
0.0331

`betanames=`*9×1 table*
Name
__________________
{'(Intercept)' }
{'InitialWeight' }
{'Program_B' }
{'Program_C' }
{'Program_D' }
{'Week' }
{'Program_B:Week'}
{'Program_C:Week'}
{'Program_D:Week'}

### Compute Coefficient Estimates and Related Statistics

Load the sample data.

`load carbig`

Fit a linear mixed-effects model for miles per gallon (MPG), with fixed effects for acceleration and horsepower, and potentially correlated random effects for intercept and acceleration grouped by model year. First, store the data in a table.

tbl = table(Acceleration,Horsepower,Model_Year,MPG);

Fit the model.

`lme = fitlme(tbl, 'MPG ~ Acceleration + Horsepower + (Acceleration|Model_Year)');`

Compute the fixed-effects coefficients estimates and related statistics.

[~,~,stats] = fixedEffects(lme)

stats = FIXED EFFECT COEFFICIENTS: DFMETHOD = 'RESIDUAL', ALPHA = 0.05 Name Estimate SE tStat DF pValue Lower Upper {'(Intercept)' } 50.133 2.2652 22.132 389 7.7727e-71 45.679 54.586 {'Acceleration'} -0.58327 0.13394 -4.3545 389 1.7075e-05 -0.84661 -0.31992 {'Horsepower' } -0.16954 0.0072609 -23.35 389 5.188e-76 -0.18382 -0.15527

The small $$p$$-values (under `pValue`

) indicate that all fixed-effects coefficients are significant.

### Compute Confidence Intervals with Specified Options

Load the sample data.

`load('shift.mat');`

The data shows the deviations from the target quality characteristic measured from the products that five operators manufacture during three shifts: morning, evening, and night. This is a randomized block design, where the operators are the blocks. The experiment is designed to study the impact of the time of shift on the performance. The performance measure is the deviation of the quality characteristics from the target value. This is simulated data.

`Shift`

and `Operator`

are nominal variables.

shift.Shift = nominal(shift.Shift); shift.Operator = nominal(shift.Operator);

Fit a linear mixed-effects model with a random intercept grouped by operator to assess if performance significantly differs according to the time of the shift.

`lme = fitlme(shift,'QCDev ~ Shift + (1|Operator)');`

Compute the 99% confidence intervals for fixed-effects coefficients, using the residual method to compute the degrees of freedom. This is the default method.

`[~,~,stats] = fixedEffects(lme,'alpha',0.01)`

stats = FIXED EFFECT COEFFICIENTS: DFMETHOD = 'RESIDUAL', ALPHA = 0.01 Name Estimate SE tStat DF pValue Lower Upper {'(Intercept)' } 3.1196 0.88681 3.5178 12 0.0042407 0.41081 5.8284 {'Shift_Morning'} -0.3868 0.48344 -0.80009 12 0.43921 -1.8635 1.0899 {'Shift_Night' } 1.9856 0.48344 4.1072 12 0.0014535 0.5089 3.4623

Compute the 99% confidence intervals for fixed-effects coefficients, using the Satterthwaite approximation to compute the degrees of freedom.

[~,~,stats] = fixedEffects(lme,'DFMethod','satterthwaite','alpha',0.01)

stats = FIXED EFFECT COEFFICIENTS: DFMETHOD = 'SATTERTHWAITE', ALPHA = 0.01 Name Estimate SE tStat DF pValue Lower Upper {'(Intercept)' } 3.1196 0.88681 3.5178 6.123 0.01214 -0.14122 6.3804 {'Shift_Morning'} -0.3868 0.48344 -0.80009 10 0.44225 -1.919 1.1454 {'Shift_Night' } 1.9856 0.48344 4.1072 10 0.00212 0.45343 3.5178

The Satterthwaite approximation usually produces smaller `DF`

values than the residual method. That is why it produces larger $$p$$-values (`pValue`

) and larger confidence intervals (see `Lower`

and `Upper`

).

## Input Arguments

`lme`

— Linear mixed-effects model

`LinearMixedModel`

object

Linear mixed-effects model, specified as a `LinearMixedModel`

object constructed using `fitlme`

or `fitlmematrix`

.

### Name-Value Arguments

Specify optional pairs of arguments as
`Name1=Value1,...,NameN=ValueN`

, where `Name`

is
the argument name and `Value`

is the corresponding value.
Name-value arguments must appear after other arguments, but the order of the
pairs does not matter.

*
Before R2021a, use commas to separate each name and value, and enclose*
`Name`

*in quotes.*

**Example: **```
[beta,betanames,stats] =
fixedEffects(lme,'Alpha',0.01)
```

`Alpha`

— Significance level

0.05 (default) | scalar value in the range 0 to 1

Significance level, specified as the comma-separated pair consisting of
`'Alpha'`

and a scalar value in the range 0 to 1. For a value α,
the confidence level is 100*(1–α)%.

For example, for 99% confidence intervals, you can specify the confidence level as follows.

**Example: **`'Alpha',0.01`

**Data Types: **`single`

| `double`

`DFMethod`

— Method for computing approximate degrees of freedom

`'residual'`

(default) | `'satterthwaite'`

| `'none'`

Method for computing approximate degrees of freedom for the *t*-statistic
that tests the fixed-effects coefficients against 0, specified as
the comma-separated pair consisting of `'DFMethod'`

and
one of the following.

`'residual'` | Default. The degrees of freedom are assumed to be constant
and equal to n – p, where n is
the number of observations and p is the number
of fixed effects. |

`'satterthwaite'` | Satterthwaite approximation. |

`'none'` | All degrees of freedom are set to infinity. |

For example, you can specify the Satterthwaite approximation as follows.

**Example: **`'DFMethod','satterthwaite'`

## Output Arguments

`beta`

— Fixed-effects coefficients estimates

vector

Fixed-effects coefficients estimates of the fitted linear mixed-effects
model `lme`

, returned as a vector.

`betanames`

— Names of fixed-effects coefficients

table

Names of fixed-effects coefficients in `beta`

,
returned as a table.

`stats`

— Fixed-effects estimates and related statistics

dataset array

Fixed-effects estimates and related statistics, returned as a dataset array that has one row for each of the fixed effects and one column for each of the following statistics.

`Name` | Name of the fixed effect coefficient |

`Estimate` | Estimated coefficient value |

`SE` | Standard error of the estimate |

`tStat` | t-statistic for a test that the coefficient
is zero |

`DF` | Estimated degrees of freedom for the t-statistic |

`pValue` | p-value for the t-statistic |

`Lower` | Lower limit of a 95% confidence interval for the fixed-effect coefficient |

`Upper` | Upper limit of a 95% confidence interval for the fixed-effect coefficient |

## Version History

**Introduced in R2013b**

## See Also

`LinearMixedModel`

| `fitlme`

| `coefCI`

| `coefTest`

| `randomEffects`

## MATLAB 명령

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