mblm: Fitting Median-Based Linear Models
In mblm: Median-Based Linear Models
Description
Usage
Arguments
Details
Value
Note
Author(s)
References
See Also
Examples
Description
This function is used to fit linear models based on Theil-Sen single median,
or Siegel repeated medians.
Usage
1
Arguments
formula
A formula of type y ~ x (only linear models are accepted)
dataframe
Optional dataframe
repeated
If set to true, model is computed using repeated medians. If false,
a single median estimators are calculated
Details
Theil-Sen single median method computes slopes of lines crossing all possible pairs
of points, when x coordinates differ. After calculating these n(n-1)/2 slopes (these
value are true only if x is distinct), the median of them is taken as slope estimator.
Next, the intercepts of n lines, crossing each point and having calculated slope are
calculated. The median from them is intercept estimator.
Siegel repeated medians is more complicated. For each point, the slopes between it and
the others are calcuated (resulting n-1 slopes) and the median is taken. This results in
n medians and median from this medians is slope estimator. Intercept is calculated in
similar way, for more information please take a look in function source.
The breakdown point of Theil-Sen method is about 29%, Siegel extended it to 50%,
so these regression methods are very robust. Additionally, if the errors are normally distributed
and no outliers are present, the estimators are very similar to classic least squares.
Value
An object of class c("mblm","lm"), containing minimal set of data to perform basic
operations, such as in case of lm model. Additionally, the return value contains 2 fields:
slopes
The slopes (in single median), or medians of slopes (in repeated medians)
between tested point pairs
intercepts
The intercepts calculated
Note
This function should have compatibility with all 'lm' methods, but it is not guaranteed that they
will work or have any cognitive value (this method is nonparametric). The compatibility
was only introduced to use some basic methods from 'lm' without programming new functions.
Author(s)
Lukasz Komsta, some fixes by Sven Garbade
References
Theil, H. (1950) A rank invariant method for linear and polynomial regression analysis.
Nederl. Akad. Wetensch. Proc. Ser. A 53, 386-392 (Part I), 521-525 (Part II), 1397-1412
(Part III).
Sen, P.K. (1968). Estimates of Regression Coefficient Based on Kendall's tau. J. Am. Stat.
Ass. 63, 324, 1379-1389.
Siegel, A.F. (1982). Robust Regression Using Repeated Medians. Biometrika, 69, 1, 242-244.
See Also
lm, summary.mblm, confint.mblm
Examples
1
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set.seed(1234)
x <- 1:100+rnorm(100)
y <- x+rnorm(100)
y[100] <- 200
fit <- mblm(y~x)
fit
summary(fit)
fit2 <- lm(y~x)
plot(x,y)
abline(fit)
abline(fit2,lty=2)
plot(fit)
residuals(fit)
fitted(fit)
plot(density(fit$slopes))
plot(density(fit$intercepts))
anova(fit)
anova(fit2)
anova(fit,fit2)
confint(fit)
AIC(fit,fit2)
mblm documentation built on May 2, 2019, 2:13 p.m.
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Description Usage Arguments Details Value Note Author(s) References See Also Examples
Description
This function is used to fit linear models based on Theil-Sen single median, or Siegel repeated medians.
Usage
1 |
Arguments
formula |
A formula of type |
dataframe |
Optional dataframe |
repeated |
If set to true, model is computed using repeated medians. If false, a single median estimators are calculated |
Details
Theil-Sen single median method computes slopes of lines crossing all possible pairs of points, when x coordinates differ. After calculating these n(n-1)/2 slopes (these value are true only if x is distinct), the median of them is taken as slope estimator. Next, the intercepts of n lines, crossing each point and having calculated slope are calculated. The median from them is intercept estimator.
Siegel repeated medians is more complicated. For each point, the slopes between it and the others are calcuated (resulting n-1 slopes) and the median is taken. This results in n medians and median from this medians is slope estimator. Intercept is calculated in similar way, for more information please take a look in function source.
The breakdown point of Theil-Sen method is about 29%, Siegel extended it to 50%, so these regression methods are very robust. Additionally, if the errors are normally distributed and no outliers are present, the estimators are very similar to classic least squares.
Value
An object of class c("mblm","lm"), containing minimal set of data to perform basic
operations, such as in case of lm model. Additionally, the return value contains 2 fields:
slopes |
The slopes (in single median), or medians of slopes (in repeated medians) between tested point pairs |
intercepts |
The intercepts calculated |
Note
This function should have compatibility with all 'lm' methods, but it is not guaranteed that they will work or have any cognitive value (this method is nonparametric). The compatibility was only introduced to use some basic methods from 'lm' without programming new functions.
Author(s)
Lukasz Komsta, some fixes by Sven Garbade
References
Theil, H. (1950) A rank invariant method for linear and polynomial regression analysis. Nederl. Akad. Wetensch. Proc. Ser. A 53, 386-392 (Part I), 521-525 (Part II), 1397-1412 (Part III).
Sen, P.K. (1968). Estimates of Regression Coefficient Based on Kendall's tau. J. Am. Stat. Ass. 63, 324, 1379-1389.
Siegel, A.F. (1982). Robust Regression Using Repeated Medians. Biometrika, 69, 1, 242-244.
See Also
lm, summary.mblm, confint.mblm
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 | set.seed(1234)
x <- 1:100+rnorm(100)
y <- x+rnorm(100)
y[100] <- 200
fit <- mblm(y~x)
fit
summary(fit)
fit2 <- lm(y~x)
plot(x,y)
abline(fit)
abline(fit2,lty=2)
plot(fit)
residuals(fit)
fitted(fit)
plot(density(fit$slopes))
plot(density(fit$intercepts))
anova(fit)
anova(fit2)
anova(fit,fit2)
confint(fit)
AIC(fit,fit2)
|
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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