n.times.eVar: Empirical variances (times n)
In rQCC: Robust Quality Control Chart
n.times.eVar R Documentation
Empirical variances (times n)
Description
n times the empirical variances of the Hodges-Lehmann (HL1, HL2, HL3),
the median, the median absolute deviation (MAD), and the Shamos estimators.
Usage
n.times.eVar.of.HL1
n.times.eVar.of.HL2
n.times.eVar.of.HL3
n.times.eVar.of.median
n.times.eVar.of.mad
n.times.eVar.of.shamos
Details
n times the empirical variances of the Hodges-Lehmann (HL1, HL2, HL3), the median,
the median absolute deviation (MAD), and the Shamos estimators
under the standard normal distribution,
where n is the sample size and n is from 1 to 100.
For the MAD estimators, mad{stats} is used.
For the Hodges-Lehmann, HL{rQCC} is used.
For the Shamos, the Fisher-consistent Shamos estimator, shamos{rQCC}, is used.
The empirical variances are obtained using the Monte Carlo simulation
with 1E07 replicates.
Value
They return a vector of 100 values.
Author(s)
Chanseok Park and Min Wang
References
Park, C., H. Kim, and M. Wang (2022).
Investigation of finite-sample properties of robust location and scale estimators.
Communications in Statistics - Simulation and Computation,
51, 2619-2645.
doi: 10.1080/03610918.2019.1699114
Hodges, J. L. and E. L. Lehmann (1963).
Estimates of location based on rank tests.
Annals of Mathematical Statistics, 34, 598–611.
Shamos, M. I. (1976). Geometry and statistics: Problems at the interface.
In Traub, J. F., editor,
Algorithms and Complexity: New Directions and Recent Results,
pages 251–280. Academic Press, New York.
Lèvy-Leduc, C., Boistard, H., Moulines, E., Taqqu, M. S.,
and Reisen, V. A. (2011).
Large sample behaviour of some well-known robust estimators under
long-range dependence.
Statistics, 45, 59–71.
rQCC documentation built on Dec. 28, 2022, 1:49 a.m.
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| n.times.eVar | R Documentation |
Empirical variances (times n)
Description
n times the empirical variances of the Hodges-Lehmann (HL1, HL2, HL3), the median, the median absolute deviation (MAD), and the Shamos estimators.
Usage
n.times.eVar.of.HL1 n.times.eVar.of.HL2 n.times.eVar.of.HL3 n.times.eVar.of.median n.times.eVar.of.mad n.times.eVar.of.shamos
Details
n times the empirical variances of the Hodges-Lehmann (HL1, HL2, HL3), the median, the median absolute deviation (MAD), and the Shamos estimators under the standard normal distribution, where n is the sample size and n is from 1 to 100.
For the MAD estimators, mad{stats} is used.
For the Hodges-Lehmann, HL{rQCC} is used.
For the Shamos, the Fisher-consistent Shamos estimator, shamos{rQCC}, is used.
The empirical variances are obtained using the Monte Carlo simulation with 1E07 replicates.
Value
They return a vector of 100 values.
Author(s)
Chanseok Park and Min Wang
References
Park, C., H. Kim, and M. Wang (2022).
Investigation of finite-sample properties of robust location and scale estimators.
Communications in Statistics - Simulation and Computation,
51, 2619-2645.
doi: 10.1080/03610918.2019.1699114
Hodges, J. L. and E. L. Lehmann (1963). Estimates of location based on rank tests. Annals of Mathematical Statistics, 34, 598–611.
Shamos, M. I. (1976). Geometry and statistics: Problems at the interface. In Traub, J. F., editor, Algorithms and Complexity: New Directions and Recent Results, pages 251–280. Academic Press, New York.
Lèvy-Leduc, C., Boistard, H., Moulines, E., Taqqu, M. S., and Reisen, V. A. (2011). Large sample behaviour of some well-known robust estimators under long-range dependence. Statistics, 45, 59–71.
R Package Documentation
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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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