inca-package: Integer Calibration
In inca: Integer Calibration
Description
Details
Author(s)
References
Examples
Description
Specific functions are provided for rounding real weights to integers and performing integer programming algorithms for calibration problems.
Details
Package: inca
Type: Package
Version: 0.0.4
Date: 2019-09-18
License: GPL (>= 2)
Calibration forces the weighted estimates of calibration variables to match known totals.
This improves the quality of the design-weighted estimates. It is used to adjust for
non-response and/or under-coverage. The commonly used methods of calibration produce
non-integer weights. In cases where weighted estimates must be integers, one must
"integerize" the calibrated weights. However, this procedure often produces final weights
that are very different for the "sample" weights. To counter this problem, the inca
package provides specific functions for rounding real weights to integers, and performing
an integer programming algorithm for calibration problems with integer weights.
For a complete list of exported functions, use library(help = "inca").
This research was supported in part by the U.S. Department of Agriculture,
National Agriculture Statistics Service. The findings and conclusions in this
publication are those of the authors and should not be construed to represent
any official USDA or U.S. Government determination or policy.
Author(s)
Luca Sartore luca.sartore@usda.gov and Kelly Toppin kelly.toppin@nass.usda.gov
Maintainer: Luca Sartore drwolf85@gmail.com
References
Theberge, A. (1999). Extensions of calibration estimators in survey sampling. Journal of the American Statistical Association, 94(446), 635-644.
Little, R. J., & Vartivarian, S. (2003). On weighting the rates in non-response weights.
Kish, L. (1992). Weighting for unequal Pi. Journal of Official Statistics, 8(2), 183.
Rao, J. N. K., & Singh, A. C. (1997). A ridge-shrinkage method for range-restricted weight calibration in survey sampling. In Proceedings of the section on survey research methods (pp. 57-65). American Statistical Association Washington, DC.
Horvitz, D. G., & Thompson, D. J. (1952). A generalization of sampling without replacement from a finite universe. Journal of the American Statistical Association, 47(260), 663-685.
Kalton, G., & Flores-Cervantes, I. (2003). Weighting methods. Journal of Official Statistics, 19(2), 81-98.
Sartore, L., Toppin, K., Young, L., Spiegelman, C. (2019). Developing integer calibration weights for the Census of Agriculture. Journal of Agricultural, Biological, and Environmental Statistics, 24(1), 26-48.
Examples
1
inca documentation built on Sept. 19, 2019, 9:07 a.m.
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Description Details Author(s) References Examples
Description
Specific functions are provided for rounding real weights to integers and performing integer programming algorithms for calibration problems.
Details
| Package: | inca |
| Type: | Package |
| Version: | 0.0.4 |
| Date: | 2019-09-18 |
| License: | GPL (>= 2) |
Calibration forces the weighted estimates of calibration variables to match known totals. This improves the quality of the design-weighted estimates. It is used to adjust for non-response and/or under-coverage. The commonly used methods of calibration produce non-integer weights. In cases where weighted estimates must be integers, one must "integerize" the calibrated weights. However, this procedure often produces final weights that are very different for the "sample" weights. To counter this problem, the inca package provides specific functions for rounding real weights to integers, and performing an integer programming algorithm for calibration problems with integer weights.
For a complete list of exported functions, use library(help = "inca").
This research was supported in part by the U.S. Department of Agriculture, National Agriculture Statistics Service. The findings and conclusions in this publication are those of the authors and should not be construed to represent any official USDA or U.S. Government determination or policy.
Author(s)
Luca Sartore luca.sartore@usda.gov and Kelly Toppin kelly.toppin@nass.usda.gov
Maintainer: Luca Sartore drwolf85@gmail.com
References
Theberge, A. (1999). Extensions of calibration estimators in survey sampling. Journal of the American Statistical Association, 94(446), 635-644.
Little, R. J., & Vartivarian, S. (2003). On weighting the rates in non-response weights.
Kish, L. (1992). Weighting for unequal Pi. Journal of Official Statistics, 8(2), 183.
Rao, J. N. K., & Singh, A. C. (1997). A ridge-shrinkage method for range-restricted weight calibration in survey sampling. In Proceedings of the section on survey research methods (pp. 57-65). American Statistical Association Washington, DC.
Horvitz, D. G., & Thompson, D. J. (1952). A generalization of sampling without replacement from a finite universe. Journal of the American Statistical Association, 47(260), 663-685.
Kalton, G., & Flores-Cervantes, I. (2003). Weighting methods. Journal of Official Statistics, 19(2), 81-98.
Sartore, L., Toppin, K., Young, L., Spiegelman, C. (2019). Developing integer calibration weights for the Census of Agriculture. Journal of Agricultural, Biological, and Environmental Statistics, 24(1), 26-48.
Examples
1 |
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