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Reliability of Estimates

2000 Reliability of Estimates

Because the data presented on this tape are based on a sample, they will differ somewhat from data that would have been obtained if a complete census had been taken using the same schedules, instructions, and procedures. The standard error (SE) is primarily a measure of the variability that occurs by chance because a sample, rather than the entire universe, is surveyed. The SE also reflects part of the measurement error, but it does not measure any systematic biases in the data. The chances are about 95 in 100 that an estimate from the sample differs from the value that would be obtained from a complete census by less than twice the SE. However, SEs typically underestimate the true errors of the statistics because they reflect only errors due to sampling.

To derive error estimates that would be applicable to a wide variety of statistics, variances for a wide variety of estimates were approximated using SUDAAN software. SUDAAN computes standard errors by using a first order Taylor approximation of the deviation of estimates from their expected values. A description of the software and the approach it uses has been published (1). The calculated variances were fitted into curves using the empirically determined relationship between the size of an estimate X and its relative variance (rel var X). This relationship is expressed as:

formula for relative variance of x

where a and b are regression estimates determined by the SAS regression procedure, using ordinary least squares. The relative standard error is then derived by determining the square root of the relative variance from the curve.

Standard errors for aggregate estimates may be approximated using the general formula:

SE(X) = X • RSE(X)

where X is the estimate and RSE(X) is the relative standard error of the estimate. The relative standard error (RSE(X)) may be estimated using the following general formula:

formula for relative standard error of X

where X is the estimate and A and B are the appropriate coefficients from table I.

Table I. Parameters used to compute standard error of numbers by type of estimate

Type of estimate Parameters
A B
Agency 0.006110 7.368930
Home health agency
Current patient 0.015990 529.184810
Discharge 0.023654 2,492.387794
Hospice
Current patient 0.045540 66.616240
Discharge 0.047200 312.484760

To approximate the relative standard error (RSE(p)) and the standard error (SE(p)) of a percent p, the appropriate values of parameter B from table I are used in the following equations:

formula for relative standard error of p

and

formula for standard error of p

where

p = 100 • X/Y

X is the numerator of the estimated percent

Y is the denominator of the estimated percent

The standard error of a percent is valid only when one of the following conditions is satisfied: the relative standard error of the denominator is 5 percent or less or the relative standard errors of the numerator and the denominator are both 10 percent or less.

Reference

1. Shah BV, Barnwell BG, Bieler GS. SUDAAN usser's manual, Release 7.0 Research Triangle Institute: Research Triangle Park, North Carolina. 1996.

1998 Reliability of Estimates

Because the data presented on this tape are based on a sample, they will differ somewhat from data that would have been obtained if a complete census had been taken using the same schedules, instructions, and procedures. The standard error (SE) is primarily a measure of the variability that occurs by chance because a sample, rather than the entire universe, is surveyed. The SE also reflects part of the measurement error, but it does not measure any systematic biases in the data. The chances are about 95 in 100 that an estimate from the sample differs from the value that would be obtained from a complete census by less than twice the SE. However, SE's typically underestimate the true errors of the statistics because they reflect only errors due to sampling.

To derive error estimates that would be applicable to a wide variety of statistics, variances for a wide variety of estimates were approximated using SUDAAN software. SUDAAN computes standard errors by using a first-order Taylor approximation of the deviation of estimates from their expected values. A description of the software and the approach it uses has been published. The calculated variances were fitted into curves using the empirically determined relationship between the size of an estimate X and its relative variance (rel var X). This relationship is expressed as:

formula for relative variance of x

where a and b are regression estimates determined by the SAS regression procedure, using ordinary least squares. The relative standard error is then derived by determining the square root of the relative variance from the curve.

Standard errors for aggregate estimates may be approximated using the general formula:

SE(X) = X • RSE(X)

where X is the estimate and RSE(X) is the relative standard error of the estimate. The relative standard error (RSE(X)) may be estimated using the following general formula (7):

formula for relative standard error of X

where X is the estimate and A and B are the appropriate coefficients from table I.

Table I. Parameters used to compute standard error of numbers by type of estimate

Type of estimate Parameters
A B
Agency 0.008569 12.292928
Home health agency
Current patient 0.027473 1113.899256
Discharge 0.031375 5418.466673
Hospice
Current patient 0.022992 84.643286
Discharge 0.028381 1024.690308

To approximate the relative standard error (RSE(p)) and the standard error (SE(p)) of a percent p, the appropriate values of parameter B from table I are used in the following equations:

formula for relative standard error of p

and

formula for standard error of p

where

p = 100 • X/Y

X is the numerator of the estimated percent

Y is the denominator of the estimated percent

The standard error of a percent is valid only when one of the following conditions is satisfied: the relative standard error of the denominator is 5 percent or less or the relative standard errors of the numerator and the denominator are both 10 percent or less.

1996 Reliability of Estimates

Because the statistics presented in the 1996 National Home and Hospice Care Survey are based on a sample, they will differ somewhat from figures that would have been obtained if a complete census had been taken using the same schedules, instructions, and procedures. The standard error (SE) is primarily a measure of the variability that occurs by chance because a sample, rather than the entire universe, is surveyed. The SE also reflects part of the measurement error, but it does not measure any systematic biases in the data. The chances are about 95 in 100 that an estimate from the sample differs from the value that would be obtained from a complete census by less than twice the SE. However, SE's typically underestimate the true errors of the statistics because they reflect only errors due to sampling.

The SE's used in this report were approximated using SUDAAN software. SUDAAN computes SE's by using a first-order Taylor approximation of the deviation of estimates from their expected values. A description of the software and the approach it uses has been published. Although exact SE estimates were used in tests of significance in this report, SE's for aggregate estimates presented may be estimated using the general formula:

formula for standard error of X

where X is the estimate and RSE(X) is the relative standard error of the estimate. The relative standard error (RSE(X)) may be estimated using the following general formula:

formula for relative standard error of X

where X is the estimate and A and B are the appropriate coefficients from table I.

To approximate the relative standard error (RSE(p)) and the standard error (SE(p)) of a percent p, the appropriate value of parameter B from table I is used in the following equation:

formula for relative standard error of p

where p = 100 · X/Y, X = the numerator of the estimated percent, and Y = the denominator of the estimated percent and

formula for relative standard error of p

The standard error of a percent is valid only when one of the following conditions is satisfied: the relative standard error of the denominator is 5 percent or less or the relative standard errors of the numerator and the denominator are both 10 percent or less.

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