Systematic Statistics Used for Data Compression in Space Telemetry

The need for data compression, a consequence of the demands made on the telemetry system of a space vehicle, prompts consideration of the use of sample quantiles in estimating population parameters and obtaining tests of goodness of fit for large samples. In this paper optimal unbiased estimators of...

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Bibliographic Details
Published in:Journal of the American Statistical Association 1965-03, Vol.60 (309), p.97-133
Main Authors: Eisenberger, Isidore, Posner, Edward C.
Format: Article
Language:English
Subjects:
Data compression
Density distributions
Estimators
Estimators for the mean
Gaussian distributions
Population distributions
Quantum efficiency
Standard deviation
Statistical discrepancies
Telemetry
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Summary:The need for data compression, a consequence of the demands made on the telemetry system of a space vehicle, prompts consideration of the use of sample quantiles in estimating population parameters and obtaining tests of goodness of fit for large samples. In this paper optimal unbiased estimators of the mean and standard deviation are given using up to twenty quantiles when the parent population is normal. Moreover, the estimators are relatively insensitive to deviations from normality. A distribution-free goodness-of-fit test is presented based on the sum of the squares of four quantiles after an orthogonal transformation to independent normal deviates. If a frequency function is of the form f(x; p) = pf 1 (x) + (1 - p) f 2 (x), 0 < p < 1, where f 1 and f 2 are normal frequency functions, the distribution is likely to be bimodal. Another goodness-of-fit test is obtained using four quantiles, which is likely to have considerable power with a null hypothesis of normality and the alternative hypothesis of bimodality. The "data compression ratios" obtained with the use of a quantile system can be on the order of 100 to 1.
ISSN:0162-1459
1537-274X
DOI:10.1080/01621459.1965.10480778