Sake: Taste Ratings of Japanese Rice Wine (Sake)

Description

Siotani et al. (1985) describe a study of Japanese rice wine (sake) used to investigate the relationship between two subjective ratings (taste and smell) and a number of physical measurements on 30 brands of sake.

These data provide one example of a case where a multivariate regression doesn't benefit from having multiple outcome measures, using the standard tests. Barrett (2003) uses this data to illustrate influence measures for multivariate regression models.

Usage

data(Sake)

Arguments

Format

A data frame with 30 observations on the following 10 variables.

taste: mean taste rating
smell: mean smell rating
pH: pH measurement
acidity1: one measure of acidity
acidity2: another measure of acidity
sake: Sake-meter score
rsugar: direct reducing sugar content
tsugar: total sugar content
alcohol: alcohol content
nitrogen: formol-nitrogen content

Source

Siotani, M. Hayakawa, T. & Fujikoshi, Y. (1985). Modern Multivariate Statistical Analysis: A Graduate Course and Handbook. American Sciences Press, p. 217.

Details

The taste and smell values are the mean ratings of 10 experts on some unknown scale.

References

Barrett, B. E. (2003). Understanding Influence in Multivariate Regression. Communications in Statistics - Theory and Methods 32 (3), 667-680.

Examples

Run this code

data(Sake)
# quick look at the data
boxplot(scale(Sake))

Sake.mod <- lm(cbind(taste,smell) ~ ., data=Sake)

library(car)
Anova(Sake.mod)

predictors <- colnames(Sake)[-(1:2)]                 
# overall multivariate regression test
linearHypothesis(Sake.mod, predictors)

heplot(Sake.mod, hypotheses=list("Regr" = predictors))

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