friedman.test {stats} | R Documentation |

Performs a Friedman rank sum test with unreplicated blocked data.

friedman.test(y, ...) ## Default S3 method: friedman.test(y, groups, blocks, ...) ## S3 method for class 'formula': friedman.test(formula, data, subset, na.action, ...)

`y` |
either a numeric vector of data values, or a data matrix. |

`groups` |
a vector giving the group for the corresponding
elements of `y` if this is a vector; ignored if `y`
is a matrix. If not a factor object, it is coerced to one. |

`blocks` |
a vector giving the block for the corresponding
elements of `y` if this is a vector; ignored if `y`
is a matrix. If not a factor object, it is coerced to one. |

`formula` |
a formula of the form `a ~ b | c` , where `a` ,
`b` and `c` give the data values and corresponding groups
and blocks, respectively. |

`data` |
an optional matrix or data frame (or similar: see
`model.frame` ) containing the variables in the
formula `formula` . By default the variables are taken from
`environment(formula)` . |

`subset` |
an optional vector specifying a subset of observations to be used. |

`na.action` |
a function which indicates what should happen when
the data contain `NA` s. Defaults to
`getOption("na.action")` . |

`...` |
further arguments to be passed to or from methods. |

`friedman.test`

can be used for analyzing unreplicated complete
block designs (i.e., there is exactly one observation in `y`

for each combination of levels of `groups`

and `blocks`

)
where the normality assumption may be violated.

The null hypothesis is that apart from an effect of `blocks`

,
the location parameter of `y`

is the same in each of the
`groups`

.

If `y`

is a matrix, `groups`

and `blocks`

are
obtained from the column and row indices, respectively. `NA`

's
are not allowed in `groups`

or `blocks`

; if `y`

contains `NA`

's, corresponding blocks are removed.

A list with class `"htest"`

containing the following components:

`statistic` |
the value of Friedman's chi-squared statistic. |

`parameter` |
the degrees of freedom of the approximate chi-squared distribution of the test statistic. |

`p.value` |
the p-value of the test. |

`method` |
the character string `"Friedman rank sum test"` . |

`data.name` |
a character string giving the names of the data. |

Myles Hollander & Douglas A. Wolfe (1973),
*Nonparametric statistical inference*.
New York: John Wiley & Sons.
Pages 139–146.

## Hollander & Wolfe (1973), p. 140ff. ## Comparison of three methods ("round out", "narrow angle", and ## "wide angle") for rounding first base. For each of 18 players ## and the three method, the average time of two runs from a point on ## the first base line 35ft from home plate to a point 15ft short of ## second base is recorded. RoundingTimes <- matrix(c(5.40, 5.50, 5.55, 5.85, 5.70, 5.75, 5.20, 5.60, 5.50, 5.55, 5.50, 5.40, 5.90, 5.85, 5.70, 5.45, 5.55, 5.60, 5.40, 5.40, 5.35, 5.45, 5.50, 5.35, 5.25, 5.15, 5.00, 5.85, 5.80, 5.70, 5.25, 5.20, 5.10, 5.65, 5.55, 5.45, 5.60, 5.35, 5.45, 5.05, 5.00, 4.95, 5.50, 5.50, 5.40, 5.45, 5.55, 5.50, 5.55, 5.55, 5.35, 5.45, 5.50, 5.55, 5.50, 5.45, 5.25, 5.65, 5.60, 5.40, 5.70, 5.65, 5.55, 6.30, 6.30, 6.25), nr = 22, byrow = TRUE, dimnames = list(1 : 22, c("Round Out", "Narrow Angle", "Wide Angle"))) friedman.test(RoundingTimes) ## => strong evidence against the null that the methods are equivalent ## with respect to speed wb <- aggregate(warpbreaks$breaks, by = list(w = warpbreaks$wool, t = warpbreaks$tension), FUN = mean) wb friedman.test(wb$x, wb$w, wb$t) friedman.test(x ~ w | t, data = wb)

[Package *stats* version 2.5.0 Index]