The function provides three features to perform a skewness test, see details below.
Usage
skewness(x, na.rm = TRUE, type = 2)
Arguments
x
a numeric vector containing the values whose skewness is to be computed.
na.rm
a logical value for na.rm, default is na.rm=TRUE.
type
an integer between 1 and 3 for selecting the algorithms for computing the skewness, see details below.
Value
An object of the same type as x
encoding
UTF-8
Details
The skewness is a measure of symmetry distribution. Intuitively, negative skewness (g_1 < 0) indicates that the mean of the data distribution is less than the median, and the data distribution is left-skewed. Positive skewness (g_1 > 0) indicates that the mean of the data values is larger than the median, and the data distribution is right-skewed. Values of g_1 near zero indicate a symmetric distribution. The skewness function will ignore missing values in x for its computation purpose. There are several methods to compute skewness, Joanes and Gill (1998) discuss three of the most traditional methods. According to them, type 3 performs better in non-normal population distribution, whereas in normal-like population distribution type 2 fits better the data. Such difference between the two formulae tend to disappear in large samples.
Type 1: g_1 = m_3/m_2^(3/2).
Type 2: G_1 = g_1*sqrt(n(n-1))/(n-2).
Type 3: b_1 = m_3/s^3 = g_1 ((n-1)/n)^(3/2).
References
Joanes, D. N. and C. A. Gill. (1998) Comparing measures of sample skewness and kurtosis. The Statistician,47, 183--189.