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Introduction
Univariate statistics provide information on a single variable. They summarise and reveal patterns in that variable. In Source, the variable used to calculate statistics are the values in is a time series result.
The types of univariate statistics available in Source are described in Table 1.
Table 1. Univariate Statistics
Statistic | Definition | Example |
|---|
for | |
|---|---|
Minimum | Minimum value in the time series |
0 | ||
Maximum | Maximum value in the time series | 9 |
Number of Values | The number of values in the time series, not including nulls | 6 |
Number of Nulls | The number of nulls, either missing values or values entered as -9999. These values are ignored in all other univariate statistics. | 1 |
Total | The sum of all values in the time series. | 27 |
Mean | The sum of all values in the time series divided by the number of values. See Mean for more information. | 5 |
Median | The middle value in the sorted list of all values in a time series. For n values, the middle value is n+12. When n is even, the median is the mean of the two middle values. | 4 |
Standard Deviation | How widely values in the time series vary from the mean. See Standard Deviation for more information. | 3.89 (to 2 decimal places) |
Skew | The skewness of the distribution of values in the time series. See Skew for more information. | 0.23 (to 2 decimal places). |
Standard Deviation
Definition
The standard deviation (s) measures the amount by which values in the time series vary from the mean. It is defined as:
| s= i=0nxi-x2n-1 |
Where:
x is the value of time series x at time step i
x is the mean of time series x
n is the number of values in time series x.
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The skew measures the degree of asymmetry of a distribution around its mean. It is defined as:
Equation 2 | skew= n(n-1)(n-2)i=0nxi-xs3 |
Where all terms are defined in Equation 1.
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