Skip to end of metadata
Go to start of metadata

You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 74 Next »

Using the Statistics tab of the Results Manager, you can carry out several types of statistical analyses on scenario results. For simplicity, they can be categorised into two groups:

  • Auto-generated: This displays basic statistical data for a single result (univariate statistics) or for multiple results via custom charts (bivariate statistics); and
  • User-generated: You can generate statistics for either an entire scenario (eg. Mass Balance) or for a single result from different scenarios (eg. Annual Descriptive Statistics).

For all types of analyses, you can export results (to *.csv) or view them in Excel.

Note: Statistics may be affected by transforms applied to result(s). See Data Manipulation for more details.

Auto-generated statistics

If a single result is selected from the left-hand tree menu of the Results Manager window, the statistics tab will show univariate statistics (Figure #1). For custom charts, the statistics tab will have two options: univariate and bivariate statistics (Figure #2). 

Figure #1. Univariate statistics (single result)

 

Figure 2. Univariate statistics (multiple results), yearly summary

Univariate statistics

You can view univariate statistics for a single result (as shown in Figure #1) or for each individual result when multiple results are combined (Figure #2). A brief description of each univariate statistic is given in Table 1.

Table 1. Univariate Statistics

Statistic

Definition

Example for
[-9999, 0, 1, 3, 5, 9, 9]

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,

5

Median

The middle value in the sorted list of all values in a time series. For n values, the middle value is . 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.

3.89 (to 2 decimal places)

Skew

The skewness of the distribution of values in the time series. See Skew.

0.23 (to 2 decimal places).

For univariate statistics for a single result, you can:

  • Choose the period type (Table 1) used to calculate the statistics from the drop down menu;
  • Change the Water Year Start from the default date (the default is set in Project Options);
  • View the result used to calculate the statistics under Data; and you're data
  • View the statistics themselves.

For univariate statistics for multiple results, the Univariate Comparison tab shows a comparison between two of the results in your custom chart. You can:

  • Choose the period type (Table 2) used to calculate the statistics from the drop down menu;
  • Change the Water Year Start from the default date (the default is set in Project Options);
  • Toggle on or off two Statistics Options for how the two results are compared (Table 3);
  • View and change the result used as the X Data (reference) and the Y Data for statistic calculations (in Figure #2, this is Downstream Flow Volume); and
  • View the statistics themselves.
Table 2. Basic statistical analysis, period types
Period typeDescription
TotalProvides statistics for the entire run. This is the default period.
Yearly summaryProvides annual statistics, with one row for each year in the run.
Monthly summary

Provides monthly statistics by combining the data for each month, regardless of the year. There are 12 rows, one for each calendar month. For example, the January row displays statistics calculated from data for every January for all years in the run.

MonthxYear summaryProvides monthly statistics by month and year, with one row for each month-year pair in the run. For example, December 1999, January 2000, February 2000 ... etc.
Table 3. Multiple results, parameters
ParameterDescriptionDefault
Calculate using overlapping data only
  • Sets the start and end dates to the latest common start date and earliest common end date.
  • Sets common nulls (nulls in one series are set to null in the second, and vice-versa).
Enabled
Set all N/A to 0
  • Converts any missing value to 0.
Disabled

Bivariate statistics

When two or more results are in a custom chart, a set of bivariate statistics is automatically generated and can be viewed on the Bivariate Statistics tab (Figure #3).  A brief description of each bivariate statistic is given in Table 4, where:

  • NSE (Nash-Sutcliffe Efficiency) measures the relative magnitude of the model error variance compared to the measured data variance. It can be applied at any time step size (eg. daily, monthly). See Nash-Sutcliffe Efficiency
  • The NSE of Flow Duration measures the relative magnitude of the model error variance compared to the measured data variance. It can be applied at any time step size (eg. daily, monthly). See Flow Duration.
  • Relative Bias measures the magnitude of the model errors relative to the magnitude of the observations. See Relative Bias.
  • Bias Penalty is log transformation of the absolute value of the relative bias. In Source, the bias penalty is always used in combination with the NSE and is not available on its own. It is designed to be used in model calibration to penalise biased solutions. See Bias Penalty.

For more detailed information on bivariate statistics, see Bivariate Statistics - SRG.

Parameter selection for bivariate statistics is the same as for a univariate comparison. If you select any period type other than Total, or you have disabled Calculate using overlapping data only and your start and/or end dates do not match, a subset of the statistics are available:

  • Pearson's Correlation (r);
  • NSE Daily;
  • Volume Bias (%);
  • Values used; and
  • Values not used.
Table 4. Bivariate Statistics

Statistic

Definition

RangeSRG entry

Values Used

The number of time steps for which there are complete data pairs ie. both the X data and Y data time series have values. These pairs are used to calculate the bivariate statistics. Time steps where either series has missing values are not used.

0 to +∞ 

Values not used from X

The number of time steps in the X Data series that are not used in bivariate statistics calculations because either the X data or the Y data have missing values for those time steps.

0 to +∞ 

Values not used for Y

The number of time steps in the Y Data series that are not used in bivariate statistics calculations because either the X data or the Y data have missing values for those time steps.

0 to +∞ 

Pearson's Correlation (r)

Pearson's correlation coefficient measures the linear correlation between two variables.  Pearson's correlation coefficient is symmetric, meaning that the value will be the same regardless of which time series is defined as X data (reference) and which as the Y data. See Pearson's Correlation Coefficient.

 -1 to 1 

Volume Bias (%)

Relative bias expressed as a percentage. See Relative Bias.

0 to 100 

Minimise Absolute Bias

The absolute value of the relative bias. See Relative Bias.

0 to +∞ 
NSE DailyThe NSE for using a daily time step.  See Nash-Sutcliffe Efficiency.-∞ to 1 

NSE Daily & Bias Penalty

The difference between NSE daily and the Bias Penalty. See NSE Daily & Bias Penalty.

-∞ to 1 

NSE Daily & Flow Duration

Combines the NSE Daily and Flow Duration using a user-defined weighting factor. See NSE Log Daily & Bias Penalty.

-∞ to 1 
NSE Daily & log Flow DurationCombines the NSE Daily and log Flow Duration using a user-defined weighting factor. Log flow duration is the NSE of flow duration of the logarithm of data, calculated using a daily time step. See NSE Daily & log Flow Duration.-∞ to 1 
NSE Log DailyThe NSE of the logarithm of data, using a daily time step. See NSE of Log Data.-∞ to 1 
NSE Log Daily & Bias PenaltyThe difference between NSE Log daily and the Bias Penalty. See NSE Log Daily & Bias Penalty.-∞ to 1 
NSE MonthlyThe NSE using a monthly time step.  See Nash-Sutcliffe Efficiency.-∞ to 1 
NSE Monthly & Bias PenaltyThe difference between NSE monthly and the Bias Penalty. See NSE Monthly & Bias Penalty.-∞ to 1 
Square-root Daily, Exceedance and BiasCombines three terms, the sum of errors on power transformed flow, the same sum on sorted flow values, and the relative simulation bias. See Sum of Daily Flows, Daily Exceedance (Flow Duration) Curve and Bias.0 to +∞ 
Figure #3. Bivariate statistics, Total period

 

MUSIC volumetric ratio statistic

In MUSIC Results Manager, is an additional bivariate statistic, Volumetric Ratio, which can be used to calculate the volumetric ratio between two flows, for example, pre and post development outflow. For each flow, the user chooses a threshold, and the area between the curve and the threshold is calculated. The ratio between these two areas is the Volumetric Ratio:

where xi is the ith value of the flow series x, xt is the user-defined threshold value for x, yj is the jth value of the flow series y, and yt is the user-defined threshold for y.

This statistic can be used to calculate several useful parameters such as Volumetric runoff coefficients and Stream Erosion Index (SEI). To calculate SEI, it is necessary to know the flow threshold (critical flow) below which no erosion is expected to occur within a waterway. This threshold can be represented (EarthTech, 2005) as a percentage of the preā€development two-year ARI peak flow at the location in question. The percentage depends on the stream bed material and usually varies between 10 – 50%. The pre-development two-year ARI peak discharge can be estimated using flood frequency analysis or the rational method as described in Australian Rainfall and Runoff (Pilgrim, D.H., 2001). Flux Files containing the pre- and post-development outflows can be generated from MUSIC model run. SEI can be calculated by creating a custom chart in Results Manager where X data is the post-development outflow, Y data is the pre-development outflow, and both the X data and Y data threshold values are manually set to the value of critical flow using the appropriated fields next to the volumetric ratio.

Although Results Manager can calculate a volumetric ratio for any two data series, currently this statistic supports data expressed as either volume (eg. ML) or rate (eg. m3/s).

User-generated statistics

User-generated statistics include Annual Descriptive Statistics and Mass Balance. Compared to the auto-generated statistical analyses, these provide a broader range of statistical data. 

Annual descriptive statistics

Figure #4 shows annual descriptive statistics for a single result:

  • The upper left pane shows the overall statistical data;
  • The  upper right pane allows you to select the relevant run/s; and
  • The table at the bottom shows the resulting statistical data on an annual basis.
Figure #4. Annual descriptive statistics

Mass Balance

Results Manager provides a Mass Balance tool to check all of the mass flows entering, remaining in, or leaving the system. It is configurable for time period and for every part of the model that you can choose to enclose in a boundary. 

All individual inputs and outputs for the mass balance are specified by the user from the results of the model run, so before starting a mass balance check, ensure that all required results are recorded. Typical recorded results used in a mass balance check could be:

  • All inflow volumes of inflow nodes, 
  • storage volume, 
  • storage rainfall volume, 
  • storage evaporation volume, 
  • storage infiltration volume, 
  • extracted water from supply points, 
  • downstream flow at the lowest point

Each inflow, storage, and outflow need to be added to the appropriate tab (Storage Start, Inflow, Outflows, Storage End).

To calculate mass balance, right click on a result set and select Statistics » New Mass Balance from the contextual menu (Figure #5). A new mass balance statistic will be created and listed under Statistics in the Custom Chart and Statistics pane, and the mass balance tool will be shown in the central workspace (Figure #5), where:

  • The lower right pane allows you to select the result set(s) and time period used to calculate the mass balance;
  • The upper right pane includes four tabs: Storage Start, Inflow, Outflows, Storage End; which will accept results listed in the upper left pane;

    Note: The Is Grouped checkbox relates to the mass balance report exported from the Results Manager using Export To Excel. If this box is unchecked, the result will be reported as its own separate total, otherwise a single grouped total will be given for each tab.
  • The upper left pane lists the results from the selected result sets(s); right click on a result to add it to one of the four tabs in the upper right panel; and
  • The lower left pane is the mass balance check, which will calculate the flow from the four tabs in the upper right panel.

Note: If a result is selected for use in the mass balance, and then a result set is selected that does not contain that result, a value of zero will be assumed for the missing result.


Figure #5. Mass balance

 

  • No labels