The collected statistics can be visualized with the Histogram object.
You can set the Histogram data element to write data into the model execution log histograms_log. To do this, select the element's option Log to database, and enable the model to write to the log as described here.To add histogram data element
Name – The name of the histogram data. The name is used to identify and access this analysis data object.
Ignore – If selected, this analysis data object is excluded from the model.
Visible – If selected, the analysis data object is visible on the presentation at runtime.
Show name – If selected, the name of this analysis data object is displayed on a presentation diagram.
Value – The expression dynamically evaluating the data object value.
Number of intervals – The number of intervals of the histogram.
Calculate CDF – If selected, CDF (cumulative distribution function) is calculated.
Calculate percentiles – If selected, percentiles are calculated. In this case, specify Low and High confidence measures.
Log to database – If selected, data collected by this histogram data element will be added into the model execution log histograms_log (if logging is turned on in the model's Database properties).
Values range – Specify here, whether values range is Fixed with statically defined Minimum and Maximum, or Automatically detected with the Initial interval size.
Do not update data automatically – If selected, data samples are not updated automatically. In this case you should add new samples by yourself as described here.
selected, new data samples are added
automatically with the specified Recurrence time.
Also, you can define here whether you
want to Use model time
or Use calendar dates.
this choice, you can specify when updating begins with either First update time
or Update date
You can work with collected data using the following functions. Histogram data element is represented in AnyLogic with instance of the following classes:
HistogramSimpleData - Data of a histogram with fixed minimum, maximum and number of intervals. The outlaying samples are registered in special "too low" and "too high" intervals. This class provides the following functions:
double getPDFOutsideHigh() - Returns the percent of samples (0..1) higher than the specified maximum.
double getPDFOutsideLow() - Returns the percent of samples (0..1) lower than the specified minimum.
void setMinMax(double min, double max) - Fully resets the histogram data and sets the new range covered by intervals.
HistogramSmartData - Data of a histogram with a fixed number of intervals but auto-adjustable data range. The data range covered by the intervals always includes the full range of data samples added. This class provides the following functions:
double getIntervalWidth() - Returns the current interval width, i.e. the data range corresponding to one interval.
double getLowerBound() - Returns the lower bound of the range covered by intervals.
Both classes are inherited from the base class HistogramData that provides the most frequently used functions common for both types of histograms:
add(double val) -
Adds a sample data item to
the histogram data.
Parameters: val - the sample value
int count() - Returns the number of samples added to the histogram data.
void reset() - Fully resets the histogram data: discards all PDF/CDF data and statistics.
double max() - Returns the maximum sample value, or Double.NEGATIVE_INFINITY if no samples have been added.
double mean() - Returns the mean of the histogram.
double meanConfidence() - Returns the mean confidence interval of the histogram data. Mean confidence interval is calculated in assumption that confidence level is equal to 95%.
double min() - Returns the minimum sample value, or Double.POSITIVE_INFINITY if no samples have been added.
double deviation() - Returns the standard deviation of the histogram data.
int getNumberOfIntervals() - Returns the number of intervals in the histogram data.
StatisticsDiscrete getStatistics() - Returns the statistics object embedded into the histogram data.
double getXMax() - Returns the upper bound of the range covered by intervals.
double getXMin() - Returns the lower bound of the range covered by intervals.
getPDF(int index) - Returns
the PDF (probability
distribution function) at the given interval.
double getMaxPDF() - Returns the maximum PDF value across all intervals, i.e. the maximum number of hits per interval divided by the total number of samples.
double getCDF(int index) - Returns the CDF (cumulative distribution function) at the given interval.
void setCDFEnabled(boolean yes) - Enables or disables the CDF calculation.
boolean isCDFEnabled() - Checks if the CDF calculation is enabled. Returns true if CDF calculation is enabled, false otherwise.
boolean arePercentilesEnabled() - Checks if percentile calculation is enabled. Returns true if percentile calculation is enabled, false otherwise.
void setPercentilesEnabled(boolean yes) - Enables or disables calculation of percentiles (the data values corresponding to a certain low and high percent bounds).
setPercents(double low, double high)
- Sets the percent bounds for percentile
double getPercentHigh() - Returns the high percent value used for percentile calculation (1 is 100%).
double getPercentLow() - Returns the low percent value used for percentile calculation (1 is 100%).