Mit der Image Analyst-Lizenz verfügbar.
Zusammenfassung
Schätzt den Trend für jedes Pixel entlang einer Dimension für eine oder mehrere Variablen in einem multidimensionalen Raster.
Diskussion
For more information about how this function works, see the Generate Trend raster function.
The referenced raster dataset for the raster object is temporary. To make it permanent, you can call the raster object's save method.
Syntax
GenerateTrend (raster, dimension_name, {regression_type}, {cycle_length}, {cycle_unit}, {harmonic_frequency}, {polynomial_order}, {ignore_nodata}, {rmse}, {r2}, {slope_p_value}, {seasonal_period})
Parameter | Erläuterung | Datentyp |
raster | The input multidimensional raster. | Raster |
dimension_name | The name of the dimension along which a trend will be extracted for the variable or variables selected in the analysis. | String |
regression_type | Specifies the type of line to be used to fit to the pixel values along a dimension.
(Der Standardwert ist LINEAR) | String |
cycle_length | The length of periodic variation to model. This argument is required when regression_type is set to HARMONIC. For example, leaf greenness often has one strong cycle of variation in a single year, so cycle_length is 1 year. Hourly temperature data has one strong cycle of variation throughout a single day, so the cycle_length is 1 day. The default value is 1. (Der Standardwert ist 1) | Integer |
cycle_unit | Specifies the time unit to be used for the length of a harmonic cycle.
(Der Standardwert ist YEARS) | String |
harmonic_frequency | The number of models to use in the trend fitting when the regression_type is HARMONIC. The default is 1, or one harmonic cycle per year. This argument is only included in the trend analysis when the dimension being analyzed is time. (Der Standardwert ist 1) | Integer |
polynomial_order | The polynomial order number to use in the trend fitting when the regression_type is POLYNOMIAL. The default is 2, or second-order polynomial. This argument is only included in the trend analysis when the dimension being analyzed is time. (Der Standardwert ist 2) | Integer |
ignore_nodata | Specifies whether NoData values are ignored in the analysis.
(Der Standardwert ist True) | Boolean |
rmse | Specifies whether the root mean square error (RMSE) of the trend fit line will be calculated.
(Der Standardwert ist True) | Boolean |
r2 | Specifies whether the R-squared goodness-of-fit statistic for the trend fit line will be calculated.
(Der Standardwert ist False) | Boolean |
slope_p_value | Specifies whether the p-value statistic for the slope coefficient of the trend line will be calculated.
(Der Standardwert ist False) | Boolean |
seasonal_period | Specifies the unit to use for seasonal period. This is required when the regression_type argument is set to SEASONAL-KENDALL.
(Der Standardwert ist DAYS) | String |
Datentyp | Erläuterung |
Raster | The output raster. |
Codebeispiel
This example calculates the harmonic trend fit along an NDVI time series.
# Import system modulesimport arcpy
import arcpy
from arcpy.ia import *
# Check out the ArcGIS Image Analyst extension license
arcpy.CheckOutExtension("ImageAnalyst")
# Set the local variables
in_multidimensional_raster = "C:/data/ndvi_time_series.crf"
dimension_name = "StdTime"
regression_type = "HARMONIC"
cycle_length = 1
cycle_unit = "YEARS"
harmonic_frequency = 1
polynomial_order = None
ignore_nodata = True
rmse = True
r2 = False
slope_p_value = False
seasonal_period = None
# Apply GenerateTrendRaster function
trend_raster = arcpy.ia.GenerateTrend(in_multidimensional_raster,
dimension_name, regression_type, cycle_length, cycle_unit,
harmonic_frequency, polynomial_order, ignore_nodata, rmse,
r2, slope_p_value, seasonal_period)
# Save the output
trend_raster.save("C:/arcpyExamples/outputs/ndvi_trend_raster.crf")