List of ArcGIS Image Analyst extension raster functions

Available with Image Analyst license.

The ArcGIS Image Analyst extension provides a rich suite of raster functions in ArcGIS Pro.

Raster functions

A large number of raster functions is provided with the Image Analyst extension. These functions are grouped into categories of related functionality in the following tables. Each function is linked within the table to a detailed description.

Analysis

The following functions are found in the Analysis raster function category. Use the analysis functions to analyze multidimensional and imagery datasets.

Function Description
CCDC Analysis

Evaluates changes in pixel values over time using the Continuous Change Detection and Classification (CCDC) method and generates a multidimensional raster containing the model results.

Compute Change

Computes the differences between two categorical or continuous raster datasets.

Detect Change Using Change Analysis

Generates a raster layer containing pixel change information using the output change analysis raster from the Analyze Changes Using CCDC tool.

Generate Trend

Estimates the trend for each pixel along a dimension for one or more variables in a multidimensional raster.

Predict Using Trend

Computes a forecasted multidimensional raster layer using the output trend raster from the Generate Trend function.

Process Raster Collection

Processes each slice in a multidimensional raster or each item in a mosaic raster. This function can also aggregate multiple slices into a single slice.

Classification functions

The following functions are found in the Classification raster function category. Use the segmentation and classification functions to prepare segmented rasters or pixel-based raster datasets to use in creating classified raster datasets.

Function Description
Classify

Applies the appropriate classifier and associated training data specified in the .ecd training file to a raster dataset or segmented raster.

Linear Spectral Unmixing

Performs subpixel classification and calculates the fractional abundance of different land cover types for individual pixels.

Maximum Likelihood Classify

Performs a maximum likelihood classification on a raster dataset or mosaic dataset.

Segment Mean Shift

Groups pixels that are adjacent and have similar spectral characteristics into segments. This can be used as a second raster in the Classify function.

Conversion functions

The following function is found in the Conversion raster function category.

Function Description

Trend To RGB

Converts a trend raster to a three-band (red, green, and blue) raster. The trend raster is generated from the Generate Trend raster function or the CCDC Analysis raster function.

Math functions

The following functions are found in the Math raster function category. The general math functions apply a mathematical function to the input raster(s). These tools fall into several categories. The arithmetic tools perform basic mathematical operations, such as addition and multiplication. There are tools that perform various types of exponentiation operations, which include exponentials and logarithms, in addition to the basic power operations. The remaining tools are used either for sign conversion or for conversion between integer and floating point data types.

Function Description
Abs

Calculates the absolute value of the pixels in a raster.

Arithmetic

Uses the pixel values to calculate mathematical operations on overlapping rasters.

Band Arithmetic

Calculates indexes using the predefined formulas or user-defined expressions.

Calculator

Computes a raster from a mathematical expression based on the raster bands.

Divide

Divides the values of two rasters on a pixel-by-pixel basis.

Exp

Calculates the base e exponential of the pixels in a raster.

Exp10

Calculates the base 10 exponential of the pixels in a raster.

Exp2

Calculates the base 2 exponential of the pixels in a raster.

Float

Converts each pixel value of a raster into a floating-point representation.

Int

Converts each pixel value of a raster to an integer by truncation.

Ln

Calculates the natural logarithm (base e) of each pixel in a raster.

Log10

Calculates the base 10 logarithm of each pixel in a raster.

Log2

Calculates the base 2 logarithm of each pixel in a raster.

Minus

Subtracts the value of the second input raster from the value of the first input raster on a pixel-by-pixel basis.

Mod

Finds the remainder (modulo) of the first raster when divided by the second raster on a pixel-by-pixel basis.

Negate

Changes the sign (multiplies by -1) of the pixel values of the input raster on a pixel-by-pixel basis.

Plus

Adds (sums) the values of two rasters on a pixel-by-pixel basis.

Power

Raises the pixel values in a raster to the power of the values found in another raster.

Round Down

Returns the next lower integer, as a floating-point value, for each pixel in a raster.

Round Up

Returns the next higher integer, as a floating-point value, for each pixel in a raster.

Square

Calculates the square of the pixel values in a raster.

Square Root

Calculates the square root of the pixel values in a raster.

Times

Multiplies the values of two rasters on a pixel-by-pixel basis.

Weighted Sum

The Weighted Sum function allows you to overlay several rasters, multiplying each by their given weight and summing them together.

Math: Conditional

The following functions are found in the Math: Conditional raster function category. The conditional functions allow you to control the output values based on the conditions placed on the input values. The conditions that can be applied are of two types: queries on the attributes or a condition based on the position of the conditional statement in a list.

Function Description
Con

Performs a conditional if/else evaluation on each of the input cells of an input raster.

Set Null

Sets identified pixel locations to NoData based on the specified criteria. Returns NoData if a conditional evaluation is true, and returns the value specified by another raster if it is false.

Math: Logical

The following functions are found in the Math: Logical raster function category. The logical math functions evaluate the values of the inputs and determine the output values based on Boolean logic. These functions process raster datasets in five main areas: Bitwise, Boolean, Combinatorial, Logical, and Relational.

Function Description
Bitwise And

Performs a Bitwise And operation on the binary values of two input rasters.

Bitwise Left Shift

Performs a Bitwise Left Shift operation on the binary values of two input rasters.

Bitwise Not

Performs a Bitwise Not (complement) operation on the binary value of an input raster.

Bitwise Or

Performs a Bitwise Or operation on the binary values of two input rasters.

Bitwise Right Shift

Performs a Bitwise Right Shift operation on the binary values of two input rasters.

Bitwise Xor

Performs a Bitwise eXclusive Or operation on the binary values of two input rasters.

Boolean And

Performs a Boolean And operation on the pixel values of two input rasters.

If both input values are true (nonzero), the output value is 1. If one or both input values are false (zero), the output value is 0.

Boolean Not

Performs a Boolean Not (complement) operation on the pixel values of the input raster.

If the input values are true (nonzero), the output value is 0. If the input values are false (zero), the output value is 1.

Boolean Or

Performs a Boolean Or operation on the cell values of two input rasters.

If one or both input values are true (nonzero), the output value is 1. If both input values are false (zero), the output value is 0.

Boolean Xor

Performs a Boolean eXclusive Or operation on the cell values of two input rasters.

If one input value is true (nonzero) and the other value is false (zero), the output value is 1. If both input values are true or both are false, the output value is 0.

Equal To

Performs an equal-to operation on two rasters on a pixel-by-pixel basis.

Greater Than

Performs a Relational greater-than operation on two inputs on a pixel-by-pixel basis.

Returns a value of 1 for pixels where the first raster is greater than the second raster and a value of 0 for pixels where the first raster is not greater than the second raster.

Greater Than Equal

Performs a Relational greater-than-or-equal-to operation on two inputs on a pixel-by-pixel basis.

Returns a value of 1 for pixels where the first raster is greater than or equal to the second raster and a value of 0 for pixels where the first raster is not greater than or equal to the second raster.

Is Null

Determines which values from the input raster are NoData on a pixel-by-pixel basis.

Returns a value of 1 if the input value is NoData and a value of 0 for pixels that are not NoData.

Less Than

Performs a Relational less-than operation on two inputs on a pixel-by-pixel basis.

Returns a value of 1 for pixels where the first raster is not less than the second raster.

Less Than Equal

Performs a Relational less-than-or-equal-to operation on two inputs on a pixel-by-pixel basis.

Returns a value of 1 for pixels where the first raster is less than or equal to the second raster and a value of 0 where it is not less than or equal to the second raster.

Not Equal

Performs a Relational not-equal-to operation on two inputs on a pixel-by-pixel basis.

Returns a value of 1 for pixels where the first raster is not equal to the second raster and a value of 0 for pixels where it is equal to the second raster.

Math: Trigonometric

The following functions are found in the Math: Trigonometric raster function category. The trigonometric math functions perform various trigonometric calculations on the values in an input raster.

Function Description
ACos

Calculates the inverse cosine of the pixels in a raster.

ACosH

Calculates the inverse hyperbolic cosine of the pixels in a raster.

ASin

Calculates the inverse sine of the pixels in a raster.

ASinH

Calculates the inverse hyperbolic sine of the pixels in a raster.

ATan

Calculates the inverse tangent of the pixels in a raster.

ATan2

Calculates the inverse tangent (based on x,y) of the pixels in a raster.

ATanH

Calculates the inverse hyperbolic tangent of the pixels in a raster.

Cos

Calculates the cosine of the pixels in a raster.

CosH

Calculates the hyperbolic cosine of the pixels in a raster.

Sin

Calculates the sine of the pixels in a raster.

SinH

Calculates the hyperbolic sine of the pixels in a raster.

Tan

Calculates the tangent of the pixels in a raster.

TanH

Calculates the hyperbolic tangent of the pixels in a raster.

Statistical

The following functions are found in the Statistical raster function category. Use the statistical functions to perform statistical raster operations on a local, neighborhood, or zonal basis.

Function Description
Cell Statistics

Calculates statistics from multiple rasters on a pixel-by-pixel basis. The available statistics are Majority, Maximum, Mean, Median, Minimum, Minority, Range, Standard Deviation, Sum, and Variety.

ArgStatistics

Calculates arguments of the statistics. There are four ArgStatistics methods in this function: Arg Max, Arg Min, Arg Median, and Duration.

Zonal Statistic

Calculates statistics on values of a raster within the zones of another dataset.

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  1. Raster functions