Thin LAS (3D Analyst)

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Summary

Creates new LAS files that contain a subset of LAS points from the input LAS dataset.

Usage

  • Consider using this tool on over-sampled LAS data—such as photogrammetrically derived point clouds and returns from multiple overlapping lidar scans—to optimize display performance and speed up analysis operations. In mobile lidar surveys, extremely dense point returns can be captured due to the variation of the speed and movement pattern of the lidar sensor. Thinning can help create consistent density across the survey, which can help improve the result of certain automated classification routines that rely on regularly spaced point returns.

  • Consider preserving class codes that represent sparsely captured objects, particularly if the number of points with that class code designation represent a small fraction of the total number of points. For example, if you have points representing sparsely captured features, such as powerlines, preserving them can provide a useful context about its spatial arrangement that would otherwise be lost if those points were thinned.

  • Each LAS file is thinned independently from the other LAS files referenced by the LAS dataset. If the LAS files have overlapping data, consider merging them into nonoverlapping tiles to achieve uniform distribution of data by merging the points through the Tile LAS tool.

  • Each input LAS file will generate an output file with a name that matches the input unless a name suffix is specified in the Output File Name Suffix parameter.

Parameters

LabelExplanationData Type
Input LAS Dataset

The LAS dataset to process.

LAS Dataset Layer
Target Folder

The existing folder to which the output .las files will be written.

Folder
Thinning Dimension

The type of thinning operation that will be conducted.

  • 2D —Thinning will occur in tiles defined along the x,y-axis.
  • 3D —Thinning will occur in volumes of space defined by tiles along the x,y-axis, and height gradients along the z-axis. This is the default.
String
Target XY Resolution

The size of each side of the thinning tile along the x,y-axis.

Linear Unit
Target Z Resolution
(Optional)

The height of each thinning region when using the 3D thinning method.

Linear Unit
Point Selection Method

The method used to determine which points are retained in each thinning region.

  • Closest to Center —The LAS point that is closest to the center of the region being thinned. This is the default.
  • Class Code Weights —The LAS points with the class code that has the highest weight assigned.
  • Most Frequent Class Code —The LAS points with the most frequent class code value in the region being thinned.
  • Lowest Point —The lowest LAS point in the region being thinned.
  • Highest Point —The highest LAS point in the region being thinned.
  • Lowest and Highest Point —The highest and lowest LAS points in the region being thinned.
  • Closest to Average Height —The LAS point whose height is closest to the average of height of all points in the region being thinned.
  • Lowest Intensity —The LAS point whose intensity value is the lowest among the points in the region being thinned.
  • Highest Intensity —The LAS point whose intensity value is the highest among the points in the region being thinned.
  • Lowest and Highest Intensity —The two LAS points with the lowest and the highest intensity values among the points in the region being thinned.
  • Closest to Average Intensity —The LAS point whose intensity value is closest to the average of all intensity values from points in the region being thinned.
String
Input Class Codes and Weights
(Optional)

The weights assigned to each class code that determine which points are retained in each thinning region. This parameter is only enabled when the Class Code Weights option is specified in the Point Selection Method parameter. The class code with the highest weight will be retained in the thinning region. If two class codes with the same weight exist in a given thinning region, the class code with the smallest point source ID will be retained.

Value Table
Output File Name Suffix
(Optional)

The name added to each output file.

String
Output LAS Dataset
(Optional)

The output LAS dataset referencing the newly created .las files.

LAS Dataset
Preserved Classes
(Optional)

The input LAS points with the specified class code values will not be thinned from the output LAS files.

Long
Preserved Flags
(Optional)

The input LAS points with the specified class flag designations will be preserved in the output LAS files.

  • Model Key —Points with the model key class flag will be preserved.
  • Overlap —Points with the overlap class flag will be preserved.
  • Synthetic —Points with the synthetic class flag will be preserved.
  • Withheld —Points with the withheld class flag will be preserved.
String
Preserved Returns
(Optional)

The input LAS points with the specified returns will be preserved in the output LAS files.

  • Single returns —All single return points will be included.
  • Last returns —All single and last returns will be included.
  • First of many returns —All points that are the first of multiple returns will be included.
  • Last of many returns —All points that are the last of multiple returns will be included.
String
Excluded Classes
(Optional)

The input LAS points with the specified class code values will be excluded from the output LAS files.

Long
Excluded Flags
(Optional)

The input LAS points with the specified class flag designations will be excluded from the output LAS files.

  • Model Key —Points with the model key class flag will be excluded.
  • Overlap —Points with the overlap class flag will be excluded.
  • Synthetic —Points with the synthetic class flag will be excluded.
  • Withheld —Points with the withheld class flag will be excluded.
String
Excluded Returns
(Optional)

The input LAS points with the specified returns will be excluded from the output LAS files.

  • Single returns —All single return points will be excluded.
  • Last returns —All single and last returns will be excluded.
  • First of many returns —All points that are the first of multiple returns will be excluded.
  • Last of many returns —All points that are the last of multiple returns will be excluded.
String
Compression
(Optional)

Specifies whether the output .las file will be in a compressed format or the standard LAS format.

  • No Compression —The output will be in the standard LAS format (*.las file). This is the default.
  • zLAS Compression —Output .las files will be compressed in the zLAS format.
String
Remove Variable Length Records
(Optional)

Indicates whether variable length records stored with the input LAS points will be preserved or eliminated in the output LAS data.

  • Unchecked—Variable length records will be maintained in the output LAS points. This is the default.
  • Checked—Variable length records will be removed from the output LAS points.
Boolean
Rearrange LAS Points
(Optional)

Indicates if LAS points will be stored in spatially organized clusters.

  • Unchecked—The order of the points in the LAS files will remain the same.
  • Checked—The points in the LAS files will be rearranged. This is the default.
Boolean
Compute Statistics
(Optional)

Specifies whether statistics will be computed for the .las files referenced by the LAS dataset. Computing statistics provides a spatial index for each .las file, which improves analysis and display performance. Statistics also enhance the filtering and symbology experience by limiting the display of LAS attributes, such as classification codes and return information, to values that are present in the .las file.

  • Checked—Statistics will be computed. This is the default.
  • Unchecked—Statistics will not be computed.
Boolean

Derived Output

LabelExplanationData Type
Output Folder

The folder with the output LAS files.

Folder

Licensing information

  • Basic: Requires 3D Analyst
  • Standard: Requires 3D Analyst
  • Advanced: Requires 3D Analyst

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