Menu Process > Processing Options... > 1. Initial Processing > Matching

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Access: On the Menu bar, click Process > Processing Options..., the Processing Options pop-up appears. Click 1. Initial Processing. By default, only the General tab appears. On the bottom left, select the Advanced box to display the Matching tab.

 


1. Initial Processing

2. Point Cloud and Mesh

3. DSM, Orthomosaic and Index

Resources and Notifications

 

General Matching Calibration  

Allows the user to change the processing options related to the keypoints matching for step 1. Initial Processing. It contains 2 sections:

 

Matching Image Pairs

Allows the user to select which pairs of images are matched:

  • Aerial Grid or Corridor: Optimizes the pair matching for Aerial Grid or Corridor flight paths. 
  • Free flight or Terrestrial: Optimizes the pair matching for Free-flight paths or Terrestrial images (for example, taking images around a house or a statue). 
  • Custom (for advanced users): Specific pair matching parameters useful in specific projects. Suggested if one of the above options does not provide the desired results. It contains the different pair matching parameters:
     
    Important: Higher number of matches will increase the processing time and the quality of the results and may generate results in case of low quality datasets that failed with the default matching options.
    • Use Capture Time: Matches images considering the time on which they were taken.
      • Number of Neighboring Images: It allows the user to set how many images (before and after in time) are used for the pair matching. 
    • Use Triangulation of Image Geolocation: Only available if the images have geolocation. It is only useful for aerial flights. The position of the images is triangulated. Each image is matched with images with which it is connected by a triangle.
    • Use Distance: Only available if the images have geolocation. It is useful for oblique or terrestrial projects. Each image is matched with images within a relative distance. 
      • Relative Distance Between Consecutive Images: It allows the user to set the relative distance.
 
Example: For Relative Distance Between Consecutive Images = 5 and average distance between consecutive images = 2 m: Pix4Dmapper will multiple the average distance by 5 (2*5 = 10 m). It will create a sphere with center the image and radius 10 m and will match this image with all other images included in the sphere.
    • Use Image Similarity: Uses the image content for pairs matching. Matches the n images with most similar content.
      • Maximum Number of Pairs for Each Image Based on Similarity: Maximum number of image pairs with similar image content to be matched.
    • Use MTPs: Images connected via a shared Manual Tie Point will be matched.
      • Maximum Number of Image Pairs per MTP: Maximum number of image pairs connected by a given MTP.
    • Use Time for Multiple Cameras: When having multiple flights without geolocation using the same flight plan over the same area, and having different camera models for each flight, it matches the images from one flight with the ones from the other flight using the time information.

 

Matching Strategy

Allows the user to determine how the images are matched:

  • Use Geometrically Verified Matching: Slower but more robust. If not selected, matches are established using only the image content. If selected, the relative camera positions are also taken into account to discard geometrically unrealistic matches. Useful when many similar features are present throughout the project: rows of plants in a farming field, window corners on a building's facade, etc.

 

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