- Agisoft metashape mac os
- Agisoft Metashape 1.7.4
- Professional Edition
- Standard Edition
- Full change log
- Metashape & PhotoScan comparison
- Python 3 Module
- Java Library
- Agisoft Viewer
- Texture De-Lighter
- Free update
- Agisoft Metashape 1.6.6
- Professional Edition
- Standard Edition
- Update info
- Agisoft Metashape Professional
- Program description
- Use Metashape for aerial photos
- Point clouds
- Highly detailed
- Texturised 3D models
- Orthophotos
- Professional photogrammetry is easy
- How it Agisoft Works
- Cameras positioning
- Cameras positioning
- Cameras positioning
- Point cloud
- Point cloud
- Point cloud
- Polygonal model
- Polygonal model
- Polygonal model
- Textures
- Textures
- Textures
- Capabilities
Agisoft metashape mac os
Agisoft Metashape 1.7.4
This is the latest released version.
Check Metashape Tutorials and User Manual to get started.
Professional Edition
Standard Edition
Full change log
All new features in this version.
Metashape & PhotoScan comparison
Short list of major changes.
Python 3 Module
Python module for the latest Metashape version.
Java Library
Java library for the latest Metashape version.
Agisoft Viewer
A free stand-alone software to visualize 3D data.
Measure distances, areas, volumes; calculate profiles; draw polylines, polygons. Agisoft Viewer Tutorials.
Texture De-Lighter
A free stand-alone software to remove shadows from model textures. Texture De-Lighter Tutorial.
Free update
Update from PhotoScan to Metashape is completely free and does not require any additional payments from the licensed users.
New users can try Agisoft Metashape software either in demo mode (export and save functions are blocked) or test it in full function mode with 30-day trial license for free.
Fully functional trial period can be started directly from the Metashape activation dialog.
Agisoft Metashape 1.6.6
This is a previous released version.
Professional Edition
Standard Edition
Update info
If you want to update your copy of Agisoft PhotoScan software, download the latest version from this page and install it on the same computing system. If you are updating from PhotoScan Professional edition version 1.2.x or earlier, you will need to re-activate the software with your license key. The new version of the Standard edition will be automatically activated.
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Agisoft Metashape Professional
Simple professional photogrammetry
Compare to Metashape Standart
Comparing versions of Agisoft Metashape
| Capabilities | Professional | Standard |
|---|---|---|
| Photogrammetric triangulation | ||
| Create and edit dense points cloud | ||
| Create and texturise 3D models | ||
| Create spherical panorama | ||
| «Fisheye» lens support | ||
| Spherical and cylinder camera support | ||
| Dense points cloud classification | ||
| DRM: export of geolinked models | ||
| Export of geolinked orthophotos | ||
| Edit section lines on orthophoto | ||
| Markers and sizing rulers support | ||
| Checkpoints support | ||
| Automatic detection of coded markers | ||
| Multispectral images processing | ||
| NDVI calculation | ||
| Tile data structures | ||
| Dynamic scenes 4D-modeling | ||
| Python scrips support | ||
| Distributed processing | ||
| Windows, Mac OS X, Debian/Ubuntu | ||
| Floating licenses |
Purchase Ask for trial version
Program description
Agisoft Metashape Professional is software that maximizes the possibilities of photogrammetry. It incorporates machine learning technologies for analysis and post-processing to deliver the highest accuracy results.
- process images obtained with RGB or multispectral cameras, including multi-camera systems,
- convert photographs:
- into dense point clouds,
- into textured polygonal models,
- into georeferenced orthophotomaps,
- in digital elevation / terrain models (DEM / DTM).
Post-processing allows to remove shadows and texture distortions from the surface of models, calculate vegetation indices, compose prescription files for agricultural activities, automatically classify dense point clouds, etc.
The ability to export to all external post-processing packages makes Agisoft Metashape Professional a versatile photogrammetric tool.
Use Metashape for aerial photos
Point clouds
similar quality as laser scans
Highly detailed
surfaces in TIN or GRID models
Texturised 3D models
based on original images
Orthophotos
with 1:500 precision
Professional photogrammetry is easy
The core of Metashape is digital photogrammetry methods supported by modern computer vision algorithms.
Metashape knows what to offer to professionals. You can control the quality of the obtained results by using reports, fine-tune the workspace for specific tasks and use advanced features such as stereo mode or Python scripts.
A professional photogrammetric system can be easily operated by a novice: the intuitive interface is very easy to learn. You can get highly accurate results without even having specialized knowledge and training in photogrammetry.
How it Agisoft Works
Cameras positioning
Cameras positioning
Cameras positioning
After uploading photos to Metashape, the software will automatically get cameras position and orientation for every shot, and will create base point cloud.
Point cloud
Point cloud
Point cloud
After that, Metashape creates dense point cloud based on calculated cameras positions. Dense point cloud can be cut/excluded and classified.
Polygonal model
Polygonal model
Polygonal model
Based on dense point cloud, a polygonal model is created. Two methods are used altitude map — for such surfaces as relief, and random — for surfaces of any kind. The model can be edited or exported.
Textures
Textures
Textures
To raise textures quality, Metashape uses automated image evaluation. Those rated less then 0.5 are recommended to be excluded from generated texture to make model’s visual quality better.
To find common points, Metashape uses an algorithm that first finds ‘special’ points in individual photographs. Then, on the basis of unique identifiers — descriptors — the points are identified. If a point is recognized in two or more frames, it becomes a match.
This is followed by frame alignment, or phototriangulation. This process is implemented with the use of the Bundle Block Adjustment algorithm, which is based on the least squares method. Bundle Block Adjustment is an interpretation of the Bundle Method, the most rigorous method for solving phototriangulation. The calculation can include the coordinates of the anchor points and the projection of markers on the frame. All parameters can be given weights — the scale of their participation in the calculation.
A dense cloud is built on the basis of depth maps. The Semi-Global Matching algorithm is used to create them. The essence of the algorithm is that for each pixel of the left image of a stereo pair there is a corresponding pixel on the right image. Each pixel in the left image is compared to a subset of pixels in the right image with the corresponding ordinate. Next, a parallelepiped is formed for the entire image, where one ‘line’ of cells corresponds to each pixel, and one longitudinal section of the cube corresponds to a row of pixels in the image. The elements of the cube are the values of the matching criterion, which are analyzed to find the minimum values for each pixel.
In addition, links between neighboring pixels in eight directions around a given pixel are analyzed. As a result, for each pixel of the left image, the corresponding value of the longitudinal parallax is found and, as a consequence, the spatial coordinates of the points of the dense model.
Capabilities
Processing of various types of imagery: aerial (nadir, oblique), close-range, satellite.
Auto calibration: frame (incl. fisheye), spherical & cylindrical cameras.
Multi-camera projects support.
Scanned images with fiducial marks support.
Additional ability to edit data to obtain the most accurate results in subsequent stages.
Automatic multiclass points for fine-tuning post-processing.
Import / export will help improve the classic point data processing.
Digital Surface and/or Digital Terrain Model — depending on the project.
Georeferncing based on EXIF meta data/flight log: GPS/GCPs data.
EPSG registry coordinate systems support: WGS84, UTM, etc.
Customize vertical datums according to the requirements of a specific project.
Georeferenced orthomosaic: most-GIS-compatible GeoTIFF format; KML file to be located on Google Earth.
Block export for very large projects. Colour grading to ensure uniform texture.
The built-in noise filter in the image allows to eliminate artifacts resulting from the displacement of the object relative to the camera during shooting.
Set up planar and cylindrical projection options for ground projects.
Simultaneous adjustment of both laser scanner and camera positions.
Capability to combine TLS and photogrammetric depth maps.
Markers support and automatic targets detection for manual alignment of scanner data.
Masking instruments to ignore unwanted objects in scanner data.
GCPs import for georeferencing and control over the accuracy of the results.
Coded/non-coded targets auto-detection for fast GCPs input.
Scale bar tool to set reference distance without implementation of positioning equipment.
Inbuilt tools to measure distances, areas and volumes.
To perform more sophisticated metric analysis Metashape products can be smoothly transferred to external tools thanks to a variety of export formats.
Professional 3D monitors and 3D controllers support for accurate and convenient stereoscopic vectorization of features and measurement purposes.
Various scenes: archaeological sites, artifacts, buildings, interiors, people, etc.
Direct upload to various online resources and export to many popular formats.
Photorealistic textures: HDR and multifile support (incl. UDIM layout).
City scale modeling preserving the original image resolution for texturing.
Multi camera station data processing for creative projects in cinemato- graphic art, game industry, etc.
Basis for numerous visual effects with 3D models reconstructed in time sequence.
It is possible both to build a complete panoramic image using a set of images from one camera station (a camera that is statically located at one point and performs shooting in different directions), and to create a 3D model using data from at least two camera stations.
RGB/NIR/thermal/multispectral imagery processing.
Fast reconstruction based on preferable channel.
Multichannel orthomosaic generation and user-defined vegetation indices (e.g. NDVI) calculation and export.
Straightforward and time-efficient for large-scale projects since requires only aligned images as the input.
Results export in a form of a 3D polyline model for every wire.
Robust results thanks to catenary curve fitting algorithm.
Common processing workflow for panchromatic and multispectral satellite images is supported, provided that sufficiently accurate RPC data is available for each image.
In addition to Batch processing — a way to save on human intervention, Python scripting and Java bindings suggests for sophisticated automation and customization options.
Starting from the adding custom processing operations to the application GUI up to the complete job automation and integration to Python or Java pipeline.
Distributed calculations over a local computer network to use combined power of multiple nodes for huge data sets processing in one project.
Cloud processing interface allows to save on the hardware infrastructure for photogrammetric pipeline, with further option to visualize and share the variety of the processing results online with colleagues or customers, as well as to embed published projects in your own web platforms.
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