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Metashape api

Manufactured by Agisoft

Metashape API is a software development kit (SDK) that provides programmatic access to the Metashape photogrammetry software. The API allows users to automate and integrate Metashape's 3D reconstruction capabilities into their own applications. The core function of the Metashape API is to enable developers to access and control the Metashape software through custom scripts and programs.

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Lab products found in correlation

4 protocols using metashape api

1

Generating Orthomosaics with Multispectral Imagery

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To ensure the reflectance quality of the orthomosaic, we followed the steps suggested by Agisoft and MicaSense RedEdge cameras (Agisoft, https://bit.ly/32swtn2). These steps include the usage of the MicaSense downwelling light sensor to fix any illumination issues caused by the weather conditions and MicaSense reflectance calibration panel. The acquired images were processed through Agisoft MetaShape Pro software (Version 1.2.2, Agisoft LLC, http://www.agisoft.com) and its Python API (Application Program Interface) generates and exports a five-band orthomosaic and digital elevation models (DEM) automatically as GeoTIFF format. Our processing workflow includes following nine main steps (1) Uploading UAV images, (2) calibration, (3) GCPs detection and geo-tagging, (4) photo alignment, (5) camera optimization (6) build dense point cloud, (7) build DEM, (8) build orthomosaic (9) export DEM and orthomosaic (Additional file 2: Figure S1). In step three, coded GCPs are automatically detected through Agisoft Metashape API (Fig. 1e).
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2

Multispectral Orthomosaic Generation Workflow

Check if the same lab product or an alternative is used in the 5 most similar protocols
To ensure the re ectance quality of the orthomosaic, we followed the steps suggested by Agisoft and MicaSense RedEdge cameras (Agisoft, https://bit.ly/32swtn2). These steps include the usage of the MicaSense downwelling light sensor to x any illumination issues caused by the weather conditions and MicaSense re ectance calibration panel. The acquired images were processed through Agisoft MetaShape Pro software (Version 1.2.2, Agisoft LLC, http://www.agisoft.com) and its Python API (Application Program Interface) generates and exports a ve-band orthomosaic and digital elevation models (DEM) automatically as GeoTIFF format. Our processing work ow includes following nine main steps (1) Uploading UAV images, (2) calibration, (3) GCPs detection and geo-tagging, (4) photo alignment, (5) camera optimization (6) build dense point cloud, (7) build DEM, (8) build orthomosaic (9) export DEM and orthomosaic (Figure S1). In step three, coded GCPs are automatically detected through Agisoft Metashape API (Figure 1e).
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3

Optimizing Orthomosaics from UAV Imagery

Check if the same lab product or an alternative is used in the 5 most similar protocols
To ensure the reflectance quality of the orthomosaic, we followed the steps suggested by Agisoft and MicaSense RedEdge cameras (Agisoft, https://bit.ly/32swtn2). These steps include the usage of the MicaSense downwelling light sensor to fix any illumination issues caused by the weather conditions and MicaSense reflectance calibration panel. The acquired images were processed through Agisoft MetaShape Pro software (Version 1.2.2, Agisoft LLC, http://www.agisoft.com) and its Python API (Application Program Interface) generates and exports a five-band orthomosaic and digital elevation models (DEM) automatically as GeoTIFF format. Our processing workflow includes following nine main steps (1) Uploading UAV images, (2) calibration, (3) GCPs detection and geo-tagging, (4) photo alignment, (5) camera optimization ( 6) build dense point cloud, (7) build DEM, (8) build orthomosaic ( 9) export DEM and orthomosaic (Figure S1). In step three, coded GCPs are automatically detected through Agisoft Metashape API (Figure 1e).
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4

Multispectral Orthomosaic Generation Workflow

Check if the same lab product or an alternative is used in the 5 most similar protocols
To ensure the re ectance quality of the orthomosaic, we followed the steps suggested by Agisoft and MicaSense RedEdge cameras (Agisoft, https://bit.ly/32swtn2). These steps include the usage of the MicaSense downwelling light sensor to x any illumination issues caused by the weather conditions and MicaSense re ectance calibration panel. The acquired images were processed through Agisoft MetaShape Pro software (Version 1.2.2, Agisoft LLC, http://www.agisoft.com) and its Python API (Application Program Interface) generates and exports a ve-band orthomosaic and digital elevation models (DEM) automatically as GeoTIFF format. Our processing work ow includes following nine main steps (1) Uploading UAV images, (2) calibration, (3) GCPs detection and geo-tagging, (4) photo alignment, (5) camera optimization (6) build dense point cloud, (7) build DEM, (8) build orthomosaic (9) export DEM and orthomosaic (Figure S1). In step three, coded GCPs are automatically detected through Agisoft Metashape API (Figure 1e).
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