Material/Surface (material) Code Description 1 sealed 2 unsealed 3 natural Fireline Classification (fireline) Code Description 1 Fireline Class 1 2 Fireline Class 2 3 Fireline Class 3 4 Fireline Class 4 5 Fireline Class 3 Unconstructed 6 Fireline Class 4 Unconstructed 7 Not used for fire Roads Subtype Subcategory (subcat) Code Description 21 Roads Asset Type (assettype) Code Description 50 4C Local access roads for neighbouring landholders. 56 5C Minor level of access, formed or unformed, unsealed or natural surface. 60 5A Primary access to QPWS Estate, generally formed, sealed or unsealed. 65 3A Rural Arterial roads with high transport use, which would normally be classified as 5A. 69 5B Secondary Access to QPWS estate, moderate traffic, formed or unformed, unsealed. NULL NULL values are tracks or roads that are not managed by QPWS and do not appear in SAMS. Para eso, se puede crear una sugerencia en nuestra comunidad: Estamos siempre monitoreando los requerimientos de nuestros usuarios.Asset Group (assetgroup) Code Description 1 formed roads or tracks 2 unformed roads or tracks Material/Surface (material) Code Description 1 sealed 2 unsealed 3 natural Fireline Classification (fireline) Code Description 1 Fireline Class 1 2 Fireline Class 2 3 Fireline Class 3 4 Fireline Class 4 5 Fireline Class 3 Unconstructed 6 Fireline Class 4 Unconstructed 7 Not used for fire Roadway Additional Assets Subtype Subcategory (subcat) Code Description 22 Roadway Additional Assets including causeways or floodway Asset Type (assettype) Code Description 179 Vehicle Bridge 180 Causeway/Floodway NULL NULL values are tracks or roads that are not managed by QPWS and do not appear in SAMS. Quizás puede sugerirnos esto como una nueva funcionalidad en uno de nuestros software. (semi-manualmente)Įl primer método sería más preciso pero más lento, mientras que el segundo sería más rápido y más fácil pero menos preciso. Este método supone que los árboles están bien distribuidos. Luego podría contar los árboles en esta línea de perfil y multiplicar el número por el número de líneas de perfil. En el caso de que no fueran personas pero por ejemplo árboles, se podría dibujar una línea de perfil en el DSM que genera Pix4Dmapper.Se podria contar el numero de objetos o en este caso el número de personas en el ortomosaico y las nubes de puntos.En Pix4Dmapper, se puede contar objetos manualmente (o semi-manualmente): Pix4Dmapper no realiza un recuento automático de objetos. Muchas gracias por compartir esta interesante aplicación con nosotros. Typical input: images taken with a thermoMAP camera. Image acquisition: nadir flight with a thermoMAP camera. Typical input: images taken with a thermal camera (such as Tau 2 based cameras: FLIR Vue Pro, FLIR XT). Image acquisition: nadir flight with a thermal camera. Typical input: images taken with an RGB camera for agriculture (Sequoia RGB).Īpplication examples: digital scouting, report claiming for precision agriculture. Image acquisition: nadir flight over flat terrain with an RGB camera. Generates an orthomosaic for precision agriculture. Typical input: images taken with a modified RGB camera. Image acquisition: nadir flight with a modified RGB camera. Typical input: images taken with a multispectral camera (Sequoia, Micasense RedEdge, Multispec 4C, etc).Īpplication examples: precision agriculture.įaster processing of the 3D Maps template for assessing the quality of the acquired dataset.įaster processing of the 3D Models template for assessing the quality of the acquired dataset.įaster processing of the Ag Modified Camera template for assessing the quality of the acquired dataset.įaster processing of the Ag RGB template for assessing the quality of the acquired dataset. Image acquisition: nadir flight with a multispectral camera. Generates reflectance, index (such as NDVI), classification and application maps. Typical input: any images with high overlap.Īpplication examples: 3D models of buildings, objects, ground imagery, indoor imagery, inspection, etc. Image acquisition: oblique flight or terrestrial. Generates a 3D model (point cloud, 3D textured mesh). Typical input: aerial images acquired using a grid flight plan with high overlap.Īpplication examples: quarries, cadaster, etc. Image acquisition: nadir or oblique flight. Generates a 3D map (point cloud, 3D textured mesh), as well as a DSM and an orthomosaic. Here is a description of the available processing templates:
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