{"name": "RTH PROJECT", "package_name": "rth_project", "description": "O RTH PROJECT \u00e9 um plugin QGIS voltado para agricultura de precis\u00e3o e sensoriamento remoto, reunindo mais de 33 ferramentas ativas que cobrem todo o fluxo de trabalho, da aquisi\u00e7\u00e3o de imagens de sat\u00e9lite at\u00e9 a exporta\u00e7\u00e3o para equipamentos de campo. Por meio do RTH API Browser, o plugin integra cat\u00e1logos STAC do INPE, Planetary Computer e AWS Element84, permitindo buscar, visualizar e baixar cenas de Sentinel-2, Landsat, CBERS e Amaz\u00f4nia-1 diretamente no QGIS, com reproje\u00e7\u00e3o autom\u00e1tica para o datum UTM regional e ajuste de contraste aplicado na abertura. Para an\u00e1lise de talh\u00f5es, \u00e9 poss\u00edvel calcular \u00edndices de vegeta\u00e7\u00e3o como NDVI, EVI, SAVI, MSAVI e NDWI \u2014 ou f\u00f3rmula personalizada \u2014 lendo apenas a regi\u00e3o do pol\u00edgono selecionado via COG, sem necessidade de baixar a cena completa. No contexto agr\u00edcola, o plugin oferece gera\u00e7\u00e3o de linhas de plantio ou colheita com suporte a curvas, an\u00e1lise de azimute e m\u00e9tricas de regularidade das linhas existentes, cria\u00e7\u00e3o de carreadores e exporta\u00e7\u00e3o de planos de manejo para oito marcas de monitores agr\u00edcolas, incluindo formato ISO-XML para John Deere. Para opera\u00e7\u00f5es com drones, est\u00e3o dispon\u00edveis planejador de miss\u00e3o com c\u00e1lculo autom\u00e1tico de GSD e sobreposi\u00e7\u00e3o, estimativa de baterias e tempo de voo com presets de modelos reais, exporta\u00e7\u00e3o para Litchi, Mission Planner e KMZ, gera\u00e7\u00e3o de ortomosaicos com GDAL e cria\u00e7\u00e3o de MDEs e MDTs a partir de tiles de eleva\u00e7\u00e3o ou nuvens de pontos LAS/LAZ. O plugin tamb\u00e9m centraliza o acesso a bases geogr\u00e1ficas p\u00fablicas brasileiras de \u00f3rg\u00e3os como FUNAI, ANA, ICMBio, IBAMA, INCRA e ANEEL via cat\u00e1logo WMS/WFS integrado, al\u00e9m de permitir o download de dados de desmatamento PRODES e modelos digitais de eleva\u00e7\u00e3o de fontes como SRTM, Copernicus e AW3D. Para aumentar a produtividade no dia a dia, conta com aplica\u00e7\u00e3o de estilos e layouts de impress\u00e3o com um clique, ciclo autom\u00e1tico de visibilidade entre camadas por grupo, c\u00e1lculo de \u00e1rea em hectares com proje\u00e7\u00e3o regional autom\u00e1tica, importa\u00e7\u00e3o e exporta\u00e7\u00e3o de CSV de pontos GPS, convers\u00e3o de pontos em pol\u00edgonos via Concave Hull, revisor de pol\u00edgonos com navega\u00e7\u00e3o autom\u00e1tica, integra\u00e7\u00e3o com Google Earth Pro e exporta\u00e7\u00e3o para File Geodatabase compat\u00edvel com ArcGIS. Completam o conjunto quatro aplicativos Google Earth Engine acess\u00edveis diretamente pelo menu, voltados para an\u00e1lise temporal, s\u00e9ries de vegeta\u00e7\u00e3o, dados clim\u00e1ticos e monitoramento de desmatamento.", "about": "The RTH PROJECT is a QGIS plugin focused on precision agriculture and remote sensing, bringing together more than 33 active tools that cover the entire workflow, from satellite image acquisition to field equipment export. Through the RTH API Browser, the plugin integrates STAC catalogs from INPE, Planetary Computer and AWS Element84, allowing users to search, visualize and download scenes from Sentinel-2, Landsat, CBERS and Amaz\u00f4nia-1 directly within QGIS, with automatic reprojection to the regional UTM datum and contrast enhancement applied on load. For field analysis, vegetation indices such as NDVI, EVI, SAVI, MSAVI and NDWI \u2014 or a custom formula \u2014 can be computed by reading only the selected polygon region via COG, with no need to download the full scene. On the agricultural side, the plugin provides generation of planting or harvesting lines with curve support, azimuth and regularity metric analysis of existing lines, headland creation, and export of management plans to eight brands of agricultural monitors, including ISO-XML format for John Deere. For drone operations, it includes a mission planner with automatic GSD and overlap calculation, battery count and flight time estimation with real drone model presets, export to Litchi, Mission Planner and KMZ, orthomosaic generation via GDAL, and DEM and DTM creation from elevation tiles or LAS/LAZ point clouds. The plugin also centralizes access to Brazilian public geographic databases from agencies such as FUNAI, ANA, ICMBio, IBAMA, INCRA and ANEEL through an integrated WMS/WFS catalog, and supports downloading PRODES deforestation data and digital elevation models from sources including SRTM, Copernicus and AW3D. For daily productivity, it offers one-click style and print layout application, automatic layer visibility cycling by group, area calculation in hectares with regional projection, GPS point CSV import and export, point-to-polygon conversion via Concave Hull, a polygon reviewer with automatic navigation, Google Earth Pro integration and export to ArcGIS-compatible File Geodatabase. Rounding out the toolset are four Google Earth Engine applications accessible directly from the menu, designed for temporal analysis, vegetation time series, climate data and deforestation monitoring.", "homepage": "https://rithon.com.br/", "repository": "https://github.com/RithonBR/rth-project", "tracker": "https://github.com/RithonBR/rth-project/issues", "author": "Luciano \"Rithon\" Junior", "tags": ["python", "raster", "web", "landsat", "capture", "dem", "coordinate", "sentinel", "satellite", "imagery", "latitude", "longitude", "vrt", "cbers", "stac", "amazonia"], "downloads": 1879, "latest_version": "1.2.7", "versions": [{"version": "1.2.7", "experimental": false, "qgis_min": "3.40.7", "qgis_max": "4.99.0", "downloads": 505, "uploaded_by": "rithon", "upload_datetime": "2026-06-03T18:58:04.567010"}, {"version": "1.2.6", "experimental": false, "qgis_min": "3.40.7", "qgis_max": "4.99.0", "downloads": 464, "uploaded_by": "rithon", "upload_datetime": "2026-05-10T11:13:26.248898"}, {"version": "1.2.5", "experimental": false, "qgis_min": "3.40.7", "qgis_max": "4.99.0", "downloads": 64, "uploaded_by": "rithon", "upload_datetime": "2026-05-09T13:26:18.714132"}, {"version": "1.2.3", "experimental": false, "qgis_min": "3.40.7", "qgis_max": "4.99.0", "downloads": 90, "uploaded_by": "rithon", "upload_datetime": "2026-05-07T09:51:14.007407"}, {"version": "1.2.2", "experimental": false, "qgis_min": "3.40.7", "qgis_max": "4.99.0", "downloads": 119, "uploaded_by": "rithon", "upload_datetime": "2026-05-04T22:18:34.309569"}, {"version": "1.1.7", "experimental": false, "qgis_min": "3.40.7", "qgis_max": "4.99.0", "downloads": 171, "uploaded_by": "rithon", "upload_datetime": "2026-04-26T23:03:36.793673"}, {"version": "1.1.6", "experimental": false, "qgis_min": "3.40.7", "qgis_max": "4.99.0", "downloads": 33, "uploaded_by": "rithon", "upload_datetime": "2026-04-26T18:45:14.029732"}, {"version": "1.1.5", "experimental": false, "qgis_min": "3.40.7", "qgis_max": "4.99.0", "downloads": 229, "uploaded_by": "rithon", "upload_datetime": "2026-04-14T17:56:00.205740"}, {"version": "1.1.4", "experimental": false, "qgis_min": "3.40.7", "qgis_max": "4.99.0", "downloads": 204, "uploaded_by": "rithon", "upload_datetime": "2026-03-28T14:43:16.136774"}]}