Gis到底可以应用在哪些方面?
QGIS
- OpenLog – Open Source drillhole data visualization in QGIS OpenLog-QGIS中的开源钻孔数据可视化
- PgMetadata – A QGIS plugin to store the metadata of PostgreSQL layers inside the database, and use them inside QGIS PgMetadata – 一个 QGIS 插件,用于将 PostgreSQL 层的元数据存储在数据库中,并在 QGIS 中使用它们
- QGIS MapTiler plugin v3- vector basemaps & global DEM for 3D terrain QGIS MapTiler plugin v3-vector basemaps & global DEM for 3D terrain
- QGIS and Community: The QGIS Open Day QGIS 和社区:QGIS 开放日
- QGIS Data Versioning with Kart 使用 Kart 进行 QGIS 数据版本控制
- State of OSM in QGIS QGIS 中 OSM的项目现状
- Elevation data support in QGIS: 3D, profiles, point clouds and more! QGIS 中的高程数据支持:3D、剖面、点云等等
- State of Bridge for QGIS QGIS 插件 Brige 的插件现状
- MDAL: mesh data in QGIS MDAL:QGIS中的网格数据
- Liberate your QGIS projects out of office with Mergin Maps 使用 Mergin Maps 将您的 QGIS 项目从办公室中解放出来
- Better productivity for QGIS plugin developers 提高 QGIS 插件开发人员的生产力
- 20 Years of QGIS [community] QGIS 20 年[社区]
- QGIS Feature Frenzy – What’s New in the Last Year? QGIS Feature Frenzy – 去年有什么新功能?
- Easily publish your QGIS projects on the web with QWC2 使用 QWC2 轻松在网络上发布您的 QGIS 项目
- G3W-SUITE: an OS framework dedicated to the publication and management of QGIS projects as WebGis services G3W-SUITE:一个OS框架,致力于将QGIS项目作为WebGis服务发布和管理
WebGIS 前端
- MapLibre GL 2.x – JavaScript maps with React, Vue.js, Svelte or Angular MapLibre GL 2.x 前端技术栈
- OpenLayers Feature Frenzy Openlayer 特性 现状
- State of GeoBlaze: A Blazing Faster Raster Analysis Engine in Pure JavaScript GeoBlaze 的现状:纯 JavaScript 中速度极快的栅格分析引擎
- geotiff.js – efficient GeoTIFF exploration in the browser and server geotiff.js – 浏览器和服务器中的高效 GeoTIFF 探索
- MapComponents, a new component framework for developing web map applications MapComponents,一个用于开发web地图应用的新组件框架
- State of TerriaJS TerriaJS 现状
- Gleo: Reinventing WebGL maps Gleo:重新定义WebGL 地图
- OpenSource to the rescue: the future of MapLibre 开源来拯救:MapLibre 的未来Vision and Challenge of Re:Earth – an open source WebGIS platform using Cesium Re:Earth 的愿景和挑战—一个使用 Cesium 的开源 WebGIS 平台
- Speeding up the RapiD map editor with WebGL and PixiJS 使用 WebGL 和 PixiJS 加速 RapiD 地图编辑器
- Web mapping at any scale: Bite-size, full-stack cartography with Protomaps open source tools 任何规模的 Web 制图:使用 Protomaps 开源工具的一口大小的全栈制图
- Cloud-Native Geospatial with JavaScript 使用 JavaScript 地理空间云原生
数据处理
- Geostack: a high performance geospatial processing, modelling and analysis frameworkGeostack: 高性能地理空间处理、建模和分析框架
- State of GeoPandas and friends GeoPandas 已经相关生态现状
- LERC, an innovative compression algorithm for raster data LERC,一种创新的栅格数据压缩算法
- rassta: Raster-based Spatial Stratification Algorithms rassta:基于栅格的空间分层算法
- Building a Geocoder on top of PostGIS – a Field Report 在 PostGIS 之上构建地理编码器
- State of Pghydro Project: PostgreSQL-PostGIS extension for Hydrographic Applications Pghydro 项目的现状:用于水文应用的 PostgreSQL-PostGIS 扩展
- What is new in Giswater 3.5 Giswater 3.5 的新功能
- pygeofilter: geospatial filtering made easy pygeofilter:地理空间过滤变得容易
- Geospatial and Apache Arrow: accelerating geospatial data exchange and compute Geospatial 和 Apache Arrow:加速地理空间数据交换和计算
- What’s new in geospatial Elasticsearch 地理空间 Elasticsearch 的新功能
- Agile Geo-Analytics: Stream processing of raster- and vector data with dask-geomodeling 敏捷地理分析:使用 dask-geomodeling 对栅格和矢量数据进行流处理
- State of MovingPandas: analyze all those tracks (not just GPS) MovingPandas 现状: 轨迹分析 (不仅仅是全球定位系统)
- Orfeo ToolBox: open source processing of remote sensing images Orfeo ToolBox:遥感影像开源处理工具
- Are you lost? Get pgRouting to find your way 你迷路了吗?获取 pgRouting 以找到自己的方式
- Location-based scheduling of VRP tasks using pg_scheduleserv 使用 pg_scheduleserv 对VRP任务进行基于位置的调度
- EODAG (Earth Observation Data Access Gateway) 地球观测数据接入网
- yeoda – providing low-level and easy-to-use access to manifold earth observation datasets yeoda – 提供简单易用的方式访问地球观测数据集
- Effortless Aerial Data Management and Sharing: The DroneDB Ecosystem 轻松的航空数据管理和共享:DroneDB 生态系统
- Kart: an introduction to practical data versioning for rasters, vectors, tables, and point clouds Kart: 栅格、矢量、表格和点云的实用数据版本介绍
- A Graph-Based Road Conflation Method Preserving Connectivity 保持连通性的基于图的道路合并方法
- Geo Engine: Exploratory data analysis with spatio-temporal workflow processing Geo Engine:探索性数据分析与时空工作流处理
服务
- SkinnyWMS Meteorological Web Map Service SkinnyWMS气象网络地图服务
- Serving earth observation data with GeoServer: COG, STAC, OpenSearch and more… geoserver 提供地图观测数据服务
- State of GeoServer GeoServer 的现状
- Mastering Security with GeoServer and GeoFence利用地理服务器和地理围栏掌握安全性
- Publishing INSPIRE datasets in GeoServer made easy with Smart Data Loader and Features Templating 使用 Smart Data Loader 和 Features Templating 在 GeoServer 中发布 INSPIRE 数据集变得容易
- Demystifing OGC APIs with GeoServer: introduction and status of implementation 用GeoServer揭开OGC API的神秘面纱:介绍和实施现状
- GeoServer-cloud: Cloud Native GeoServer in production environments GeoServer-cloud:生产环境中的Cloud Native GeoServer
- State of GeoWebCache GeoWebCache 现状
- State of Oskari (for end-users) Oskari 现状(针对最终用户)
- State of Oskari (for developers) Oskari 现状(针对开发人员)
- The State of Cloud-Native Geospatial 云原生地理空间现状
瓦片
- TiTiler: Not just a tile server TiTiler:不仅仅是一个瓦片服务器
- GeoMapFish status: vector tiles! GeoMapFish 现状:矢量瓦片!
- 3D Tiles Next 下一代3D 瓦片
- OSM planet data to vector tiles in a few hours: OpenMapTiles & Planetiler 几个小时内将 OSM 行星数据转换为矢量瓦片:OpenMapTiles & Planetiler
- Using COMTiles to reduce the hosting costs of large map tilesets in the cloud 使用COMTiles降低云中大型地图瓦片集的托管成本
- Creating vector tiles with osm2pgsql 使用 osm2pgsql 创建矢量图块
- OpenMapTiles 3.14 – vector tiles from OpenStreetMap & Natural Earth Data OpenMapTiles 3.14 – 来自 OpenStreetMap 和自然地球数据的矢量图块
工具
- State of GDAL GDAL 现状
- pycsw project status 2022 pycsw 项目现状 2022
- State of GRASS GIS GRASS GIS 项目现状
- pyotb: a pythonic extension of Orfeo ToolBox pyotb:Orfeo ToolBox 的 Python 扩展
- Introducing Wayfarer – a Python Routing Library 介绍 Wayfarer – Python 导航库
- State of PDAL PDAL 现状
- STAC Best Practices and ToolsSTAC最佳实践和工具
- State of GeoNode GeoNode 现状
- State of GeoNetwork GeoNetwork 现状
- pygeoapi project status 2022 pygeoapi 项目现状 2022
- OTB integration in operational processing chains OTB在业务处理链中的集成
- Status of OTBTF, the Orfeo ToolBox extension for deep learning OTBTF 的现状,Orfeo ToolBox 的深度学习扩展
质量安全
- GeoHealthCheck – QoS Monitor for Geospatial Web Services GeoHealthCheck – 地理空间 Web 服务质量监控
- GeoNetwork and a11y: Introducing accessibility in OSGeo applications GeoNetwork 和 a11y:在 OSGeo 应用程序中引入可访问性
- Take-Home Messages from Adding Code Quality Measures to GRASS GIS 将代码质量度量添加到 GRASS GIS 的重要信息
应用平台
- Realtime multi-user mapping with MUDraw 使用 MUDraw 进行多用户实时制图
- From a national map publication platform to infinity. And beyond, of course. 地图发布平台
- Public Transportation GTFS Editor 公共交通 GTFS 编辑
- State of MapServer 2022 MapServer 2022 现状
- MapServer – Make beautiful maps MapServer – 制作精美的地图
- Aerial Images to Maps: Technological Advancements with OpenDroneMap 航空图像到地图:OpenDroneMap 的技术进步
- MapStore, a year in review MapStore,一年回顾
- The GeoStyler Project – Status Report GeoStyler 项目 – 现状报告
- OpenAerialMap V2 Design and Development OpenAerialMap V2设计与开发
- MapStore and geOrchestra, a match made in heaven MapStore 和 geOrchestra,天作之合
- State of Lizmap – Past / Present / Futur Lizmap 的现状- 过去/现在/未来
其他
- State of deegree: What’s new in 2022 deegree 现状
- OSGeoLive project report OSGeoLive项目报告
- SMASH, state of the art of the digital field mapping project. SMASH,最先进的数字场测绘项目。
- News from actinia – let’s STAC! 来自actinia的消息-让我们STAC!
- From CAD to GIS: where are we? 从 CAD 到 GIS:我们在哪里?
- Seamless fieldwork thanks to QFieldCloud 借助 QFieldCloud 实现无缝实地工作
- Just Enough GIS: Plugging Lightweight Mobile GIS into an Offline Field Data Collection Platform 足够的 GIS:将轻量级移动 GIS 插入离线现场数据收集平台
- The Open Source GIS Stack (OSGS) 开源 GIS 技术栈(OSGS)
- ogc-client: OGC protocols made fun! OGC 协议很有趣!
- GeoPrism Registry – Using Spatial Knowledge Graphs for Managing and Integrating Geographic Data Over Time Across Multiple Information Systems 使用空间知识图在多个信息系统中随时间推移管理和集成地理数据
- IOTA2: large scale land cover mapping operational chain IOTA2:大规模土地覆盖测绘运营链
- Redesigning GRASS GIS graphical user interface in a community-driven way 以社区驱动的方式重新设计 GRASS GIS 图形用户界面
- ZOO-Project: News about the Open WPS Platform ZOO-Project:关于开放 WPS 平台的新闻
- Surveying amenities for OSM at scale 大规模测量 OSM 的便利设施
- GC2/Vidi: What’s new in spatial data infrastructure project GC2/Vidi:空间数据基础设施项目的新功能
- OGC API Standards: Past, Present, and Towards an Exciting Future OGC API 标准:过去、现在和迈向激动人心的未来
- New OS: @vcmap/core 新操作系统:@vcmap/core
- The Freshwater Biodiversity Information System (FBIS) – mobilising data for monitoring freshwater ecosystems 淡水生物多样性信息系统(FBIS)——调动数据监测淡水生态系统
- MapFish Print, the classic printing component, a project update MapFish Print,经典打印组件,项目更新
- ETF testing framework: past, present and future ETF测试框架:过去、现在和未来
- Re3gistry: Your interoperable open source tool for managing and sharing reference codes Re3gistry:用于管理和共享参考代码的可互操作开源工具
- Overview on the Free & Open Source Software for geospatial in Togo (West Africa) 多哥(西非)地理空间免费开源软件概述
- Open Tech Collective: sharing HOT’s journey Open Tech Collective:分享HOT的旅程
- Community sprint 社区冲刺
Use cases & applications 用户案例和应用
QGIS
- Streamlining QGIS workflows with PostgreSQL editable views and triggers 使用 PostgreSQL 可编辑视图和触发器简化 QGIS 工作流程
- Geoinformation Production Management System – A QGIS based open-source solution to nationwide geospatial data production management 地理信息生产管理系统——基于QGIS的全国地理空间数据生产管理开源解决方案
- Introduction to STAC API plugin in QGIS QGIS中STAC API插件介绍
- Analysing access to UK public rights of way with the QGIS Graphical Modeler 使用 QGIS 图形建模器分析对英国公共通行权的访问
- Municipal surveys with QGIS & Input 使用 QGIS & Input 进行市政调查
- Political Reapportionment: Drawing Boundaries with QGIS 政治重新分配:使用 QGIS 绘制边界
- QGIS Server into the wild QGIS Server 进入野外
- Designing dynamic forms in QGIS Desktop with expressions 在QGIS Desktop中用表达式设计动态表格
- QGIS Temporal Controller with WMS-T layers 带有 WMS-T 层的 QGIS 时间控制器
- A Python tool for QGIS for gender recognition in street directories 用于 QGIS 的 Python 工具,用于街道目录中的性别识别
- Dataviz in QGIS and on the web QGIS 和网络上的 Dataviz
- The GreenUr project: creating an application in QGIS to manage the impacts of urban green spaces on human health GreenUr 项目:在 QGIS 中创建应用程序来管理城市绿地对人类健康的影响
- QGIS & PostGIS : Tips & Tricks QGIS 和 PostGIS:提示和技巧
- Maintaining a national Aerial Image Registry with QGIS 使用 QGIS 维护国家航空影像登记处
- Building Footprint Extraction in Vector Format Using pytorch_segmentation_models_trainer, QGIS Plugin DeepLearningTools and The Brazilian Army Geographic Service Building Dataset 使用 pytorch_segmentation_models_trainer、QGIS 插件 DeepLearningTools 和巴西陆军地理服务建筑数据集以矢量格式构建足迹提取
- Advanced QGIS forms into the web with Lizmap 使用 Lizmap 将高级 QGIS 表单导入网络
- Free and Open source GIS architecture for low cost inventory mapping of urban water supply network 用于城市供水管网低成本库制图库免费和开源 GIS 架构
- Impact of Rainfall variability on Vegetation Phenology cycle in Niger Delta Region Using QGIS Graphical Modeler 降雨变化对尼日尔三角洲地区植被物候循环的影响使用 QGIS 图形建模器
服务
- Connecting tribes: how we connected the GRASS GIS database natively to GeoServer 连接部落:我们如何将 GRASS GIS 数据库本地连接到 GeoServer
- Creating Maps in GeoServer using CSS and SLD 在 GeoServer 中使用 CSS 和 SLD 创建地图
- serverless Geospatial 无服务器地理空间
- Stable Open Source Software in production; the case of MapProxy 稳定的开源软件在生产中; MapProxy的案例
- UN Vector Tile Toolkit development and its application UN Vector Tile Toolkit开发及其应用
- Scaling Geoserver To Serve Terabytes of EO Data 扩展 Geoserver 以服务于 Terab
- Implementing OGC APIs using Elasticsearch and pygeoapi 使用 Elasticsearch 和 pygeoapi 实现 OGC API
- Styling Natural Earth with GeoServer and GeoCSS 使用 GeoServer 和 GeoCSS 设计自然地球
- Supporting precision farming with GeoServer: past experiences and way forward GeoServer支持精准农业:过去的经验和前进的方向
- pgRouting optimization: from technical to functional pgRouting优化:从技术到功能
- GeoServer Feature Frenzy GeoServer 功能狂潮
- Contributing to Geospatial Cloud Native Solutions 为地理空间云原生解决方案做出贡献
- Deploying and operating GeoServer: a DevOps perspective 部署和操作GeoServer:DevOps 视角
- SensorThings API in practice: the AIR-BREAK project in Ferrara SensorThings API 实践:费拉拉的 AIR-BREAK 项目
- Building a scalable tiling service using Amazon API Gateway 使用 Amazon API Gateway 构建可扩展的切片
- Creating GIS Rest APIS using Geodjango under 30 minutes 在 30 分钟内使用 Geodjango 创建 GIS Rest APIS
数据
- Professional field data management with QField 使用 QField 进行专业的现场数据管理
- Using QField to manage traffic sign inventory 使用QField管理交通标志库存
- Aggregating risk with H3 and PostGIS 使用 H3 和 PostGIS 聚合风险
- Postgis Topology to secure data integrity, simple API and clean up messy simple feature datasets. Postgis Topology 确保数据完整性、简单的 API 和清理凌乱的简单特征数据集。
- Geospatial Indexing with Apache Lucene and OpenSearch 使用 Apache Lucene 和 OpenSearch 进行地理空间索引
- DistrictBuilder, or how TopoJSON was the cause of and solution to all of our problems DistrictBuilder,或者 TopoJSON 如何成为我们所有问题的原因和解决方案
- Geo-Infographics created dynamically from PostGIS using ST_AsSVG 使用 ST_AsSVG 从 PostGIS 动态创建的地理信息图表
- A new SQL library to enable spatial analytics in Spark 在 Spark 中启用空间分析的新 SQL 库
- Spatio-temporal Database – Creating a high availability easily scalable Spatio-temporal database cluster with Postgres, PostGIS, and timescaleDB! Spatio-temporal Database – 使用 Postgres、PostGIS 和 timescaleDB 创建一个高可用性、易于扩展的时空数据库集群!
- Data integrity risks when using simple feature 使用简单特征时的数据完整性风险
- Spatial data processing with workflow engines 使用工作流引擎处理空间数据
- Manipulating text with PostgreSQL – lesser known PG jewels 使用 PostgreSQL 处理文本 – 鲜为人知的 PG 珠宝
- How to deal with a massive geographic database when surrounded by datascientists ? 海量地理数据库被数据科学家包围时如何处理?
前端&可视化
- An introduction to deck.gl for data visualization 数据可视化的deck.gl介绍
- Fast rendering from vector tiles in deck.gl 从deck.gl中的矢量瓦片快速渲染
- geojson-vt for Highly Efficient Geojson Rendering in Open Layers geojson-vt 用于在开放层中进行高效的 Geojson 渲染
- As a scientist, how to dive into JavaScript for data visualization? An example with a particle stream to illustrate the movement of glaciers. 作为一名科学家,如何深入研究 JavaScript 进行数据可视化?一个用粒子流来说明冰川运动的例子。
- Visualizing climate risks for disaster reduction and climate resilience programs – Interactive open-source tools for analysts and decision makers to utilize Earth observation data 可视化减灾和气候复原计划的气候风险——分析人员和决策者利用地球观测数据的交互式开源工具
- Development of Environmental Impact Assessments(EIA) Data Visualization System using FOSS4G – Phase I 使用 FOSS4G 开发环境影响评估(EIA)数据可视化系统 – 第一阶段
- Baremaps studio: dynamic vector tiles map rendering Baremaps studio:动态矢量瓦片地图渲染
- Enrich styles and enhance styling process with OpenMapTiles 使用 OpenMapTiles 丰富样式和增强样式处理
- EVRYMAP – An extensible web mapping framework based on Angular, NodeJS, Leaflet and Mapserver. EVRYMAP – 基于 Angular、NodeJS、Leaflet 和 Mapserver 的可扩展 Web 地图框架。
- State of GeoRasterLayer: A LeafletJS Plugin for Visualizing GeoTIFFs (and soon other rasters) GeoRasterLayer 的现状:用于可视化 GeoTIFF(以及其他栅格)的 LeafletJS 插件
- WebAssembly4G: Where we are, and where we’re heading WebAssembly4G:我们在哪里,我们要去哪里
- Write once, run anywhere: safe and reusable analytic modules for WebAssembly, Javascript, or more! 一次编写,随处运行:用于 WebAssembly、Javascript 等的安全且可重用的分析模块!
- Vector tiles cartography tips and tricks 矢量瓦片制图技巧和窍门
- Mapping Historical “Street View” Images of New York City: Visualizing Geotagged Archival Photos 绘制纽约市的历史“街景”图像:可视化带有地理标记的档案照片
产品
- Developing with MapStore; creating a custom dashboard to map crime data 使用MapStore进行开发; 创建自定义仪表板、犯罪数据制图
- Serving oblique aerial imagery using STAC and Cloud Optimized Geotiffs 使用 STAC 和 Cloud Optimized Geotiffs 提供倾斜航空影像
- Carto-OSC: Real Time Cartography in Performance Carto-OSC:性能中的实时制图
- The Carto 2 Project Carto 2 项目
- Maps in Motion: Introduction to the STAC Video Extension Maps in Motion:STAC 视频扩展简介
- Exploring Data Interoperability with STAC and the Microsoft Planetary Computer 探索与 STAC 和 Microsoft 行星计算机的数据互操作性
- Building Germany’s drone corridors with hale»studio 用 hale»studio 打造德国的无人机走廊
- EOEPCA – An Open Source Exploitation Platform EOEPCA – 一个开源开发平台
- Maplandscape – an open-source geospatial workflow for agricultural landscape monitoring Maplandscape – 用于农业景观监测的开源地理空间工作流程
- Matico a new federated FOSS platform for spatial analysis, data management, visualization, and app building Matico 一个新的联合 FOSS 平台,用于空间分析、数据管理、可视化和应用程序构建
工具
- Building a data analytics library in Python 用 Python 构建数据分析库
- TOSCA – A Novel GIS-Toolkit in Support of Sustainable Urban Development TOSCA——支持可持续城市发展的新型 GIS 工具包
- FOSS4G and Open Data to the rescue: a European story! FOSS4G 和开放数据救援:欧洲故事!
- Helping to Land a Mars Rover using FOSS4G Tools 使用 FOSS4G 工具帮助登陆火星车
- FunctionalScope – Interactive real-time simulation tool for neighborhood planning FunctionalScope – 用于社区规划的交互式实时模拟工具
其他
- Early use of FOSS4G in a space start up 早期使用FOSS4G在一个空间启动
- Human-in-the-loop Machine Learning with Realtime Model Predictions using GroundWork and Raster Vision 使用 GroundWork 和 Raster Vision 进行实时模型预测的人在环机器学习
- Generation of 3D geometries with Artificial Intelligence for the prediction of volumetry of the Urban Code of the City of Buenos Aires 使用人工智能生成 3D 几何图形,用于预测布宜诺斯艾利斯市城市代码的体积
- Composing Software: Spatial for the JAMstack generation 编写软件:JAMstack 生成的空间
- Cleaning and processing global resource data for game development 为游戏开发清理和处理全局资源数据
- The challenges and benefits of implementing OS geo within a large contracting company 在大型承包公司内实施 OS geo 的挑战和好处
- From the field to the desk – end to end mobile data capture in an enterprise environment. 从现场到桌面——企业环境中的端到端移动数据采集。
- Is it wrong to make money with FOSS4G technology?
- 10 years in Georepublic and OSGeo 在 Georepublic 和 OSGeo 工作 10 年
- United Nations Mission in South Sudan GeoStories 联合国南苏丹特派团 GeoStories
- LOOSE: Combining loosely coupled components into coherent architecture LOOSE:将松散耦合的组件组合成连贯的架构
- The benefits of COG (Cloud Optimized GeoTIFF) outside the cloud COG (云优化GeoTIFF) 在云外的优势
- The Masterportal project – Highly customizeable feature-rich WebGIS Masterportal 项目——高度可定制、功能丰富的 WebGIS
- Update on Modular OGC API Workflows specifications 模块化 OGC API 工作流规范更新
- Introducing WIS 2.0 in a box: an open source and open standards platform for international weather, climate and water data discovery, access, and visualization 在盒子中介绍 WIS 2.0:用于国际天气、气候和水数据发现、访问和可视化的开源和开放标准平台
- Mapserver layer handling, production, and management in larger scale environment 更大规模环境中的Mapserver层处理、生产和管理
- Developing a pilot method to measure biodiversity related financial risk at financial portfolio level using Earth Observation and other spatially explicit data 开发一种利用地球观测和其他空间显性数据在金融投资组合层面衡量生物多样性相关金融风险的试点方法
- A crawler for spatial (meta)data as a base for Mapserver configuration 空间(元)数据的爬虫,作为 Mapserver 配置的基础
- Sharing EO data with farmers and herders in the West African Sahel: Lessons from the GARBAL program 与西非萨赫勒地区的农牧民共享 EO 数据:GARBAL 计划的经验教训
- Calculating school catchment areas – an open source solution 计算学区 – 一个开源解决方案
- Tips for parallelization in GRASS GIS in the context of land change modeling 土地变化建模背景下 GRASS GIS 中的并行化技巧
- Use of FOSS4G at Gojek to automate map error detection at scale 在 Gojek 使用 FOSS4G 自动进行大规模地图错误检测
- Web Mapping with Global Map Projections 具有全球地图投影的网络地图
- Kaoto: Integrate your Architecture without coding Kaoto:无需编码即可集成您的架构
- Liven up your webmaps with custom microanimations 使用自定义微动画让您的网络地图更加生动
- Joint ESA-NASA Multi-Mission Algorithm and Analysis Platform (MAAP) 联合 ESA-NASA 多任务算法和分析平台(MAAP)
- Scaling down web maps for the final user 为最终用户缩小网络地图
- Lidar classification, accuracy and change detection using the Norwegian open lidar data archive. 使用挪威开放式激光雷达数据档案的激光雷达分类、准确性和变化检测。
- Automating Generating a Web Map from Online Tabular Data: UC Davis Potential Worksite Exposure Interactive Web Map 自动从在线表格数据生成 Web 地图:加州大学戴维斯分校潜在工地曝光交互式 Web 地图
- Not too big, not too small: open source geospatial units that are just right 不太大也不太小:开源地理空间单元恰到好处
- Overcome Challenges Linked to Multi-dimensional Data Analysis by Using ARLAS 使用 ARLAS 克服与多维数据分析相关的挑战
- Power Grid Mapping In West Africa (Sierra Leone) 西非(塞拉利昂)电网测绘
- Development of a disaster information collection system using smartphones and cloud computing 开发利用智能手机和云计算的灾害信息收集系统
- Building a common building’s(!) open dataset using FOSS4G, open data and open governement. 使用 FOSS4G、开放数据和开放政府构建公共建筑的开放数据集。
- Rural water supply mapping by using FOSS4G application in Rwanda 卢旺达使用 FOSS4G 应用的农村供水测绘
- If a tree falls in the forest, does the river notice?: Creating and Visualizing Equivalent Clearcut Area using Satellite Imagery, Python and Crossfilters 如果一棵树倒在森林里,河流会注意到吗?:使用卫星图像、Python 和交叉过滤器创建和可视化等效的清除区域
- swissgeol.ch – Geology in 3D: new features swissgeol.ch – 3D 地质学:新功能
- Use of remote sensing and GIS processing for mapping Chestnut stands decline in Piemonte Region 使用遥感和 GIS 处理制图皮埃蒙特地区板栗林分下降
- How to Mapillary – Getting started with Street-level Mapping 如何绘制地图 – 街道地图绘制入门
- The Potent Mix of Computer Vision, Graph Theory, Satellite Imagery, Vehicles, and Roads 计算机视觉、图论、卫星图像、车辆和道路的有效组合
- A tool for mapping fire burn severity and extent in watersheds for flood risk assessment 绘制流域火灾烧伤严重程度和范围以进行洪水风险评估的工具
- Hardening a GeoNode Project – Some considerations about container security and optimization 强化 GeoNode 项目——关于容器安全和优化的一些考虑
- Building the Bloomberg for Climate Data with FOSS 使用 FOSS 构建彭博气候数据
- Micronutrient Action Policy Support (MAPS) – A decision support tool for investigating the scale and geographic distribution of micronutrient availability in sub-Saharan Africa 微量营养素行动政策支持 (MAPS) – 用于调查撒哈拉以南非洲微量营养素可用性规模和地理分布的决策支持工具
- Where Is Everyone?: The Global Impact of COVID on Road Traffic 每个人都在哪里?:COVID 对道路交通的全球影响
- ARCOS Platform for Monitoring of Arctic Region ARCOS北极地区监测平台
- Norwegian National SensorHub – sharing IoT data with open standards and technology 挪威国家
- We are Open! OGC and OSGeo Collaboration 我们开张了! OGC 和 OSGeo 合作
- YouTube as Remote Sensing YouTube 作为遥感
- Implementation of the Chinese Postman Problem in the Valhalla Routing Engine Valhalla路由引擎中中文邮递员问题的实现
- From photographic survey to street-level imagery integration in an OpenSource webgis: complete workflow 从摄影调查到开源 webgis 中的街道级图像集成:完整的工作流程
- Processing and publishing big data with GeoServer and Azure in the cloud 在云端使用GeoServer和Azure处理和发布大数据
- Developing a topographic data production system based on open source 开发基于开源的地形数据生产系统
- How much “15-minutes” is your city? Using open data to measure walking proximity 你的城市有多少“15分钟”?使用开放数据测量步行距离
- A high performing data retrieval system for large and frequently updated geospatial datasets 用于大型且频繁更新的地理空间数据集的高性能数据检索系统
- Buses moving on the map – use case of building web mapping portal 在地图上行驶的巴士——构建网络地图门户的用例
- Open Source geospatial applications for energy and environment integration 用于能源和环境集成的开源地理空间应用
- UN Open GIS Initiative: Geopaparazzi Survey Server and SMASH for Mobile Data Collection in a UN Peacekeeping Mission (MONUSCO) 联合国开放 GIS 倡议:Geopaparazzi 调查服务器和 SMASH 用于联合国维持和平特派团(MONUSCO)的移动数据收集
- Defining Geographic Tracts for Argentine Population Census 为阿根廷人口普查定义地理区域
- Using Terraform to manage HOTOSM’s infrastructure as code 使用Terraform来管理HOTOSM的基础设施即代码
- The best practices of Open Source GIS base applications on Türkiye General Directorate of Hihgways 开源 GIS 基础应用的最佳实践在 Türkiye General Directorate of Hihgways
- The Africa Knowledge Platform 非洲知识平台
- spatialEpisim: an open-source R Shiny app for tracking COVID-19 in low- and middle-income (LMIC) countries spatialEpisim:用于在低收入和中等收入 (LMIC) 国家跟踪 COVID-19 的开源 R Shiny 应用程序
Open Data 开放数据
- HOTOSM Mapathon – Humanitarian Mapping with OpenStreetmap HOTOSM Mapathon – 使用 OpenStreetmap 进行人道主义地图绘制
- Youth Mappers documentary’s premiere Youth Mappers纪录片首映
- Map Kibera Mapping Counties on OpenStreetMap 在 OpenStreetMap 上绘制 Kibera 地图县
- Cloud Native Geospatial: Lessons Learnt Building Digital Earth Africa 云原生地理空间:建立非洲数字地球的经验教训
- Crowdsourcing the Future of Government Data: OpenStreetMap in the Public Domain 众包政府数据的未来:公共领域的 OpenStreetMap
- NASA’s Transform to Open Science (TOPS) Initiative NASA 向开放科学 (TOPS) 转型计划
- OpenStreetMap Utopia: Exceptional data quality OpenStreetMap Utopia:卓越的数据质量
- Introduction to Spatial Data Outputs Platform – OpenStreetMap Galaxy 空间数据输出平台介绍 – OpenStreetMap Galaxy
- Geofolio: Making Environmental Data Understandable and Accessible for Everyone Geofolio:让每个人都能理解和访问环境数据
- Open Data in OpenStreetMap’s RapiD Editor 在 OpenStreetMap 的 RapiD 编辑器中打开数据
- Making free climate and weather data more usable – status, ideas and products resulting from the research project “FAIR” 使免费的气候和天气数据更有用——研究项目“FAIR”的现状、想法和产品
- The most accurate cameras to generate map data from street-level imagery 从街道图像生成地图数据的最准确的相机
- Analysis Ready (Meta)Data 分析就绪(元)数据
- Mapping impacts of Covid-19 in Nairobi 绘制 Covid-19 在内罗毕的影响
- Datahub: the confluence of open data and geo data Datahub:开放数据和地理数据的融合
- Use of open source tools to estimate global GHG emissions. 使用开源工具估算全球温室气体排放量。
- Pangeo Forge: Crowdsourcing Open Data in the Cloud Pangeo Forge:云中的众包开放数据
- UN Maps: OpenStreetMap supporting Peace and serving Humanity 联合国地图:支持和平和服务人类的 OpenStreetMap
- Exploring the World’s Open Data Portals – Discovery, Visualisation and Analysis of Open Data with TerriaJS 探索世界的开放数据门户 – 使用 TerriaJS 发现、可视化和分析开放数据
- Developing an UI for historical orthophotos timeseries data 为历史正射影像时间序列数据开发 UI
- European (Inspire) Data Tour 欧洲(启发)数据之旅
- Curated Major Map Features Library 策划的主要地图特征库
- Trash Study Research 垃圾研究研究
AI4EO Challenges & Opportunities AI4EO 挑战与机遇
- Data Management in Earth Observation – The Potential of Open Digital Twins of the Earth 地球观测中的数据管理——地球开放数字孪生的潜力
- On the road to 3D semantic segmentation 在3D语义分割的路上
- “Earth in Colour” with EarthDaily Analytics EarthDaily Analytics 的“彩色地球”
- HIECTOR: Hierarchical object detector for cost-efficient detection at scale HIECTOR:用于大规模经济高效检测的分层对象检测器
- No-code geoAI 无代码geoAI
- Cloud Optimized Point Cloud: Compressed, Geospatial, Lossless and Compatible Data Organization for Analysis Ready Point Cloud Data 云优化点云:压缩、地理空间、无损和兼容的数据组织,用于分析就绪点云数据
- Open Source Point Cloud Semantic Segmentation Using AI/ML 使用 AI/ML 的开源点云语义分割
- KartAi – An open living lab for Ai in Norway KartAi——挪威人工智能的开放式生活实验室
Transition to FOSS4G 过渡到 FOSS4G
- How to join OSGeo (for projects) 如何加入OSGeo(项目)
- OSGeo community interactions OSGeo 社区互动
- Google Summer of Code with OSGeo 谷歌代码之夏与 OSGeo
- Openness – a Strategic Choice 开放——一种战略选择
- Implementation of INSPIRE in Lithuania: experience with the transition to FOSS4G 在立陶宛实施 INSPIRE:向 FOSS4G 过渡的经验
- Pedological Information System of Piedmont Region in Italy 意大利皮埃蒙特地区的土壤学信息系统
- Geo-commons in France : review of current initiatives 法国的地理公地:回顾当前举措
- Favoring Opensource Technologies for French Fire Brigades 支持法国消防队的开源技术
- The MAPME Initiative: Leveraging the power of open data and FOSS GIS to improve public expenditure in the development aid sector. MAPME 倡议:利用开放数据和 FOSS GIS 的力量来改善发展援助部门的公共支出。
- Development of plugins in QGIS for the management of the Multipurpose Cadastre in the Government of Mexico City 开发用于管理墨西哥城政府多用途地籍的 QGIS 插件
- UN Open GIS Initiative 联合国开放 GIS 倡议
- Open Back-End for Vector Tile Based Web Apps 为基于矢量瓦片的 Web 应用程序打开后端
- The Growth of OSM Communities in Tanzania Through Community Microgrants 通过社区小额赠款促进坦桑尼亚 OSM 社区的发展
- The story of OSGeo in Oceania OSGeo 在大洋洲的故事
Education 教育
- YouthMappers: a global youth movement on open mapping for humanitarian and development action YouthMappers:一项关于人道主义和发展行动开放制图的全球青年运动
- How to get a good response on stackexchange 如何在stackexchange上获得好的响应
- A Moodle based complex system to teaching spatial data processing 基于Moodle的复杂系统教学空间数据处理
- Teaching GIS Through Geospatially Aware Agent-Based Modeling 通过地理空间感知代理建模教学 GIS
- SagtaMapDownloader – A guide on how QGIS and QGIS Server is being used to assist teachers and students in learning Geography in the classroom SagtaMapDownloader – 关于如何使用 QGIS 和 QGIS Server 来帮助教师和学生在课堂上学习地理的指南
- GSoC with OSGeo 带有 OSGeo 的 GSoC
- Using GRASS GIS in Jupyter Notebooks: An Introduction to grass.jupyter 在 Jupyter Notebooks 中使用 GRASS GIS:grass.jupyter 简介
- Geospatial data science for planning education systems 用于规划教育系统的地理空间数据科学
- Classroom GIS in South Africa 南非的课堂 GIS
A European approach to geospatial open source 欧洲地理空间开源方法
- Open source at the European Commission 欧盟委员会的开源
- Usage and contribution of FOSS at GISCO FOSS 在 GISCO 的使用和贡献
- A vision for INSPIRE: from a traditional SDI to a self-sustainable data ecosystem INSPIRE 的愿景:从传统的 SDI 到自我可持续的数据生态系统
- Revamped INSPIRE Geoportal – Cooking the next generation of spatial data catalogues 改进 INSPIRE Geoportal – 打造下一代空间数据目录
- FAIR-ization of INSPIRE datasets INSPIRE 数据集的公平化
- MobiDataLab – Labs for prototyping future mobility data sharing solutions MobiDataLab——未来移动数据共享解决方案原型实验室
- Identifying new conservation areas: a web multi-criteria approach using Earth Observation and other spatial information 确定新的保护区:使用地球观测和其他空间信息的网络多标准方法
- openEO: Open Science for Earth Observation Research openEO:地球观测研究的开放科学
- EO Open Science Catalogue initiative by ESA ESA 的 EO 开放科学目录倡议
- The Copernicus Data Store (CopDS) – a reimagining of the Copernicus Climate Change Service (C3S) Climate Data Store (CDS) 哥白尼数据存储 (CopDS) – 重新构想哥白尼气候变化服务 (C3S) 气候数据存储 (CDS)
- Towards open and accessible weather forecast data 走向开放和可访问的天气预报数据
- 10 years of open-source software in emergency management: the case of the European Flood Awareness Service 应急管理开源软件10年:以欧洲洪水意识服务为例
今天的文章Gis到底可以应用在哪些方面?分享到此就结束了,感谢您的阅读。
版权声明:本文内容由互联网用户自发贡献,该文观点仅代表作者本人。本站仅提供信息存储空间服务,不拥有所有权,不承担相关法律责任。如发现本站有涉嫌侵权/违法违规的内容, 请发送邮件至 举报,一经查实,本站将立刻删除。
如需转载请保留出处:https://bianchenghao.cn/8401.html