RWS GIS Automation Platform
System context diagram for RWS GIS Automation Platform which is based on the C2 Platform approach and runs within the RWS domain on the Red Hat Automation Platform (AAP).
System context diagram for RWS GIS Automation Platform which is based on the C2 Platform approach and runs within the RWS domain on the Red Hat Automation Platform (AAP).
The diagram on this page visualizes how LCM and TAM tasks of the GIS platform are performed using Ansible. Two key components are the Ansible Inventory Project hosted by Azure DevOps and the Ansible Execution Environment ( EE ) hosted by GitLab.
This diagram visualizes the Ansible engineering of Ansible content. Use the standard C2 Platform approach this is completely done in the open source domain utilizing local development and a open source “reference implementation” of the GIS Platform.
Overview of the Rijkswaterstaat (RWS) GIS Platform project, focusing on automation and infrastructure management.
Engineering Ansible collections and roles in the RWS Domain/DC is termed as “engineering light” due to its use of a “pseudo” development environment. This setup poses specific challenges such as limited access to resets.
Set up the FME Flow Core, FME Flow Database, and FME Flow System Share on MS Windows using Ansible.
Guide to installing VertiGIS Studio Web and Studio Reporting.
This project provides the Ansible inventory for the GIS (Geographic Information System) Platform reference implementation. The GIS Platform integrates a comprehensive suite of geospatial tools and applications, including all ArcGIS products (such as ArcGIS Pro, ArcGIS Enterprise, and ArcGIS Online), FME for data transformation and integration, and Geoweb (built on Vertigis Studio) for advanced web-based mapping and geospatial workflows. This setup supports organization-wide GIS automation, enabling efficient management, analysis, and visualization of spatial data across various environments.
C2 Ansible GIS collection