UK: MGISS, a UK geospatial specialist, has released a new version of its web app TopoGrafi which allows for the display of 3D data in real-world models. With enhanced 3D data processing capabilities, TopoGrafi is an end to end platform for capturing buried asset data and processing it for visually impactful and interactive Augmented Reality visualizations.ย Specifically aimed at the utility and infrastructure sectors, TopoGrafi is already helping organizations in water and highways sectors enhance asset location data, improve on-site safety and reduce construction and maintenance costs.
The latest version of TopoGrafi will be demonstrated online in a series of webinars starting on the 26th February 2020. Organized by MGISS, with support from partners Esri and augmented reality specialist vGIS, interested partners are invited to register interest at: https://mgiss.co.uk/mgiss-webinar-embracing-the-3d-digital-twin-26th-february-2020/
โTopoGrafi is an easy to use platform that integrates with existing enterprise software, technology and workflows,โ commented Mike Darracott, Managing Director and founder of Liverpool based MGISS. โTopoGrafi provides a single platform that allows data capture applications and Augmented Reality visualizations to use the same 3D coordinate system, also allowing for additional integration with high accuracy base maps and other data layers.โ
Many field-based data collection tools only project in 2D, which is why MGISS developed the unique TopoGrafi solution to display 3D data in real-world models. Designed to be used alongside apps such as Esri Collector for ArcGIS, the TopoGrafi platform uses data from low cost, high accuracy, on-demand positioning services; GNSS (Global Navigation Satellite System).ย TopoGrafi applies near-real-time conversions transforming the recorded positions to local reference systems aligning it with high accuracy mapping including Ordnance Survey MasterMap.
The TopoGrafi toolkit also includes functionality toโ snapโ 3D features; to each other and to other spatially referenced data, in order to create a true 3D model which can then be used to create Augmented Reality visualizations accessible from the desktop or in the field.
