![3d earthquake globe 3d earthquake globe](https://thumbs.dreamstime.com/z/earthquake-indonesia-shot-space-extremely-detailed-d-image-elements-furnished-nasa-illustration-154889673.jpg)
This article focuses on the development of Geoscience Australia's 3D Data Viewer and its use within the agency to share information with external stakeholders. In a 'right tool for the job' approach, different virtual globe applications are used to meet different needs these include NASA's World Wind, Google Earth and ESRI ArcGIS Explorer. Like many other organisations, Geoscience Australia is using virtual globes as an important visualisation tool.
![3d earthquake globe 3d earthquake globe](https://images.sftcdn.net/images/t_app-cover-l,f_auto/p/d77fb49c-9a61-11e6-9a5a-00163ec9f5fa/880290725/earthquake-3d-screenshot.jpg)
the easy incorporation of large datasets associated with the geosciences.interactivity, allowing users to freely explore the data.overlay and visualisation of different datasets simultaneously.three‒dimensional representation of terrain, helping to locate and contextualise data.visualisation of data at a range of scales, from local to global.
3d earthquake globe software#
Since its release in mid‒2005, Google Earth has been downloaded over one billion times (Official Google Blog 2011), and there are now numerous virtual globe software applications available that cater to different audiences and industries.Īs a platform for communicating and visualising geoscience data, virtual globes have a number of key benefits. Virtual globes have increased in popularity since the first online offerings appeared in 2004–05. 104 Presenting geoscience using virtual globesĬommunicating geoscience data in a variety of contexts