Propel Productivity to the Next Level with Raster Analytics

695
0
07-10-2017 02:36 PM
Labels (1)
JeffLiedtke
Esri Contributor
0 0 695

Imagery can add valuable information and context to a wide array of GIS projects. For example, you can detect impervious surfaces for storm water management, map and manage riparian corridors, or track what’s changing in your county. Sometimes, though, incorporating imagery into your GIS can feel overwhelming—how can your system handle that much data?

Enter raster analytics, a distributed processing, storage, and sharing system designed to quickly process large collections of aerial, drone, or satellite imagery, then extract and share meaningful information for critical decision support. Raster analytics can be run locally, but you can also pair it with distributed cloud computing to maximize efficiency. Image processing and analysis jobs that used to take days or weeks can be completed in minutes or hours, bringing imagery projects that were impossibly large or daunting within reach.

Raster analytics leverages ArcGIS Enterprise, expanded with ArcGIS Image Server configured for distributed raster analysis, to integrate the components of the raster analytics system to support scalable, real-world workflows

What can raster analytics do?

By leveraging ArcGIS Enterprise with ArcGIS Image Server, raster analytics enables you to:

  • Quickly process massive imagery or raster datasets in a scalable environment
  • Execute advanced, customized raster analysis
  • Share results with individuals, departments, and organizations within or outside your enterprise

The scalable environment of raster analytics empowers you to perform computationally intensive image processing that would otherwise be out of reach or cost-prohibitive. When implemented on-site, raster analytics uses distributed processing to improve efficiency. You can also maximize efficiency by exploiting cloud platforms such as Amazon Web Services or Microsoft Azure, which allow you to dynamically increase or reduce your capacity based on the size and urgency of your projects.  Either implementation can save you time, money, and resources.

Raster analytics uses all the advanced image processing and analysis capabilities of ArcGIS Pro to maximum advantage. Built-in raster functions cover preprocessing, orthorectification and mosaicking, remote sensing analysis, and an extensive range of math and trigonometry operators, while your custom functions can extend the platform’s analytical capabilities even further.

Raster Analytics System Diagram

Raster analytics is also designed to streamline collaboration and sharing. Users across your enterprise can contribute data, processing models, and expertise to your imagery project, then share results with individuals, departments, and organizations in your enterprise.

Finally, raster analytics integrates your image processing and analysis with the world’s leading GIS platform, and allows users to seamlessly draw on Living Atlas of the World, the world’s largest collection of online digital maps and imagery.

How is raster analytics used today?

The Chesapeake Conservancy, working with the University of Vermont and WorldView Solutions, was tasked by the Chesapeake Bay Program to produce one-meter-resolution land cover maps covering 100,000 square miles of the Chesapeake Bay watershed. These high-resolution land cover maps, which classify natural and man-made landscape features, are crucial for supporting watershed and storm water management, conservation, and for reducing pollution into the bay.

To produce this essential dataset, the Chesapeake Conservancy needed to process over 20 terabytes of raster data and categorize it into twelve land cover types. This project took a daunting 18 months to complete using their local machine resources. As a result, Chesapeake Conservancy is now working with raster analytics in the cloud to make this timeline more efficient and cost-effective going forward.

As a proof of concept, they used raster analytics to produce a persistent one-meter land cover dataset of Kent County, Delaware (798 square miles). The Kent County project—comprised of more than 30GB and 3.8 billion pixels of raster data—ran on a ten-machine cluster, each with twenty cores, and completed in less than 5 minutes. This same job took days to to process on their local machines.

The Chesapeake Conservancy is now engaged in reprocessing the entire Chesapeake watershed to benchmark time and cost savings using raster analytics for the project. Using raster analytics for projects in the future will mean that the Chesapeake Conservancy can accomplish ambitious projects in a timely and cost-effective manner, without having to spend resources to acquire, configure, and maintain a large computing and storage infrastructure.

See the Chesapeake Conservancy and Distributed Image Processing presentation for more details, or check out the Plenary session at the 2017 Esri User Conference in San Diego to hear about Chesapeake Conservancy’s experience processing and sharing the entire Chesapeake watershed using raster analytics

More Information:

To learn more about raster analytics using ArcGIS Enterprise and ArcGIS Image Server, check out this video.

Explore these help topics to get started with raster analytics:

Please plan to attend a couple presentations addressing raster analytics at the 2017 Esri User Conference:

Raster Analytics at Esri UC2017

About the Author
Jeff Liedtke is a PE and Documentation Lead for the Raster Team at Esri. He has a background in remote sensing, with degrees from UC Santa Barbara and Simon Fraser University, B.C., Canada. Jeff has worked for remote sensing software companies, Space Imaging, DigitalGlobe and photogrammetric mapping companies. Applying remote sensing techniques to provide valuable information for operational decision support applications is his passion.