Now customers can connect with multiple satellites at the same time, have nearly continual coverage in mission-critical situations, and lower the cost of getting information from space to Earth
Customers can quickly and easily download, process, store, analyze, and act on satellite data faster through integration with Lockheed Martin Verge and a variety of AWS services
SEATTLE & BETHESDA, Md. — (BUSINESS WIRE) — November 27, 2018 — Today at AWS re:Invent, Amazon Web Services, Inc. (AWS), an Amazon.com company (NASDAQ: AMZN), and Lockheed Martin (NYSE: LMT) announced a strategic collaboration to integrate the new AWS Ground Station service with Lockheed Martin’s new Verge antenna network. AWS and Lockheed Martin are bringing these two highly capable systems together to provide a solution that addresses customer needs for resilient satellite uplinks and downlinks. Through this integration, customers using AWS Ground Station gain the ability to download data from multiple satellites at the same time and to continue downloading data even when unplanned outages like a weather event impact parts of the network. And, Lockheed Martin Verge customers benefit from being able to upload satellite commands and data through AWS Ground Station and to quickly download large amounts of data over the high-speed AWS Ground Station network. Both Lockheed Martin Verge and AWS Ground Station customers can now integrate satellite data with the rich portfolio of AWS services, including compute, storage, analytics, and machine learning. To learn more, please visit www.lockheedmartin.com/Verge and https://aws.amazon.com/ground-station.
Immediate and continuous access to the latest satellite data is critical in use cases such as public safety, military missions in fast-evolving threat environments, and real-time weather observations for cargo ships and airlines. Today, there are thousands of satellites orbiting the earth and collecting data, including Low Earth Orbit (LEO) satellites, which are ideal for collecting data for Earth observation and currently comprise about 63 percent of the active satellites now in orbit, according to United Nations data. Traditionally, government organizations or enterprises who have required access to satellite data needed to build or lease ground antennas to communicate with the satellites at significant cost and effort. Further, customers often require antennas in multiple countries and U.S. locations to download data when and where they need it without waiting for the satellite to pass over a desired location. All of this requires significant capital investments and operational costs to build, manage, and maintain antennas, compute infrastructure, and business logic at each antenna location. By combining Lockheed Martin’s distributed network of satellite receivers with direct AWS Ground Station access, the two companies are delivering a next-generation space solution that will help address the growing need for satellite ground communications and data management while reducing capacity constraints and enabling satellite customers to scale their satellite data downlinks in real-time to meet unanticipated demand across a broad variety of situations.
“Together, AWS and Lockheed Martin are providing satellite operators increased flexibility, resiliency, and scale in a complete connectivity solution, ground architecture, and cloud environment for integrated satellite and data management operations,” said Rick Ambrose, Executive Vice President of Lockheed Martin Space. “Our collaboration with AWS allows us to deliver robust ground communications that will unlock new benefits for environmental research, scientific studies, security operations, and real-time news media. In time, with satellites built to take full advantage of the distributed Verge network, AWS and Lockheed Martin expect to see customers develop surprising new capabilities using the service.”
“AWS and Lockheed Martin have a long, deep relationship and over the past several years it’s become apparent that together we could bring greater capabilities to our public sector and commercial customers,” said Teresa Carlson, Vice President, Worldwide Public Sector for AWS. “Today we are taking the next step in this relationship. The integration of AWS Ground Station with Lockheed Martin Verge brings the unique capabilities of both companies to mutual customers, enabling them to control satellites across both networks and downlink data faster with more resiliency.”
Because many AWS Ground Station antennas are co-located with AWS Regions, both AWS and Lockheed Martin customers gain low-latency, local access to other AWS services to process and store this data. For example, they can use Amazon EC2 to control satellites and downlink data, store and share the data in Amazon Elastic Block Store, Amazon Elastic File System, or Amazon S3, use AWS Virtual Private Cloud for secure communications between Amazon EC2 instances and the AWS Ground Station antenna gateway, hunt for real-time business insights with Amazon Kinesis Data Streams and Amazon EMR, apply machine learning algorithms and models with Amazon SageMaker, add image analysis with Amazon Rekognition, and improve data sets by combining satellite data with IoT sensor data from AWS IoT Greengrass. AWS customers can combine these capabilities to build exciting applications that might use image recognition to identify and protect endangered animals, machine learning to predict faulty construction or industrial systems, or analytics to estimate oil production or assess agriculture yields in real time.
“Access to geospatial information gives customers the confidence to make
critical decisions. For space startups like Spire Global, AWS and
Lockheed Martin are unlocking the potential of nearly continuous and
uninterrupted access to satellite data along with the ability to analyze
and leverage that data using the broad and deep cloud services available
in AWS,” said Robert W. Sproles, Ph.D. and Program Manager, Ground
Stations, for Spire Global, Inc. “The combination of Lockheed Martin
Verge and AWS Cloud will allow multiple satellites
to downlink simultaneously, which will increase satellite constellation
throughput and reduce latency for our customers.”