-
- News
- Books
Featured Books
- design007 Magazine
Latest Issues
Current IssueRules of Thumb
This month, we delve into rules of thumb—which ones work, which ones should be avoided. Rules of thumb are everywhere, but there may be hundreds of rules of thumb for PCB design. How do we separate the wheat from the chaff, so to speak?
Partial HDI
Our expert contributors provide a complete, detailed view of partial HDI this month. Most experienced PCB designers can start using this approach right away, but you need to know these tips, tricks and techniques first.
Silicon to Systems: From Soup to Nuts
This month, we asked our expert contributors to weigh in on silicon to systems—what it means to PCB designers and design engineers, EDA companies, and the rest of the PCB supply chain... from soup to nuts.
- Articles
- Columns
Search Console
- Links
- Media kit
||| MENU - design007 Magazine
Lockheed Martin Selected To Develop Next Generation Weather Satellite Constellation
June 20, 2024 | Lockheed MartinEstimated reading time: 2 minutes
NASA has selected Lockheed Martin to develop and build the nation's next generation weather satellite constellation, Geostationary Extended Observations (GeoXO), for the National Oceanic and Atmospheric Administration (NOAA).
The baseline contract is for three spacecraft with options for four additional spacecraft. The total estimated value of the contract including options is $2.27 billion.
The GeoXO mission will continue and expand upon critical observations of weather provided by the Lockheed Martin-built GOES-R Series geostationary satellites to include new observations of our oceans and air pollution. GeoXO's new capabilities will deliver more accurate weather forecasting and address emerging environmental issues and challenges that threaten our economy and safety. GeoXO and the nation's weather satellites are vital infrastructure for national resilience.
"Our team is excited and ready to move forward to design and field this critical national capability," said Kyle Griffin, vice president and general manager of Commercial Civil Space at Lockheed Martin. "Our GeoXO design draws heavily from what we've learned with GOES-R spacecraft over the last 15 years, while incorporating new, digital technologies not only onboard the vehicles but in the design and development of this powerful, weather-monitoring platform of the future."
A Deeper Look into Our Severe Weather, Shifting Climate
GeoXO represents an expansion of our nation's geostationary weather satellite enterprise, its capabilities and continued U.S. technological leadership. The geostationary constellation will help NOAA provide better, more accurate information on severe weather patterns, marine ecosystems, air quality and our changing climate.
With new instruments onboard, the observatories will have a major impact including: the first geostationary observations of our coastal ecosystems that supports resilient coastal communities, near real-time hyperspectral sounding to map the state of the atmosphere, enhanced lightning observations for severe convection monitoring, and continental U.S.-wide observations of harmful pollutants in the air we breathe.
A Weather Constellation for the Future
The first GeoXO launch is planned for the early 2030s and will maintain and advance NOAA's critical geostationary observations through the late 2050s.
The GeoXO spacecraft is based on Lockheed Martin's modernized LM2100™ satellite bus, which provides more performance and flexibility for addressing NOAA's mission needs over the coming decades. The platform features SmartSat™ technology that enables new software pushes and capabilities as environmental data needs change over time.
Half a Century, 120+ Weather Spacecraft on Orbit
For over 50 years, Lockheed Martin has built and launched more than 120 weather and environmental spacecraft for our government's civil and military agencies.
The revolutionary GOES-R mission provided the first lightning observations from geostationary orbit, the ability to detect remote wildland fire ignitions, and unprecedented tracking of severe weather that have proven indispensable to the nation and sets a new bar for future expectations from the public, forecasters, and researchers who depend on the geostationary weather mission.
The launch of the fourth and final spacecraft in the series, GOES-U, is scheduled for June 25, 2024 from NASA's Kennedy Space Center, Florida.
Suggested Items
Lockheed Martin Awarded GeoXO Lightning Mapper Contract to Support Forecasters with Severe Weather Monitoring
09/19/2024 | Lockheed MartinNASA has awarded Lockheed Martin (NYSE: LMT) a contract to design and build the next-generation GeoXO Lightning Mapper (LMX) instruments for the National Oceanic and Atmospheric Administration (NOAA).
Airbus to Build Two Radiometers for CNES for Use on NASA/JAXA International Climate Satellite Mission
08/05/2024 | AirbusAirbus has been selected by the French Space Agency (CNES) to design and build two new generation microwave radiometers as part of the French contribution to the Atmosphere Observing System (AOS): the C²OMODO mission (Convective Core Observations through MicrOwave Derivatives in the trOpics).
Lockheed Martin-Built GOES-U Weather Satellite Successfully Launched
07/01/2024 | Lockheed MartinAn advanced weather satellite built by Lockheed Martin for the National Oceanic and Atmospheric Administration (NOAA) launched from NASA's Kennedy Space Center.
RTX's Collins Aerospace to Provide Air India with Avionics Hardware
02/22/2024 | RTXCollins Aerospace, an RTX business, has been selected by Air India for a full suite of avionics hardware catering to the airline's expanding Boeing 737 MAX fleet.
Lockheed Martin, NVIDIA Demonstrate AI-Driven Digital Twin With Potential To Advance Predictive Forecasting
01/31/2024 | Lockheed MartinIn a year where the National Oceanic and Atmospheric Administration (NOAA) has reported record ocean temperatures, an innovative project from Lockheed Martin, built in collaboration with NVIDIA, is showing how artificial intelligence can be used to fuse data and detect anomalies in current environmental conditions.