Ball Aerospace to build first WSF-M microwave imaging weather satellite

EL SEGUNDO, Calif. — Spacecraft designers at Ball Aerospace & Technologies Corp. in Boulder, Colo., are moving forward with a project to develop a next-generation weather satellite with a passive microwave imaging radiometer instrument to measure the direction and speed of ocean winds, as well as the intensity of global hurricanes.

Officials of the U.S. Air Force Space and Missile Systems Center at Los Angeles Air Force Base in El Segundo, Calif., announced a half-billion-dollar order to Ball Aerospace last month for the Weather System Follow-On-Microwave (WSF-M) satellite project.

Ball Aerospace is developing the Weather System Follow-On-Microwave (WSF-M) satellite with a passive microwave imaging radiometer to measure winds at sea and the intensity of global hurricanes.

The Air Force is awarding $255.4 million to Ball Aerospace to develop and build the WSF-M space vehicle 1. Ball originally won a $93.7 million contract last year to get started on the WSF-M project to design and build the WSF-M low-Earth-orbit satellite with a passive microwave imaging radiometer instrument and hosted government furnished energetic charged particles sensor to provide ocean surface vector wind and tropical cyclone intensity capabilities.

The WSF-M will be a next-generation polar-orbiting satellite to provide the kind of space-based terrestrial environmental sensing capabilities now provided by the Defense Meteorological Satellite Program (DMSP) and the Naval Research Laboratory’s WindSat spacecraft.

The WSF-M system will have a space segment, launch segment, and ground segment. The space segment has a flight vehicle testbed, ground support equipment, and a satellite able to sense, sore, and transmit microwave raw sensor data to measure wind speed and direction at the ocean’s surface — including the intensity of tropical cyclones like hurricanes and typhoons.

The WSF-M launch segment consists of launch vehicle, launch support facilities, and launch services. Its consists of a primary and backup ground services operations center, as well as the Air Force Satellite Control Network (AFSCN) Space Ground Link System (SGLS) and Unified S-Band (USB)-capable ground stations. The ground segment incorporates WSF-M mission software, including WSF-M command and control software and senor data processing software.

On this contract Ball Aerospace will do the work in Boulder, Colo., and should be finished by January 2023.

For more information contact Ball Aerospace online at www.ball.com/aerospace, or the Air Force Space and Missile Systems Center at www.afspc.af.mil.