Space

March 6, 2013

U.S. Air Force awards Lockheed Martin contract for next set of infrared surveillance satellites

lm-af-satellite
The U.S. Air Force has awarded Lockheed Martin a $284.4 million fixed-price contract to procure long lead parts for the fifth and sixth Geosynchronous Earth Orbit satellites in the Space Based Infrared System missile warning constellation.

Featuring a mix of GEO satellites, hosted payloads in highly elliptical earth (HEO) orbit, and associated ground hardware and software, the SBIRS program delivers resilient and improved missile warning capabilities for the nation while simultaneously providing significant contributions to the military’s missile defense, technical intelligence and battlespace awareness mission areas.

Lockheed Martin previously received a contract to complete non-recurring engineering activities for GEO-5 and 6 and procure select long lead spacecraft parts enabling supplier production lines to deliver the lowest possible price for each component. This next phase authorizes the purchase of the remaining long lead spacecraft components. A final contract for full production under fixed-price terms will be awarded at a later date.

This contract award is a testament to the importance of the SBIRS program and reinforces the governmentís confidence in our ability to produce these vital satellites efficiently going forward,î said Jeff Smith, vice president of Lockheed Martinís Overhead Persistent Infrared mission area. As we produce follow on SBIRS assets, we aim to continually reduce the cost and cycle time of each space vehicle to ensure we deliver critical and resilient infrared surveillance capabilities to the nation at the best value to the government.

Lockheed Martinís SBIRS contracts include four HEO payloads, four GEO satellites, and ground assets to receive, process, and disseminate the infrared mission data. Under the new contract, the team will procure long lead parts for the fifth and sixth GEO satellites.

Two HEO payloads and the first geosynchronous (GEO-1) satellite have already been launched. GEO-2 is scheduled for launch in March of 2013.

The SBIRS team is led by the Infrared Space Systems Directorate at the U.S. Air Force Space and Missile Systems Center, Los Angeles Air Base, Calif.
Lockheed Martin is the SBIRS prime contractor, Northrop Grumman is the payload integrator. Air Force Space Command operates the SBIRS system.




All of this week's top headlines to your email every Friday.


 
 

 

Headlines December 17, 2014

News: U.S. Air Force tanker platform slated for year-end debut - Boeing is planning for first flight of its 767-2C – upon which the U.S. Air Force’s new KC-46 tanker will be based – by year’s end, six months late. Northrop Grumman wins $657.4 million deal to supply drones to South Korea - Northrop Grumman has won...
 
 

NASA launches new Micro-g NExT for undergraduates

NASA is offering undergraduate students an opportunity to participate in a new microgravity activity called Micro-g Neutral Buoyancy Experiment Design Teams. The deadline for proposals is Jan. 28, 2015. Micro-g NExT challenges students to work in teams to design and build prototypes of spacewalking tools to be used by astronauts for spacewalk training in the...
 
 
launch1

Storm fails to quench liftoff of secret reconnaissance satellite

The fiery launch of an Atlas V (541), among the most powerful of the venerable Atlas family, briefly dispelled the gloom over Californiaís Central Coast on the evening of Dec. 12. A team of personnel from United Launch Allianc...
 

 
Coast Guard photograph

Navy demonstrates unmanned helicopter operations aboard Coast Guard cutter

http://static.dvidshub.net/media/video/1412/DOD_102145893/DOD_102145893-512×288-442k.mp4 Coast Guard photograph An MQ-8B Fire Scout UAS is tested off the Coast Guard Cutter Bertholf near Los Angeles, Dec. 5 2014. The Coast...
 
 
GPS-OCX

GPS III, OCX successfully demonstrate key satellite command, control capabilities

Lockheed Martin and Raytheon successfully completed the fourth of five planned launch and early orbit exercises to demonstrate new automation capabilities, information assurance and launch readiness of the worldís most powerfu...
 
 

Aerojet Rocketdyne successfully demonstrates 3D printed rocket propulsion system for satellites

Aerojet Rocketdyne has successfully completed a hot-fire test of its MPS-120 CubeSat High-Impulse Adaptable Modular Propulsion System. The MPS-120 is the first 3D-printed hydrazine integrated propulsion system and is designed to provide propulsion for CubeSats, enabling missions not previously available to these tiny satellites. The project was funded out of the NASA Office of Chief...
 




0 Comments


Be the first to comment!


Leave a Reply

Your email address will not be published. Required fields are marked *

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>