BAE Systems' gimbals offer high-precision performance in the most extreme environments, ensuring payloads are accurately pointed every time. Designed for space exploration, these space-qualified gimbals have been integral in missions like the Mars Exploration Rover and Worldview Earth imaging constellation. They are capable of steering payloads such as optical telescopes, antennas, mirror flats, and science instruments with exceptional accuracy, providing a large field of regard. Whether in space or on Earth, BAE's gimbals deliver precise control, supporting groundbreaking missions that return high-resolution images, including Mars' surface and Earth observations.
BAE Systems offers advanced cryogenic solutions that enhance both tactical and scientific operations, providing significant advantages in military and space missions. Their cryogenic capabilities include liquid hydrogen storage tanks for high-altitude, long-endurance aircraft and systems for cryogenic control, refueling, and maintenance. BAE is also developing energy storage systems for unmanned underwater vehicles (UUVs) at cryogenic temperatures, doubling battery capacities. Additionally, their high-capacity mechanical cryocoolers are used for cooling infrared sensors in both military and civil space platforms, offering extended operation at temperatures below 25 Kelvin. BAE's cryogenic expertise has contributed to critical space missions, such as the Spitzer Space Telescope and NASA's James Webb Space Telescope, where they designed and built essential cryogenic systems to ensure extended mission durations and optimal performance.
The Fast Steering Mirrors are advanced optical components designed for precision in demanding applications. Built to meet rigorous specifications, these mirrors offer exceptional performance for systems requiring rapid and precise beam control. Ideal for use in a variety of defense and aerospace systems, they ensure superior accuracy and reliability in challenging environments. The Fast Steering Mirrors are engineered to support cutting-edge technology, making them essential for a wide range of high-performance applications. For more details, visit [BAE Systems Fast Steering Mirrors](www.baesystems.com/en-us/product/fast-steering-mirrors).
The Guardian™ Anti-Missile System is a cutting-edge solution designed to protect aircraft from shoulder-launched missiles (MANPADS). Upon detection of an incoming missile, the system directs a multi-band laser onto the missile's seeker head, disrupting its guidance and diverting its flight path. Operating autonomously without requiring input from the flight crew, the Guardian system enhances flight safety in hostile environments. BAE Systems provides Tactical Fast Steering Mirrors (TFSM) for the Guardian program, offering rapid fine pointing and compensating for vibrations. These mirrors are ruggedized for tactical use and have proven effective in applications such as laser communications and surveillance systems.
The STP-SIV (Space Test Program Standard Interface Vehicle) is a flexible and standardized spacecraft platform designed to accommodate a variety of payloads and instruments, enabling rapid and cost-effective satellite launches. Developed under the U.S. Air Force's Space Test Program, the STP-SIV series allows payload teams to design and integrate specific experiments with minimal additional cost. With its versatile platform, the STP-SIV can support multiple payloads, reducing non-recurring costs and shortening acquisition timelines. This adaptability allows for launches on a wide range of vehicles, including the Evolved Expendable Launch Vehicle Secondary Payload Adapter, and it has successfully supported various space missions, such as STPSat-2 and STPSat-3.
The OMPS (Offensive Multi-Platform System) is a cutting-edge precision targeting system designed for long-range, multi-mission applications. Developed to enhance the operational capabilities of advanced airframes like the B-1B Lancer, it enables exceptional weapon accuracy and strike effectiveness in diverse combat environments. The OMPS integrates seamlessly with the aircraft's avionics and weapons systems, ensuring maximum operational efficiency and precision. This system is crucial in delivering superior strike capability, especially in complex combat scenarios where high precision is essential. With continuous upgrades, the OMPS is poised to remain a vital asset for modern aerial warfare. [More details](www.baesystems.com/en-us/product/omps)
NOAA-20, launched in November 2017 as part of the Joint Polar Satellite System (JPSS), is one of the most advanced environmental satellites ever created. Designed to enhance weather forecasting and climate monitoring, NOAA-20 delivers critical satellite data and imagery that aids in predicting severe weather events such as tornadoes, floods, and wildfires. Equipped with a suite of advanced remote sensing instruments, including the Visible Infrared Imager Radiometer Suite (VIIRS), Cross-track Infrared Sounder (CrIS), and the Ozone Mapping and Profiler Suite (OMPS), NOAA-20 provides more accurate and timely weather predictions. Managed by NOAA and built by BAE Systems, this satellite plays a key role in improving long-term climate monitoring and forecasting capabilities, ensuring a safer, more informed world.
The Green Propellant Infusion Mission (GPIM) is a groundbreaking project by BAE Systems that aims to develop environmentally friendly propulsion technology for spacecraft. By testing a "green" alternative to traditional chemical propellants, GPIM seeks to enhance the efficiency and sustainability of future space missions. This innovative system uses a safer, more efficient propellant, reducing toxic environmental impacts while ensuring high performance. The GPIM initiative aligns with BAE's commitment to advancing space technology and sustainability, providing a crucial step toward greener, more sustainable space exploration.
The Global Precipitation Measurement Microwave Imager (GMI) is an advanced satellite-based instrument developed by BAE Systems for NASA's Global Precipitation Measurement (GPM) mission. It is designed to measure small particles of ice, snow, and rain from space, providing crucial data for weather prediction and climate monitoring. The GMI collects high-resolution observations of global precipitation patterns, enabling improved forecasting accuracy. Its advanced microwave imaging capabilities play a vital role in understanding weather systems, enhancing the ability to predict severe weather events and their impact on the environment and communities worldwide.
Cameras from BAE Systems offer exceptional day and night imaging capabilities for space and science missions, along with superior quality, reliability, and high performance for tactical operations. These advanced cameras are engineered to meet the demands of both scientific exploration and critical defense applications, providing clear and accurate imaging in diverse conditions. Ideal for space missions and tactical surveillance, they ensure optimal performance in a range of environments. For more information, visit [BAE Systems Cameras](www.baesystems.com/en-us/product/cameras). .
The Armored Multi-Purpose Vehicle (AMPV) is a family of next-generation, highly survivable tracked combat vehicles developed to meet the future needs of the U.S. Army and its allies. Designed to replace the legacy M113 Family of Vehicles, the AMPV is integral to the Armored Brigade Combat Team (ABCT), offering enhanced protection, mobility, reliability, and interoperability. The AMPV is available in five versatile variants, including General Purpose, Mortar Carrier, Mission Command, Medical Treatment, and Medical Evacuation vehicles. Built on the proven Bradley Infantry Fighting Vehicle and M109A7 self-propelled howitzer platforms, the AMPV delivers a mature, low-risk, and cost-effective solution, ensuring continued combat overmatch and superior survivability for soldiers in the field.
The Armored Multi-Purpose Vehicle (AMPV) is a cutting-edge family of tracked combat vehicles designed to enhance the capabilities of the U.S. Army and its allies. Developed to replace the legacy M113 Family of Vehicles, the AMPV emphasizes advanced survivability, mobility, and networkability, making it essential for modern battlefield operations. This next-generation vehicle is integral to the Armored Brigade Combat Team (ABCT), ensuring interoperability with key platforms like the M1 Abrams tank and M2 Bradley. With a strong focus on soldier safety, the AMPV meets stringent protection requirements, positioning it as a top priority for enhancing operational effectiveness in diverse combat scenarios.
The Armored Multi-Purpose Vehicle (AMPV) is a next-generation, highly survivable tracked combat vehicle designed to enhance the operational capabilities of the U.S. Army and its allies. Developed to replace the legacy M113 Family of Vehicles, the AMPV integrates advanced survivability, mobility, and network connectivity, making it essential for the future of the Armored Brigade Combat Team (ABCT). This versatile vehicle is engineered to operate alongside key assets like the M1 Abrams tank and M2 Bradley, ensuring reliability and interoperability in diverse combat scenarios. With a strong emphasis on soldier safety, the AMPV meets stringent protection requirements, positioning it as a top priority in modern military strategy.
The Armored Multi-Purpose Vehicle (AMPV) is a next-generation family of highly survivable, tracked combat vehicles designed to support the U.S. Army and its allies in future operations. Developed as a replacement for the Vietnam-era M113 Family of Vehicles, the AMPV enhances the mobility, survivability, reliability, and interoperability of the Armored Brigade Combat Team (ABCT). It is capable of operating alongside the M1 Abrams tank and M2 Bradley, providing crucial protection and operational effectiveness in combat scenarios. The AMPV comes in five multi-mission variants, including General Purpose, Mortar Carrier, Mission Command, Medical Treatment, and Medical Evacuation vehicles, all of which contribute to the Army's strategic goals. With a focus on continued combat overmatch capability, the AMPV is a mature, cost-effective solution for modernizing the Army's fleet.
The Multifunctional Information Distribution System - Joint Tactical Radio System (MIDS JTRS) is an advanced, high-capacity radio system designed to enhance tactical data link (TDL) operational effectiveness without increasing size, weight, or power consumption. It supports up to four communication channels and integrates multiple protocols, including the Tactical Targeting Network Technology (TTNT), to provide secure, anti-jam communications across air, sea, and land platforms. The MIDS JTRS replaces outdated radios in military platforms such as fighter jets, transport aircraft, and maritime systems, significantly reducing the need for spare parts and logistics. Available in multiple configurations, it offers improved functionality while maintaining the same physical footprint and connector configuration as the legacy systems it replaces.
