The 2021 Value of Space Summit, organized by The Aerospace Corporation and the Space Information Sharing and Analysis Center (Space ISAC), addressed the increasing reliance on space-based systems in modern society. This two-day event, held on October 19 and 20, focused on the theme "Securing the Value of Space," building upon discussions from the inaugural summit in 2020. Key stakeholders from the space enterprise gathered to explore critical issues affecting space operations, emphasizing the significance of space infrastructure for current and future generations. Erin Miller, Executive Director of Space ISAC, highlighted the summit's mission to enhance understanding and collaboration within the space community to ensure the sustainability and security of space assets.
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The Small Satellite Cost Model (SSCM) is a sophisticated parametric cost estimation tool developed by The Aerospace Corporation, drawing on over 30 years of research. Designed specifically for modern small satellites weighing up to 1000 kilograms, SSCM addresses the limitations of traditional cost models that often overestimate expenses for these smaller systems. Particularly effective during the early conceptual phases of spacecraft development, SSCM allows for comprehensive cost and performance trade-offs through its collection of cost-estimating relationships. The latest iteration, SSCM19, released in December 2019, provides accurate estimates for various subsystems, including attitude determination and control, propulsion, power, telemetry, and thermal management, making it an invaluable resource for aerospace professionals engaged in small satellite projects.
Airbus is playing a crucial role in NASA's Artemis program through the development of the European Service Module (ESM) for the Orion spacecraft, which is set to enable human exploration of the Moon. As the "powerhouse" of Orion, the ESM provides essential services such as propulsion, power generation, and life support, including water and breathable air for astronauts. This significant achievement marks Airbus as the first non-U.S. provider to deliver a mission-critical component for an American human spaceflight mission. The ESM is integral to upcoming Artemis missions, particularly Artemis III, which aims to land astronauts on the lunar surface and expand our understanding of the Moon and its resources. Through this partnership, Airbus is contributing to a new era of lunar exploration and international collaboration in space.
Airbus is at the forefront of Mars exploration, leveraging its extensive experience from past interplanetary missions, including the Mars Express launched in 2003. The company is currently developing the ExoMars rover, set for launch in 2028, which aims to search for signs of life and investigate the history of water on Mars. Named after British scientist Rosalind Franklin, this six-wheeled rover features an advanced autonomous navigation system that allows it to traverse the Martian surface more efficiently than traditional remote control methods. Equipped with a drill capable of sampling up to two meters deep and a 3D panoramic camera for detailed imaging, the rover will analyze samples onboard and transmit data back to Earth, contributing significantly to our understanding of the Red Planet. Additionally, Airbus is involved in the Mars Sample Return mission, further solidifying its role in humanity's quest to explore Mars.
The Space Data Highway is an innovative satellite communication network developed by Airbus, designed to facilitate ultra-fast data transfer between space and ground stations. This cutting-edge system leverages laser communication technology to provide high-capacity connectivity for various applications, including Earth observation, scientific research, and disaster management. By enabling real-time data transmission at speeds significantly faster than traditional radio frequency systems, the Space Data Highway enhances operational efficiency and supports critical missions in space. With its ability to connect multiple satellites and ground infrastructures seamlessly, this advanced network represents a significant advancement in space communications, ensuring that vital information can be shared quickly and securely across the globe.
SATCOMBw is a critical satellite-based communication system developed by Airbus to ensure stable and secure communications for the German Armed Forces (Bundeswehr) during missions abroad, particularly in regions with unreliable infrastructure. This system features sovereign communications satellites paired with a range of fixed and transportable ground stations, enabling rapid deployment and reliable connectivity between deployment sites and the home base. As the prime contractor for SATCOMBw Stage 2 for over a decade, Airbus is responsible for designing, implementing, and delivering portable ground systems that provide the Bundeswehr with autonomy, security, and absolute control over their communications networks. This capability is essential for maintaining operational effectiveness in diverse and challenging environments.
The SATCOM Iridium system by Airbus provides a robust and reliable satellite communication solution designed for military operations, ensuring secure connectivity in remote and challenging environments. This system leverages the extensive Iridium satellite network to deliver global coverage, enabling voice and data communications for armed forces deployed in various operational theaters. With its high resilience and adaptability, SATCOM Iridium is ideal for mission-critical applications, allowing military personnel to maintain effective communication regardless of location or infrastructure limitations. This capability enhances situational awareness and operational efficiency, making it an essential tool for modern military missions.
Airbus is a key player in Earth observation and climate monitoring, contributing to initiatives like the Copernicus program, which is the world's most ambitious environmental and climate monitoring effort. This program encompasses a fleet of satellites designed for both "in-situ" measurements and derived services that address critical areas such as oceans, atmosphere, climate change, land management, security, and emergency response. By building advanced satellites and instruments, Airbus transforms geospatial data into actionable insights that support efforts to combat climate change and enhance our understanding of the planet. From short-term weather predictions to long-term global climate assessments, Airbus's commitment to Earth observation plays a vital role in addressing the challenges posed by climate change.
Airbus is a leading contributor to Earth observation and climate monitoring through its involvement in the Copernicus program, the world's most ambitious initiative for environmental and climate assessment. This program includes a constellation of satellites designed for both "in-situ" measurements and derived services that focus on critical areas such as oceans, atmosphere, climate change, land management, security, and emergency response. By building advanced satellites and instruments, Airbus transforms geospatial data into actionable insights that aid in combating climate change and enhancing our understanding of the Earth's systems. With capabilities ranging from short-term weather predictions to long-term global climate monitoring, Airbus is at the forefront of efforts to address the pressing challenges of climate change.
Airbus is a pivotal player in Earth observation and climate monitoring, significantly contributing to the Copernicus program, which is recognized as the world's most ambitious initiative for environmental assessment. This program features a network of satellites dedicated to "in-situ" measurements and derived services that focus on critical areas, including oceans, atmosphere, climate change, land management, security, and emergency response. By designing and building advanced satellites and instruments, Airbus transforms geospatial data into actionable insights that support global efforts to combat climate change. With capabilities extending from short-term weather forecasting to comprehensive long-term climate monitoring, Airbus is at the forefront of addressing the urgent challenges posed by climate change and enhancing our understanding of the planet.
SSOT FASat Charlie is Chile’s first high-resolution operational Earth observation satellite, developed by Airbus Defence and Space and launched in 2011. Known as "FASat-Charlie" in Chile, this agile satellite provides extremely high-quality imagery that supports a diverse range of applications, including mapping, agriculture, urban planning, military intelligence, and natural resource management. Built on the AstroBus-XS platform, SSOT enhances Chile's capabilities in risk assessment and disaster management by delivering precise optical observations. This innovative system exemplifies Airbus's commitment to providing advanced satellite solutions that empower nations to effectively monitor and manage their environments.
SSOT FASat Charlie is Chile’s first high-resolution operational Earth observation satellite, developed by Airbus Defence and Space and launched in 2011. Known locally as "FASat-Charlie," this agile satellite provides extremely high-quality imagery that enhances Chile's capabilities in various applications, including mapping, agriculture, urban planning, military intelligence, and natural resource management. Built on the AstroBus-XS platform, SSOT is designed to deliver precise optical observations, enabling effective risk assessment and disaster management. This innovative system exemplifies Airbus's commitment to advancing satellite technology and supporting countries in monitoring and managing their environments effectively.
PeruSat-1 is a high-resolution Earth observation satellite developed by Airbus Defence and Space, designed to enhance Peru's capabilities in monitoring natural resources, agriculture, urban development, and disaster management. Launched in 2016, this state-of-the-art satellite provides detailed imagery that supports various applications, including environmental monitoring and land use planning. Equipped with advanced optical sensors, PeruSat-1 delivers high-quality data that enables government agencies and organizations to make informed decisions based on accurate geospatial information. This satellite exemplifies Airbus's commitment to providing innovative solutions that empower nations to effectively manage their resources and respond to challenges in real time.
