Taming Competition in Low and High Orbit

Report

The session titled “Controlling Competition in Low and High Orbit” focused on the changing landscape of competition within the space industry, particularly in light of increased emphasis on space development by countries worldwide. The session highlighted the importance of collaboration between governments and the private sector in addressing the evolving challenges.

Panelists from the European Space Agency, the International Telecommunication Union, Viasat, and Planet Lab discussed various aspects of the competition in space. They acknowledged the economic and technological advantages associated with space access, as well as the growing commercial competition in low Earth orbit.

The projected deployment of around 60,000 satellites by 2030 raised concerns about managing a congested orbital space effectively. The session emphasized the significance of space data, particularly for Earth observation capabilities. Countries without their own space capabilities rely on this data for various purposes.

The panelists discussed the economic harm that can be caused by monopolies controlling access to space data and emphasized the need for fair access. The role of the International Telecommunication Union (ITU) in promoting sustainable and equitable access to space was highlighted.

The ITU’s involvement in regulating orbital regimes and addressing challenges associated with space competition was acknowledged. The panelists stressed the importance of sustainable access to space as a global priority, requiring cooperation among nations. Sustainability in the space industry was also discussed, including the mitigation of space debris and potential risks associated with anti-satellite systems.

Views on achieving sustainable practices in the industry varied among the panelists. The impact of national competition on service providers, such as Viasat, was explored. The cyber attack on Viasat’s satellite in 2022 exemplified the vulnerability of providers in the face of national competition.

The session concluded with a question and answer session, during which the importance of information and transparency in the space industry were emphasized. The panelists stressed the need for cooperation and collaboration among industry stakeholders to effectively address the challenges and risks posed by competition in low and high orbit.

In summary, the session highlighted the evolving nature of competition in the space industry and underscored the importance of collaboration between governments and the private sector. Fair access to space data, sustainable practices, and international cooperation were emphasized as crucial elements for the long-term success of the industry.

Arguments

Important to recognize ‘ecocide’ or grave environmental harms as criminal

Supporting facts:

• JJ Mater is co-founder and CEO of Stop Ecoside International

• Their work involves working with governments at various levels to acknowledge ecocide as a criminal act

Topics: ecocide, International Criminal Court, earth system

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The current legal situation treats space as a kind of a commons

Topics: outer space, legal status

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Utilization of satellite data requires collaboration among satellite launchers, governments, media and academia

Supporting facts:

• The questioner is working for news media and has just starting to analyze satellite data for reporting on geo-political situations like the conflict in Gaza and the situation in Ukraine

Topics: Satellite Data, Collaboration, Data Utilization

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Access to information creates trust and supports democracy

Topics: Information sharing, Democracy

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Copernicus program to provide large amounts of monitoring data for free

Supporting facts:

• It’s a way of stimulating the sector, benefits people developing more commercial services.

Topics: Climate change, Resources management, Biodiversity

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Report

During the discussion, the importance of recognizing ‘ecocide’ as a criminal act was emphasized. JJ Mater, co-founder and CEO of Stop Ecocide International, was mentioned as a key player in this movement. Their work involves collaborating with governments at various levels to acknowledge ecocide as a crime.

This approach aims to hold accountable those who engage in activities that cause severe harm to the environment. The proposal to include outer space in the definition of the environment for ecocide was also discussed. The International definition of ecocide already includes outer space as part of its environmental scope.

This perspective highlights the significance of preserving and protecting outer space as an integral part of our planet’s environment. The current legal situation treats space as a kind of commons, underscoring the absence of specific governance parameters for outer space.

Establishing these parameters was emphasized to prevent severe, widespread, or long-term potential effects in outer space. Collaboration among satellite launchers, governments, media, and academia was highlighted as essential for effectively utilizing satellite data. It was emphasized that satellite launchers or governments alone cannot ensure the successful utilization of satellite data – media and academia play a crucial role as well.

Free access to monitoring data of our planet was argued to be necessary to build trust and support democracy. Access to information was seen as crucial for transparency, better decision-making processes, and democratic systems. The Copernicus program, which provides free access to large amounts of monitoring data, was praised for stimulating the sector and encouraging the development of more commercial services.

The discussion covered these important topics, showcasing compelling arguments and evidence and highlighting the role of various stakeholders in addressing these issues.

Arguments

Competing satellite systems aren’t new

Supporting facts:

• In the past, Intelsat and Inmarsat were two dominant monopoly government satellites

• Private satellite companies came later, posing an economic question for Inmarsat and Intelsat

• After that debate, we saw the emergence of first suite of LEO systems like Iridium and Global Star

Topics: Satellite Systems, Space Technologies, Inmarsat, Intelsat

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The access and costs of satellite systems have improved

Supporting facts:

• The introduction of new systems like NGSO systems has reduced the cost

• There are more satellites and the connectivity has improved significantly

• 2.6 billion people who have not connected can now access these resources

Topics: NGSO Systems, Space Technologies

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Adding AI into the mix can help in monitoring and tracking operations such as logging

Supporting facts:

• Example of Brazil using AI in logging

Topics: Artificial Intelligence, Logging, Conservation

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ITU plays a significant role in ensuring fair and sustainable access to orbital regime and its resources.

Supporting facts:

• ITU handles filings for use of orbital resources and associated spectrum with satellites.

• A system has been put in place to prevent ‘warehousing’, where applicants want a large number of satellite filings.

• There needs to be evidence of progress with the first satellite being up in seven years and 10% more two years later, topping out at 14 years total.

• ITU assists in space debris management and sustainability.

• ICT regulatory and policy framework of ITU levels the playing field for all countries to utilize space-based assets.

Topics: Satellite Filings, Access to Orbital Resources, Space Sustainability, Space Traffic Management

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discussions on voluntary commitments linked to AI also applicable to debris-related issues

Supporting facts:

• institutions and groups making voluntary commitments

Topics: AI, debris-related issues, voluntary commitments

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Doreen Bogdan-Martin emphasizes the need for collaboration and cooperation in space-oriented endeavors.

Supporting facts:

• Countries, whether space-faring or users of space assets, should engage with all

• She discusses the shift of mandates in space to ICT ministries, and the emergence of space bureaus within regulators like the FCC and the Saudi regulator

Topics: Collaboration, Cooperation, Space Governance

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Space matters transitioning to the dictates of ICT ministries and space bureaus within traditional regulators.

Supporting facts:

• The FCC in the US and the Saudi regulator have now incorporated a space bureau

• Various traditional members of the ITU are taking up the space component

Topics: ICT Ministries, Space Bureaus, Space Policy

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Report

The discussions brought forth several important points regarding satellite systems and artificial intelligence (AI) in the context of space technologies. One notable observation was that competing satellite systems aren’t new. In the past, Intelsat and Inmarsat were dominant government satellites.

However, the emergence of private satellite companies posed an economic question for these existing government satellites. This highlights the ongoing trend of competition in the satellite industry. Nevertheless, the discussions also revealed that access to satellite systems and their costs have significantly improved over time.

This was attributed to the introduction of new systems like NGSO (Non-Geostationary Satellite Orbit) systems, which have resulted in reduced costs and improved connectivity. This noteworthy development has allowed approximately 2.6 billion previously unconnected people to now access these resources. The positive impact of this improvement in access and cost was emphasized, indicating the growing potential of satellite systems in various sectors.

Another key point that arose from the discussions was the importance of providing all countries with access to satellite resources. The International Telecommunication Union (ITU) plays a significant role in ensuring fair and sustainable access to orbital resources and their associated spectrum.

It was mentioned that at the beginning of the century, only 14 countries had satellites in orbit, whereas now there are 91 countries. This highlights the progress made in terms of global access to satellite resources and represents a positive trend towards inclusivity.

The potential of artificial intelligence (AI) in space technologies was also explored. It was noted that AI can enhance monitoring and tracking operations, such as logging. An example of Brazil utilizing AI in logging was mentioned, demonstrating the practical application of AI in this field.

The discussions highlighted a supportive stance towards integrating AI into various operations for better outcomes. This suggests that AI has the potential to revolutionize space technologies by improving efficiency and accuracy. The discussions also emphasized the importance of responsible strategies and the need for collaboration and cooperation in space-oriented endeavors.

The management of space debris and space traffic was highlighted as a significant concern. Strategies have been implemented to ensure that orbital resources are not exhausted and space is not cluttered. It was noted that both governments and the private sector have a responsibility to maintain the cleanliness and sustainability of space.

Additionally, studies are being conducted to investigate deorbiting and disposal strategies for space debris. These efforts reflect the intention to ensure long-term sustainability in the use of space-based resources. Further observing the discussions, the transition of space matters from traditional bodies to ICT (Information and Communication Technology) ministries and the emergence of space bureaus within regulators were mentioned.

This transition signifies the evolving nature of space technology management, with specialized bodies being established to address the unique demands and challenges of the sector. In conclusion, the discussions shed light on various aspects of satellite systems and AI in the context of space technologies.

The competition among satellite systems, the improvement in access and costs, and the importance of providing all countries with access to satellite resources were key focal points. The potential of AI and the need for responsible strategies, collaboration, and cooperation were also highlighted.

These insights contribute to a broader understanding of the current state and future possibilities within the field of space technologies.

Arguments

Competition in commercial constellations has some positive impacts

Supporting facts:

• 70 countries now have space agencies

• 90 countries have satellites

• Space economy is projected to be worth over a trillion dollars by 2032

• Number of satellites is projected to be about 60,000 by 2030, which is 10x growth from 2023

Topics: Satellite Competition, Space Economy, Connectivity

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Climate change is the biggest use case for AI right now

Supporting facts:

• Real-time data is provided by Gio and Leo to aid in real-time AI

Topics: Climate Change, AI

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Potential debris from a high number of satellites in low earth orbit poses an existential threat

Supporting facts:

• Debris can move at 20 times the speed of sound leading to possible catastrophic damage and cascading effects

• Such debris has the ability to disrupt critical systems such as geo and others

Topics: Space debris, Kessler effect, Low earth orbit satellites

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National competition has positively affected Guru Gowrappan as a provider, fostering collaboration at a security level with countries who have their space programs

Supporting facts:

• More countries are forming their space programs driving security and sovereignty

• Guru Gowrappan gave Turks as an example, stating that they work within their rules when in their airspace or jurisdiction

Topics: National Competition, Space Program, Security Collaboration

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Optimization and efficiency are essential in satellite deployment to curb overpopulation and consequences in outer space.

Supporting facts:

• Most satellites are at the low Earth orbit for broadband and connectivity.

• Current systems attempt to deploy large number of satellites (30,000 – 40,000) assuming optimization over time.

• LEO satellites are compared to having a charging station every few blocks, with assumptive usage, which is inefficient.

• Guru’s team on the geo side work more efficiently, following demand rather than over-saturating supply.

Topics: Satellite Deployment, Outer Space Governance

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Report

The analysis explores different perspectives on satellite competition and its implications. One positive aspect highlighted is the competition in commercial constellations, which is projected to have several benefits. The space economy is expected to be worth over a trillion dollars by 2032, and the number of satellites is projected to increase tenfold from 2023 to about 60,000 by 2030.

This growth indicates significant economic opportunities in the space industry. Furthermore, satellite services are considered essential for addressing connectivity challenges in remote areas. Currently, 2.6 billion people lack access to connectivity, and satellite services, such as those provided by Viasat, play a crucial role in bridging the digital divide.

Notably, Viasat powers aviation for 600 million passengers and enables 150,000 commercial shipping operations annually. However, there are concerns regarding the negative impacts of satellite competition. One significant concern is the potential threat of space debris in low Earth orbit. The high number of satellites being deployed increases the risk of collisions, which could have catastrophic consequences.

Therefore, proper management and control systems are necessary to mitigate these risks and ensure sustainability. The analysis also emphasizes the importance of collaboration in data utilization. Partnerships, such as the one between Gio and Leo, provide real-time data for AI applications, aiding in addressing challenges like climate change.

This highlights the need for global cooperation. Similarly, national competition in the space sector is seen as a positive factor, fostering security collaboration and sovereignty. The example given is the Turks, who work within their rules when in their airspace or jurisdiction.

This demonstrates how competition among countries can lead to fruitful partnerships at a security level. However, control collaboration locally poses a threat, especially in areas like low Earth orbit and broadband connectivity, where establishment is still limited. The challenge lies in enforcing local collaboration, especially with new players in low Earth orbit, and this issue could hinder progress in those areas.

The analysis also highlights inefficiencies in satellite deployment and capacity management. Currently, there is an overpopulation of satellites in low Earth orbit, similar to overpopulating charging stations. The suggestion is to manage capacity according to demand rather than oversaturating supply, as 90% of Earth’s demand for capacity stems from only 15% of its surface.

This imbalance in resource allocation and capacity management needs to be addressed for sustainability. In conclusion, the analysis presents a nuanced view of satellite competition. While there are positive impacts, such as economic opportunities and connectivity benefits, there are also concerns about space debris, inefficient satellite deployment, and the need for collaboration and sustainable management.

These findings highlight the importance of addressing these challenges to ensure the long-term viability and success of the space industry.

Arguments

Space access and economy are changing drastically

Supporting facts:

• Increased international competition in low and high orbits

• Increased emphasis on partnerships and collaborations

Topics: Space Economy, Space Access, Space Race

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Europe is building up its space capabilities through strategic programming

Supporting facts:

• The Agenda 2025 strategic document indicates direction for upcoming years

• Europe has strong programmes- Copernicus, Galileo, Space Science

Topics: Europe Space Capabilities, Strategic Programming, Space Race

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Climate change is the biggest problem or challenge of humankind for decades to come, if not longer

Supporting facts:

• Regardless of political system or philosophies for any society, climate change is affecting every single one, every single continent, every single country

• Out of the 10 top global risks for humans, the first four top ones are related to climate identified according to a report by WF

Topics: climate change, global risks, cooperation

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The use of AI, Earth system models, high-performance computing to predict threats to humankind in terms of climate risks is crucial

Supporting facts:

• To simulate threats coming to humankind in terms of climate risks, one can simulate certain situations and see what happens if parameters are changed. This allows one to foresee and prepare for risks

• Use of international assets such as satellites for this purpose

Topics: climate change, AI, data prediction, digital twins

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Satellite operators should take responsibility for additional space debris they produce

Supporting facts:

• Compared the responsibility to visitors to a national park taking their garbage with them

• Talked about having operators commit to removing non-functioning satellites from orbit

Topics: Space Debris, Satellite Technology

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Underestimation of the significance of space debris and its potential impacts should be avoided

Supporting facts:

• Mentioned the Kessler Syndrome, where the density of objects in lower earth orbit is high enough that collisions could cause a cascade

• Highlighted dependency on satellite technology for daily life

Topics: Kessler Syndrome, Satellite Technology

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We could work on sustainability criteria for satellite launches

Supporting facts:

• Doreen provides licenses for satellite operators

• Sustainability could be included as a condition for licensing

Topics: Satellite launch, Regulation, Sustainability

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Collaboration among spacefaring nations is critical for sustainable space exploration

Supporting facts:

• ESA has 22 member states that coordinate and collaborate on a regular basis.

• The task of exploring and using the resources of the moon is so substantial that it requires cooperation of major partners.

Topics: International Cooperation, Space Exploration, Lunar Missions

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Management of Earth’s surface, the orbits, and the moon need international cooperation for sustainability.

Supporting facts:

• Humankind needs to collaborate to manage these aspects sustainably

Topics: Sustainable Management, International Cooperation, Lunar Activities, Orbital Activities

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Access to information creates trust and promotes transparency and democracy

Supporting facts:

• We’re having a big program called Copernicus that will provide all the data for free to anyone everywhere in the world

Topics: transparency, democracy, access to information

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The Copernicus program is beneficial as it stimulates the sector and helps those developing more commercial services

Supporting facts:

• Copernicus program provides huge amounts of data for free

Topics: Copernicus program, data provision, commercial services

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The Copernicus program provides free access to satellite data

Supporting facts:

• This data can be downloaded from sentinelhub.esa.ind

• Users have to log in and leave some details to access this data

Topics: Copernicus program, satellite data, free access

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The Copernicus program disseminates 350 terabytes of data daily

Supporting facts:

• These data is provided to the world every day

Topics: Copernicus program, Data dissemination

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Report

Space access and the space economy are undergoing significant changes, driven by increased international competition and a growing emphasis on partnerships and collaborations. This shift is a response to the evolving landscape of space exploration and the need for innovation and infrastructure development.

Europe, in particular, is making strides in building up its space capabilities through strategic programming. One notable program is Copernicus, which aims to provide accurate and timely information for environmental and security purposes. Europe also has strong initiatives such as Galileo, a global navigation satellite system, and various space science programs.

These initiatives highlight Europe’s commitment to becoming a major player in the space sector. However, it is argued that Europe needs to catch up and improve its space capabilities. The desire for the next generation of launchers, increased competition, and creativity are driving the need for Europe to enhance its space capabilities.

Europe faced a launcher crisis in the previous year but plans are underway for Europe to regain access to space. This represents an opportunity for Europe to strengthen its position and contribute significantly to the space economy. The European Space Agency (ESA) is undergoing a transition towards a customer model and is actively promoting competition.

ESA has launched a competition for a cargo return vehicle for the Space Station, with the aim of becoming an anchor customer and purchasing services from industries. By fostering competition and adopting a customer-focused approach, ESA is positioning itself as a key player in the evolving space economy.

Cooperation is seen as essential to address the challenges posed by climate change. International fora such as CEOS and GEO are coordinating responses to climate change, and satellites from global powerhouses like China, Japan, the US, and Europe are being utilized for monitoring and data collection.

The use of AI, Earth system models, and high-performance computing to predict climate risks is considered crucial for understanding and preparing for potential threats to humankind. The issue of space debris is a growing concern, as the density of objects in lower Earth orbit increases.

It is argued that satellite operators should take responsibility for the additional space debris they produce. Initiatives are being proposed to include sustainability criteria for satellite launches, encouraging operators to consider the long-term impact of their activities on space debris and the environment.

The integration of space into sustainability efforts is another key consideration. Applying the principles of terrestrial sustainability to the space orbit and developing technologies to remove out-of-service objects from orbit are important steps towards sustainable space exploration. Strong international cooperation among spacefaring nations is seen as critical for sustainable space exploration and the management of Earth’s surface, orbits, and the moon.

Collaboration is necessary to leverage resources, expertise, and technology to address the challenges and opportunities of space exploration. Access to information is vital for transparency, trust, and democracy. The Copernicus program, which provides vast amounts of data for free, is an important step towards open access to information and can contribute to effective decision-making in various areas such as climate change, biodiversity, and resource management.

In conclusion, the space industry is undergoing significant changes, with increased competition, partnerships, and a focus on sustainable practices. Europe is making efforts to strengthen its space capabilities through strategic programming, and cooperation among spacefaring nations is crucial for sustainable space exploration.

The use of technology, such as AI and Earth system models, to predict climate risks and the importance of managing space debris are key considerations. Furthermore, the integration of space into sustainability efforts and the promotion of transparency and democracy through open access to information are crucial for the future of the space sector.

Arguments

Competition is healthy for the space sector

Supporting facts:

• There is a lot of cooperation in the space sector like collaboration of SpaceX, Viasat, European Space Agency and NASA

Topics: Low Earth orbit, Space competition, Cooperation

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Space is very much connected to earth and plays a critical role in development

Supporting facts:

• Data from earth-imaging satellites is used from Ukraine to Gaza for better understanding

• Data is used for monitoring poverty, refugee camps, water availability, food security and sustainability

Topics: Earth-Imaging Satellites, Sustainable Development Goals

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The use of earth observation data can assist societies to manage and mitigate disasters and other environmental issues

Supporting facts:

• The Brazilian government uses the data to reduce deforestation – it witnessed a 55% fall in the last couple of years

• The data provided weekly alerts that enabled the Brazilian federal police to intervene and stop illegal activities

• Governments utilize the data for disaster response, like in California for fires and floods

• In Turkey, building damage assessment was done within 48 hours of earthquake that helped relief operators

• The data set of soil moisture enables prediction of potential floods

Topics: Earth observation, Disaster management, Environmental Conservation

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Continuing with the presumption that space is big and therefore it’s ok is no longer a viable strategy

Supporting facts:

• Millions of satellite applications are in space

• 100 million estimated orbital space debris pieces already in orbit

Topics: Space debris, Orbital space traffic management

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We urgently need space debris remediation to reduce growth of future sources of Kessler Syndrome

Supporting facts:

• Most orbital space debris are too small to track

• The sooner we address the problem, the better

• Removing big objects can reduce further growth of the Kessler syndrome

Topics: Space debris, Kessler Syndrome, Space debris remediation

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We need an international accord on space debris and anti-satellite tests

Supporting facts:

• The space sector is very well aware of these challenges

• After an anti-satellite test, the impact is suffered by everyone in space

Topics: International accord, Space debris, Anti-satellite tests

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Space is relevant in resolving global challenges such as climate change and biodiversity loss

Supporting facts:

• Satellite data is critical in managing and solving these challenges

• We need public awareness and accountability

• Measuring all the world’s trees’ carbon was launched to put carbon into our economic system

Topics: Space, Ecological Issues, Biodiversity Loss, Climate Change

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Space is being democratized and it is getting easier to access space.

Supporting facts:

• Lots of countries are trying to build their own satellites or even launch vehicles.

Topics: space exploration, democratization of space, satellite construction

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Sharing satellite data with media

Supporting facts:

• Imagery is shared with media every day, some free, some paid for requested extra services

• Satellite data helps to bring truth and can be used to fight misinformation

Topics: Satellite data, Media, Transparency

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Utilization of Satellite Data for Accountability

Supporting facts:

• Satellite data was used for a building by building damage assessment in Ukraine for the UN in collaboration with Microsoft

• Space can reduce misinformation by triangulating truth

Topics: Satellite Data, Accountability, Global Conflicts, Transparency

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Report

The space sector is undergoing a renaissance due to reduced rocket costs and increased satellite performance, resulting in more data and greater accessibility. Collaboration among companies like SpaceX, Viasat, European Space Agency, and NASA further promotes cooperation in the space industry.

Earth-imaging satellites provide valuable insights into global development, aiding in understanding poverty, refugee camps, water availability, food security, and sustainability. Governments have utilized this data for disaster response, such as in California for fires and floods. Urgent action is needed to address the issue of space debris, with an estimated 100 million orbital debris pieces currently in orbit.

Prohibiting anti-satellite tests and establishing an international accord on space debris are necessary steps. Space plays a critical role in managing global challenges, such as climate change and biodiversity loss. Satellite data is crucial in measuring and addressing these issues, while raising public awareness and accountability is essential for their resolution.

The democratization of space allows countries to access space capabilities without needing their own satellites or rockets. Collaboration and sharing of satellite data with the media contribute to transparency and fighting misinformation. In summary, the space sector is experiencing a renaissance with reduced costs and improved performance.

Earth-imaging satellites aid in global development and disaster response. Urgent action is needed to address space debris. Space is essential in addressing global challenges. The democratization of space and collaboration with the media promote transparency and combat misinformation.