The Impact of In-Situ Resource Utilization (ISRU) on Space Robotics and Autonomous System (Space RAS) Market: Mining and Manufacturing in Space

Introduction:

As humanity ventures further into space, the need for sustainable and efficient exploration has become increasingly apparent. In-Situ Resource Utilization (ISRU) is a critical technology that addresses this need by enabling the extraction and use of local resources from celestial bodies.

This approach not only reduces the dependence on Earth-based supplies but also significantly impacts the development and application of Space Robotics and Autonomous System (Space RAS) Market.

This article delves into the influence of ISRU on space robotics, focusing on the mining and manufacturing processes that are transforming space exploration.

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Introduction to In-Situ Resource Utilization (ISRU)

In-Situ Resource Utilization (ISRU) involves utilizing resources found on celestial bodies—such as the Moon, Mars, or asteroids—rather than transporting all necessary materials from Earth. ISRU technologies include mining, processing, and manufacturing materials directly in space, which can drastically reduce mission costs and enhance the sustainability of long-term space operations.

The Role of Space Robotics in ISRU

Space robotics play a pivotal role in the implementation of ISRU technologies. Robotic systems are essential for conducting the complex and often hazardous tasks involved in resource extraction and processing. The impact of ISRU on space robotics can be categorized into several key areas:

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1. Development of Specialized Mining Robots

ISRU requires the development of specialized mining robots capable of operating in harsh extraterrestrial environments. These robots are designed to perform tasks such as drilling, excavation, and sample collection. Key considerations for these robots include:

Adaptability: Mining robots must be adaptable to various terrains and environmental conditions, from the rocky surface of Mars to the icy regolith of the Moon. Advanced mobility systems inspired by nature and robust design features are crucial for overcoming these challenges.

Autonomy: Given the communication delays between Earth and distant celestial bodies, mining robots must be highly autonomous. They need to operate independently, make real-time decisions, and adjust their operations based on environmental feedback.

2. Integration of Resource Processing Systems

In addition to mining, ISRU involves processing extracted materials to make them usable. Space robotics are essential for integrating and operating resource processing systems, including:

Resource Refinement: Robots are used to refine raw materials extracted from celestial bodies. This may involve crushing, heating, or chemical processing to obtain valuable resources such as water, oxygen, and metals.

Manufacturing Components: Processed materials can be used to manufacture components for space habitats, spacecraft, and other infrastructure. Robotic systems capable of 3D printing and assembling parts from in-situ resources are increasingly important for building sustainable space operations.

3. Enhancing Mission Sustainability and Efficiency

ISRU-driven space robotics contribute to mission sustainability and efficiency by:

Reducing Payload Mass: By utilizing resources on-site, the mass of payloads transported from Earth can be significantly reduced. This allows for more efficient use of spacecraft launch capacity and decreases mission costs.

Enabling Longer Missions: Access to local resources supports longer-duration missions by providing essential supplies such as water and oxygen, and by facilitating the construction of habitats and other infrastructure.

Technological Innovations in ISRU-Related Space Robotics

Several technological innovations are driving the development of space robotics for ISRU applications:

1. Advanced Drilling Technologies

Innovations in drilling technologies are crucial for efficient resource extraction. Developments include:

Drill Design: Space drills are designed to penetrate and extract materials from diverse substrates, including loose regolith and hard rock. Recent advancements focus on improving drill efficiency and reliability in low-gravity and vacuum environments.

Autonomous Operation: Advanced sensors and AI algorithms enable drilling robots to autonomously identify resource-rich areas and optimize drilling parameters, reducing the need for human intervention.

2. In-Situ Resource Processing Units

Processing units are essential for converting raw materials into usable forms. Innovations include:

Regolith Processing: Technologies for processing lunar and Martian regolith to extract valuable minerals and produce construction materials are under development. This includes methods for converting regolith into metal alloys and other useful compounds.

Water Extraction: Systems for extracting water from the lunar or Martian soil or ice deposits are being refined. This involves advanced techniques for sublimating and purifying water to make it suitable for consumption and other uses.

3. 3D Printing and Manufacturing Systems

3D printing technologies are transforming how components are manufactured in space:

Material Synthesis: 3D printers designed for space applications can use ISRU-derived materials to produce parts and tools. This capability reduces reliance on Earth-supplied materials and supports the construction of habitats and equipment in space.

On-Demand Production: The ability to print components on demand enables rapid adaptation to changing mission needs and repair of damaged equipment, enhancing mission flexibility and resilience.

Case Studies and Real-World Applications

1. NASA’s Regolith Excavation and Processing

NASA has been developing technologies for regolith excavation and processing for lunar missions. The Lunar Reconnaissance Orbiter and upcoming Artemis missions will use robotic systems to explore and extract lunar regolith, which can be processed to produce oxygen and construction materials.

2. Mars Rover Missions

The Mars rovers, such as Curiosity and Perseverance, are equipped with advanced instruments for analyzing Martian soil and rocks. Future missions will integrate ISRU technologies to test and demonstrate resource extraction and processing capabilities on Mars.

3. Asteroid Mining Projects

Private companies and space agencies are exploring asteroid mining as a potential source of valuable resources. Robotic spacecraft are being designed to land on asteroids, extract materials, and return samples to Earth or process them in space for future use.

Challenges and Future Directions

While ISRU holds great promise, several challenges need to be addressed:

1. Technological and Engineering Challenges

Developing reliable and efficient mining and processing robots for space requires overcoming significant engineering challenges. These include designing systems that can operate in extreme temperatures, low gravity, and high radiation environments.

2. Cost and Resource Allocation

Investing in ISRU technologies and space robotics requires substantial financial resources. Balancing the cost of development with the potential benefits is a critical consideration for space agencies and commercial entities.

3. Legal and Regulatory Considerations

The use of extraterrestrial resources raises legal and regulatory questions, including property rights and resource ownership. Addressing these issues is essential for ensuring that ISRU activities are conducted in a manner that is fair and sustainable.

Conclusion

In-Situ Resource Utilization (ISRU) is transforming the landscape of space exploration by enabling the extraction and use of local resources. Space robotics play a crucial role in this transformation, driving advancements in mining, processing, and manufacturing technologies. By leveraging the power of ISRU, space missions can become more sustainable, efficient, and cost-effective.

As the Space Robotics and Autonomous Systems (Space RAS) market continues to evolve, the integration of ISRU technologies will play an increasingly significant role in shaping the future of space exploration. By addressing current challenges and capitalizing on technological innovations, space robotics will pave the way for a new era of exploration and development in the cosmos.

The process of taking rich resources from planets, moons, and asteroids for use on Earth or in space exploration is known as space mining. Because Earth's resources are limited, space mining provides access to potentially enormous amounts of precious metals.

Rocket Propulsion Market By Product Type, By Manufacturers, By End-User And Market Trend Analysis Forecast 2033

The rocket propulsion global market report 2024 from The Business Research Company provides comprehensive market statistics, including global market size, regional shares, competitor market share, detailed segments, trends, and opportunities. This report offers an in-depth analysis of current and future industry scenarios, delivering a complete perspective for thriving in the industrial automation software market.

Rocket Propulsion Market, 2024 report by The Business Research Company offers comprehensive insights into the current state of the market and highlights future growth opportunities.

Market Size - The rocket propulsion market size has grown rapidly in recent years. It will grow from $6.32 billion in 2023 to $7.22 billion in 2024 at a compound annual growth rate (CAGR) of 14.2%. The growth in the historic period can be attributed to space exploration and satellite launches, military and defense applications, commercial space ventures, scientific research missions, national space programs and agencies..

The rocket propulsion market size is expected to see rapid growth in the next few years. It will grow to $11.58 billion in 2028 at a compound annual growth rate (CAGR) of 12.5%. The growth in the forecast period can be attributed to reusable rockets and cost reduction, satellite constellations and broadband connectivity, lunar and mars exploration missions, small satellite propulsion systems, green and sustainable rocket propellants, advanced space tourism initiatives, global space industry expansion.. Major trends in the forecast period include electric and ion propulsion for deep space missions, 3d-printed rocket components, rapid turnaround and launch capabilities, in-space refueling and depot systems, advanced propulsion for asteroid mining, rocket engines for hypersonic travel..

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The Business Research Company's reports encompass a wide range of information, including:

1. Market Size (Historic and Forecast): Analysis of the market's historical performance and projections for future growth.

2. Drivers: Examination of the key factors propelling market growth.

3. Trends: Identification of emerging trends and patterns shaping the market landscape.

4. Key Segments: Breakdown of the market into its primary segments and their respective performance.

5. Focus Regions and Geographies: Insight into the most critical regions and geographical areas influencing the market.

6. Macro Economic Factors: Assessment of broader economic elements impacting the market.

Market Drivers - Increased spending and capital investment by government bodies and space companies are significantly driving the rocket propulsion market. Capital investment refers to the acquisition of physical assets by a company for use in furthering its long-term business goals and objectives. Industries are investing huge capital in space exploration, and product innovation for technological advancements, and government agencies also taking initiatives and allowing them to spend more on research and development and produce more efficient and creative technology. For instance, according to Space Capital LP, a US-based venture capital firm that invests in space-based technologies, with another $7.2 billion invested in the Q1 2022, venture capital invested $17.1 billion into 328 space companies in 2021, accounting for 3% of total global venture capital flows. According to USAspending, a US-based official open data source of federal spending information, in FY 2022, the National Aeronautics and Space Administration (NASA) had $30.44 bn in available budgetary resources distributed among its 1 agency sub-components to drive advances in technology, aeronautics, and space exploration to enhance knowledge and innovation. Therefore, increasing spending and capital investment by government bodies and space companies is predicted to boost demand for rocket propulsion systems during the forecast period.

The rocket propulsion market covered in this report is segmented –

1) By Propulsion Type: Solid, Liquid, Hybrid 2) By Orbit Type: LEO, MEO, GEO, Beyond GEO 3) By Launch Vehicle Type: Manned, Unmanned 4) By End User Type: Civil and Commercial, Military

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Regional Insights - Asia-Pacific was the largest region in the rocket propulsion market in 2023, and it is also expected to be the fastest-growing region in the forecast period. The regions covered in the rocket propulsion market report include Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East and Africa.

Key Companies - Major companies operating in the rocket propulsion market include Aerojet Rocketdyne Holdings Inc., Mitsubishi Heavy Industries Ltd., Space Exploration Technologies Corp., Safran S.A., Blue Origin LLC, Northrop Grumman Innovation Systems Inc., Virgin Galactic Holdings Inc., Rocket Lab USA Inc., United Launch Alliance LLC, Boeing Space Launch System, Lockheed Martin Space Systems Company, Reaction Engines Ltd., Firefly Aerospace Inc., Sierra Nevada Corporation, ExPace Technology Co. Ltd., Relativity Space Inc., Arianespace SA, IHI Corporation, Skyrora Ltd., Masten Space Systems Inc., Gilmour Space Technologies Pty Ltd., ArianeGroup GmbH, Terran Orbital Corporation, PLD Space S.L., Dauria Aerospace, Raptor Aerospace Inc., Axiom Space Inc., CubeCab Services Private Limited, Space Perspective Inc., Stratolaunch Systems Corporation

Table of Contents 1. Executive Summary 2. Rocket Propulsion Market Report Structure 3. Rocket Propulsion Market Trends And Strategies 4. Rocket Propulsion Market – Macro Economic Scenario 5. Rocket Propulsion Market Size And Growth ….. 27. Rocket Propulsion Market Competitor Landscape And Company Profiles 28. Key Mergers And Acquisitions 29. Future Outlook and Potential Analysis 30. Appendix

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Space Mining Market Key Players, Industry Overview, Application and Analysis to 2024 to 2031

Overview:

The Space Mining Market encompasses various activities related to the exploration, extraction, and processing of resources from space. This includes the development of spacecraft specifically designed for mining operations, the identification of suitable targets like resource-rich asteroids, and the creation of technologies for efficient extraction and processing of materials in space. Currently, the market is primarily focused on near-Earth asteroids, believed to contain valuable resources like platinum, nickel, cobalt, and water ice.

Understanding Space Mining

Space mining, also known as extraterrestrial resource exploitation, involves the extraction and processing of valuable minerals, metals, and other resources from celestial bodies such as asteroids, the Moon, and even planets. While the idea of mining in space may seem far-fetched to some, advancements in space exploration and technology have brought this concept within reach.

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The Promise of Asteroid Mining

Asteroids, rich in precious metals and rare minerals, have become prime targets for space mining endeavors. These celestial bodies, ranging in size from a few meters to several kilometers, hold vast reservoirs of resources waiting to be tapped. Companies like Planetary Resources and Deep Space Industries have spearheaded efforts to explore and exploit these asteroids, envisioning a future where the resources of space fuel innovation and economic growth on Earth.

Lunar Prospecting: Tapping into the Moon's Resources

The Moon, Earth's closest celestial neighbor, presents another compelling opportunity for space mining. Lunar regolith, the layer of loose, fragmented material covering the Moon's surface, contains a wealth of resources including helium-3, a potential fuel for future fusion reactors, and rare earth elements essential for advanced technologies. Organizations like NASA and private lunar exploration companies are actively researching methods to extract and utilize these resources, laying the groundwork for sustained human presence and industrial activity on the lunar surface.

Research Institutions

Academic and research institutions contribute invaluable expertise and resources to the field of space mining. Universities, laboratories, and think tanks conduct fundamental research, develop innovative technologies, and collaborate with industry partners to address the technical, scientific, and logistical challenges of mining in space.

Challenges and Opportunities

While the prospects of space mining are undeniably exciting, the industry also faces a host of challenges and uncertainties.

Technological Hurdles

Developing the necessary technologies for space mining presents formidable engineering challenges. From autonomous robotic systems capable of prospecting and excavation to advanced resource processing techniques, innovators must overcome numerous technical hurdles to make space mining economically viable.

Legal and Regulatory Frameworks

The absence of comprehensive legal and regulatory frameworks governing space mining raises questions about property rights, environmental impact, and international cooperation. As nations and companies vie for access to extraterrestrial resources, establishing clear guidelines and agreements becomes paramount to ensuring responsible and sustainable exploitation of space resources.

Economic Viability

Despite the abundant resources available in space, the economic viability of space mining remains uncertain. High upfront costs, technological risks, and market uncertainties pose significant barriers to investment and commercialization. However, proponents argue that the long-term benefits of space mining, including access to rare resources, expansion of the space economy, and mitigation of Earth's resource constraints, justify the investment and effort required to overcome these challenges.

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Segmentation:

The Global Space Mining Market is segmented by Phase, by Type of Asteroid, and by region/country.

By Phase:

Based on the Phase, the Global Space Mining Market is bifurcated into Spacecraft Design, Launch & Operation – where Spacecraft Design is dominating and ahead in terms of share.

By Type of Asteroid:

Based on the Type of Asteroid, the Global Space Mining Market is bifurcated into Type C, Type S & Type M – where Type S is dominating and ahead in terms of share.

Key Players in the Space Mining Industry

Deep Space Industries

Planetary Resources

Moon Express

I Space

Asteroid Mining Corp.

Shackleton Energy Co.

Kleos Space

Offworld

Space Fab

NASA

ESA

By Geography

North America (U.S., Canada, and Mexico)

Europe (Germany, France, Italy, Spain, U.K., Russia, and Rest of Europe)

Asia Pacific (China, India, Japan, Australia, and Rest of Asia Pacific)

South America (Brazil, Argentina, and Rest of South America)

Middle East & Africa (South Africa, UAE, and Rest of ME&A)

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Conclusion

As humanity ventures ever deeper into the cosmos, the prospect of space mining offers a glimpse into a future where the boundless resources of the universe are within our reach. While numerous challenges lie ahead, the potential rewards of space mining—technological innovation, economic growth, and the advancement of human civilization—underscore the importance of continued exploration and investment in this transformative industry.

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Asteroid Mining Market Size, Trends & Growth, Analysis, Technology and Market Forecasts to 2030.

Global Asteroid Mining Market

Asteroid Mining is known as the exploration of raw materials from asteroids and other minor planets that also includes near-earth objects. These activities have been backbone of human civilization in the development of technology. Mining activities have been carried out since the Bronze Age to meet the requirements of human civilization.

The global asteroid mining market was valued at $712.0 million in 2017 and is projected to reach $3,868.9 million by 2025, growing at a CAGR of 24.4% from 2018 to 2025

Market Drivers

Increase in development of science and technology is key driving factor which is expected to boost the global asteroid mining market growth. Furthermore, increase in government investments and funding as well as ambitions by the government authorities will significantly influence the global asteroid mining market growth over the forecast period. Also, current and growing forthcoming space missions are expected to propel the asteroid mining market growth during this forecast timeline. Moreover, increase in adoption of in-situ resource utilization practice in exploration will fuel the market growth. Over the past few years, the human population has increased from 1.5 billion to more than 7 billion, propelling an ever-increasing demand for resources. Continuous technological advancements coupled with innovations are expected to support the global asteroid mining market.

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Market Restraints

High initial costs associated with Asteroid mining and prospecting missions is the market restraint which is expected to hamper the global asteroid mining market growth. Also, asteroid mining activities creating huge environmental risks which affects space and earth which is expected to limit the market growth over the forecast period. 

Market Segmentation

Global Asteroid Mining Market is segmented into phase such as Spacecraft Design, Launch, and Operation, by asteroid type such as Type C, Type S, Type M, and Others. Further, market is segmented into application such as Construction, Resource Harvesting, 3D Printing, and Others.

Also, Global Asteroid Mining Market is segmented into five regions such as North America, Latin America, Europe, Asia Pacific, and Middle East & Africa. 

Market Key Players

Various key players are listed in this report such as Deep Space Industries, Moon Express, Planetary Resources, Ispace, Asteroid Mining Corporation, Shackleton Energy Company,  Kleos Space, Transastra, Offworld, and Spacefab.Us

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Market Taxonomy

By Phase Spacecraft Design Launch Operation   By Asteroid Type Type C Type S Type M Others

By Application Construction Resource Harvesting 3D Printing Others

By Region

North America

Latin America

Europe Asia

Pacific Middle

East & Africa

 Key Questions Addressed by the Report What are the Key

Opportunities in Global Asteroid Mining Market?

What will be the growth rate from 2019 to 2030?

Which segment/region will have highest growth?

What are the factors that will impact/drive the Market?

\What is the competitive Landscape in the Industry?

What is the role of key players in the value chain?

What are the strategies adopted by key players?

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Commercial Space Market Trends 2023: A Thriving Frontier

Introduction:

The commercial space industry has seen remarkable growth in recent years, and 2023 is poised to be a pivotal year for the sector. With both established players and innovative startups vying for a slice of the cosmic pie, the commercial space market is showing no signs of slowing down. In this article, we'll explore the latest trends that are shaping the commercial space for rent and its industry in 2023.

Increased Investment:

One of the most significant trends in the commercial space market is the influx of investments. Governments, private investors, and venture capitalists are pouring billions of dollars into space-related startups. This surge in funding is enabling the development of groundbreaking technologies, such as reusable rockets, satellite constellations, and asteroid mining projects.

Expanding Satellite Constellations:

Satellite constellations, comprising hundreds or even thousands of small satellites, are revolutionizing the way we access information and communicate. In 2023, we can expect the continued expansion of satellite networks for various applications, including global internet coverage, Earth observation, and environmental monitoring.

Asteroid Mining:

The concept of mining asteroids for valuable resources has moved from science fiction to reality. Several companies are actively working on asteroid mining projects, with a focus on extracting valuable minerals, such as platinum, rare earth metals, and water, which can be used to support future space missions.

Space Tourism Takes Off:

2023 could be the year when space tourism truly takes off. With the successful test flights of commercial suborbital space planes and the upcoming launches of orbital missions, more individuals will have the opportunity to experience space travel firsthand. Companies like SpaceX, Blue Origin, and Virgin Galactic are at the forefront of this industry, with tickets to space becoming increasingly accessible.

Lunar Exploration:

The moon is back in focus for both government space agencies and commercial entities. NASA's Artemis program aims to return astronauts to the moon, while private companies are planning lunar missions to mine resources, conduct scientific experiments, and establish lunar bases. These initiatives are expected to provide a significant boost to the commercial space market.

Regulatory Frameworks:

As office space for rent and commercial space activities increase, regulatory frameworks are evolving to ensure safety, sustainability, and accountability. Governments around the world are working to establish rules and guidelines for space traffic management, debris mitigation, and space resource utilization.

Miniaturization and Efficiency:

Advancements in miniaturization and technology efficiency have led to the development of smaller, more cost-effective satellites and launch systems. These innovations are reducing the barriers to entry for new players in the commercial space market and enabling a broader range of applications.

Space Sustainability:

With concerns about space debris and the long-term sustainability of space activities, 2023 will likely see a stronger focus on environmentally responsible practices. This includes the development of technologies to mitigate space debris, as well as the adoption of sustainable materials and propulsion systems.

Conclusion:

The commercial space for rent in the Chennai market in 2023 is characterized by growth, innovation, and a promising future. As governments, private enterprises, and startups continue to invest in space exploration and commercialization, we can expect to see remarkable developments in satellite technology, space tourism, asteroid mining, and lunar exploration. With the proper regulation and environmental considerations, the commercial space industry is on track to transform the way we interact with and benefit from the final frontier.

Asteroid Mining Market Huge Growth Opportunities and Trends to 2029: Deep Space, Moon Express, ispace

The Global Asteroid Mining market to witness a CAGR of 13.24% during forecast period of 2023-2028. The market is segmented by Application (Construction, Resource Harvesting, 3D Printing, Others) by Type (Type C, Type S, Type M, Others) by Phase (Spacecraft Design, Launch, Operation) and by Geography (North America, South America, Europe, Asia Pacific, MEA). The Asteroid Mining market size is estimated to increase by USD 2978.3 Million at a CAGR of 13.24% from 2023 to 2028. The report includes historic market data from 2017 to 2022E. Currently, market value is pegged at USD 2685.18 Million

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Ongoing and future space missions will help to boost global asteroid mining market globally. It is the exploitation of raw materials from asteroids as well as other minor planets, which also contains near-earth objects. Minerals can be mined from an asteroid or spent comet and then used in space for construction material or can be taken back to earth. The raw material used including gold, iridium, silver, osmium, palladium, platinum, nickel, and aluminum. There is a rise in demand for planets limited resources with growing in the worlds population. This has led to several governments and private enterprises to set their sights on outer space for various resources which are projected to boost the global asteroid mining market.

Space Mining Market by Application and Distribution Channel: Global Opportunity Analysis and Industry Forecast, 2022-2028

Space Mining market was valued at USD 1340 million in 2021 and is expected to reach USD 5090 million by the year 2028, at a CAGR of 21%.

The method of collecting materials and minerals from asteroids and near-earth objects is known as space mining. The similar to earth mining in that it involves the extraction and exploitation of valuable resources and minerals. The only difference is the expense of both, which is incredibly expensive for space mining. However, due to the rapid depletion of resources and the scarcity of these resources on Earth, space mining could be the only viable choice for mineral and material exploration. Space mining refers to the extraction of useful and precious raw materials from minor planets or asteroids, such as gold, iridium, silver, palladium, osmium, platinum, rhodium, rhenium, ruthenium, and tungsten, as well as iron, manganese, and cobalt. The aim of space mining is either to provide building materials in space or to carry extracted material back to Earth for technical and economic development. The current pandemic has affected almost all industry verticals across the world. The space mining market has been influenced by the restrictions imposed during the pandemic phase.

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The research study includes an examination of many aspects that contribute to the market's expansion. Market trends, restrictions, and drivers that have a favorable or negative influence on the market are included. This section also discusses the many businesses and applications that may have an impact on the market in the future. The information is based on both recent and historical patterns. The cost structure, market size, Space Mining Sales, Gross Margin and Market Share, Price, Revenue, Size, Forecast, and Growth Rate are all calculated in the report.

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Key Industry Players in Space Mining Market:

·         Bradford

·         Ispace

·         Kleos Space S.A.

·         Moon Express

·         Planetary Resources

·         Spacefab.Us

·         Sierra Nevada Corporation

·         Offworld

·         Virgin Galactic

·         Deep Space Industries

·         Asteroid Mining Corporation

·         Shackleton Energy Company

·         TransAstra

·         National Aeronautics and Space Administration

·         European Space Agency

·         Japan Aerospace Exploration Agency

·         China National Space Administration

·         Russian Federal Space Agency

·         Asteroid Mining Corporation Limited and other major players.

Space mining is that the process of excavation of materials and minerals from asteroids and near-earth objects. the aim of space mining is analogous thereto of earth mining, exploitation and excavation of precious materials and minerals. The main difference is that the cost involved for both which is extremely expensive for space mining, but due to the rapid decline in resources and these resources becoming progressively scarce on earth, space mining might be the sole viable option for the excavation of minerals and materials.

Segmentation Analysis Includes,

By Type:

·         Type C

·         Type S

·         Type M

By Phase:

·         Spacecraft Design

·         Launch

·         Operation

By Application:

·         Extraterrestrial Commodity

·         Construction

·         Human Life Sustainability

·         Fuel

·         3D Printing

By Region:

·         North America (U.S., Canada, Mexico)

·         Europe (Germany, U.K., France, Italy, Russia, Spain, Rest of Europe)

·         Asia-Pacific (China, India, Japan, Singapore, Australia, New Zealand, Rest of APAC)

·         Middle East & Africa (Turkey, Saudi Arabia, Iran, UAE, Africa, Rest of MEA)

·         South America (Brazil, Argentina, Rest of SA)

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·         The report of the Space Mining company gains a truly global perspective with the most comprehensive report available on this Market covering colorful topographies, current happenings, and upcoming opportunities.

·         The Space Mining Market report analyzes important functional and performance data so one may compare them to their own business, the businesses of their guests, or the companies of their rivals.

The pandemic has had a great impact on the Space Mining Market. It shook businesses and stock markets across the globe had to act in handy and give in immediate responses considering the COVID-19 obstacles. The COVID-19 Epidemic has hyped up the reality and has drastically affected the fiscal and experimental criteria of the Space Mining Market. The Space Mining Market report emphasizes the assignments and comminations that COVID-19 left for businessmen and judges to learn and get prepared for forthcoming rigors.

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The Space Mining Market exploration report throws an enhanced and profound understanding of the Market and its factors. The Space Mining Market is surely enduring numerous grueling tests due to the emergence of new challengers in the Market. The Space Mining exploration report is an expansive study that focuses on overall consumption patterns, development trends, deals numbers, and provident heads in crucial countries of the Space Mining Market.

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Space mining Market 2023 - Technological Growth, Industry Status, Trends, Demand and Forecast to 2030

Through its comprehensive report Space Mining Market, Brainy Insights provides an in-depth study of the current state & significant drivers of the given market. The records are formed with the help of incorporating scientific & systematic research procedures. The investigation of the regions & segments consists of looking at the industry from both microscopic & macroscopic levels, which is determined with the help of bottom-up & top-down approaches. The record delves first into the foundation of the global Space Mining Market by looking at categories, definitions, and industry overview.

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Further, the strategy of expansion has been adopted by key participants who are raising their production abilities to cater to the rising demand for different applications. The record covers vital developments in the global Space Mining industry as inorganic & organic growth strategies. Multiple companies are concentrating on inorganic growth approaches that were witnessed in the industry: collaborations, acquisitions, and partnerships. The organic growth approaches like product launches, product approvals, and others, such as patents & events. These activities have paved the path for expanding the industry & consumer base of industry participants. The third integrant is profiling different major & mid-performing vendors present in the global Space Mining industry. Customization of the report is done as per the needs of the customers.

Market Summary:

• On the basis of the type, the market has been bifurcated into

Type C (Chondrite)

Type S (Stony)

Type M (Metallic)

• Based on the application / end users, the market has been divided into

Water

Platinum Group Materials

Structural Elements

Top Leading Companies:

Ispace, TransAstra, Asteroid Mining Corporation, OffWorld, Shackleton Energy Company, Moon Express, Planetary Resources, Kleos Space, SpaceFab.US, Bradford

This worldwide Space Mining Market research/analysis report contains answers to the following questions:

• What was the worldwide market status of the Space Mining market?

What was the production value, capacity, cost, and profit of the Space Mining industry?

• What is worldwide Space Mining market chain investigation by upstream raw materials & downstream enterprises?

• What is the current worldwide Space Mining industry status of the Space Mining market?

What’s global Space Mining industry competition in this enterprise, both company, and country-wise?

What’s the industry analysis of the Space Mining market by taking applications & types into consideration?

• What are the market dynamics of the global Space Mining market?

What are the opportunities & challenges?

• What are the key consequences of the five forces investigation of the worldwide Space Mining market?

• What should be entry strategies, countermeasures to economic influence, and marketing channels for the global Space Mining market?

• The global Space Mining market share, supply, and consumption will be?

What about import & export?

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Global Asteroid Mining Market Latest Trend, Huge Demand, Top Key Players, Driving Factors and Region Analysis Report

Global Asteroid Mining Market

Asteroid Mining is known as the exploration of raw materials from asteroids and other minor planets that also includes near-earth objects. These activities have been backbone of human civilization in the development of technology. Mining activities have been carried out since the Bronze Age to meet the requirements of human civilization.

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Increase in development of science and technology is key driving factor which is expected to boost the global asteroid mining market growth. Furthermore, increase in government investments and funding as well as ambitions by the government authorities will significantly influence the global asteroid mining market growth over the forecast period. Also, current and growing forthcoming space missions are expected to propel the asteroid mining market growth during this forecast timeline. Moreover, increase in adoption of in-situ resource utilization practice in exploration will fuel the market growth. Over the past few years, the human population has increased from 1.5 billion to more than 7 billion, propelling an ever-increasing demand for resources. Continuous technological advancements coupled with innovations are expected to support the global asteroid mining market.

High initial costs associated with Asteroid mining and prospecting missions is the market restraint which is expected to hamper the global asteroid mining market growth. Also, asteroid mining activities creating huge environmental risks which affects space and earth which is expected to limit the market growth over the forecast period.

Market Segmentation

Global Asteroid Mining Market is segmented into phase such as Spacecraft Design, Launch, and Operation, by asteroid type such as Type C, Type S, Type M, and Others. Further, market is segmented into application such as Construction, Resource Harvesting, 3D Printing, and Others.

Also, Global Asteroid Mining Market is segmented into five regions such as North America, Latin America, Europe, Asia Pacific, and Middle East & Africa.

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Market Key Players

Various key players are listed in this report such as Deep Space Industries, Moon Express, Planetary Resources, Ispace, Asteroid Mining Corporation, Shackleton Energy Company, Kleos Space, Transastra, Offworld, and Spacefab.Us.

In the global asteroid mining market report is the first hand information is provided of which qualitative & quantitative valuation is completed manly by the industry analysis. The research is done on the parameters of SWOT analysis as well as Porter’s Five Force Model. The latest inputs from industry experts & participants who have a keen focus on a value chain of the target market worldwide. Moreover, the report encompasses in-depth analysis of parent market its trends, macro-economic indicators, and governing factors along with market attractiveness based on segmentation. The research procedure divided into primary & secondary researches, and with the help of it, a better understanding of the global asteroid mining market is done.

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New Space / Commercial Space Market - Forecast (2022 - 2027)

The Global New Space/Commercial Space market size is forecast to reach $23.6 billion by 2026, growing at a CAGR of 11.2% from 2021 to 2026. The market growth is attributed to technological advancements creating demand for more cost-effective space operations. Moreover, the expansion of private investment from new space investors has been also positively impacting the growth of new space/commercial space market. Rapid evolution of space sector overtime have eventually raised the transformation bar in space ecosystem, driving more space related exploration and research activities, which in turn also impact its market growth. In addition, emerging space economy is increasingly dependent on data with varied impacts on space technologies as well as markets along with military or strategic innovations around space and others is set to drive the market forward in the long run.

Report Coverage

The report: “New space market– Forecast (2020-2026)”, by IndustryARC covers an in-depth analysis of the following segments of the New Space market.

By Equipment Type: Communications Satellites, Earth Observation Satellites, Launch Vehicles, Others.

By Solution Type: Satellite IOT, Communications, Geospatial solution, Others.

By Application: Navigation/Agriculture, Surveillance, Earth Environment Monitoring, Space Tourism, Asteroid Mining, Others.

By End Users: Civil, Commercial and Military.

By Geography: North America (U.S, Canada, Mexico), Europe (Germany, U.K, France, Italy, Spain, Others), APAC (China, Japan India, South Korea, Australia and Others), South America (Brazil, Argentina, Others) and ROW (Middle East, Africa).

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Key Takeaways

Satellite IoT segment is analyzed to witness the fastest growth in the new space/commercial space market during 2021-2026, due to growing development of IoT based satellites.

Military sector will grow with the highest CAGR during the forecast period 2021-2026, due to military investments on space exploration.

North America had accounted for the largest share in 2020, due to growing demand for small satellites, rise of space observation mission and others.

New Space/Commercial Space Market Segment Analysis - By Solution Type

Satellite IOT segment is anticipated to grow with the highest CAGR of around 7.5% in the global new space/commercial space market during the forecast period 2021-2026. Satellite IoT facilitate surveillance of the environment, agriculture, maintenance of public utilities and many others relevant to remote sensing within a large area. Availability of low-cost and low-power global networking would also help in increasing the overall number of linked sensors, thus improving precision of data-based predictions and developments in a variety of global environmental, social, manufacturing, agricultural and logistical applications. A new wave of start-ups exploring recent developments in smaller satellite technology which offer low-cost, low-power access would challenge traditional satellite providers, aiding its market growth. IoT-focused satellites can be a great way to improve profitability, especially in relation to the rising broadband and satellite communications market. Some of the companies in the upstream satellite IoT market include OQ Technology, Astrocast, Kineis, Hiber, and many more. In 2019, Quilty Analytics had revealed about two dozen companies seeking to enter the satellite IoT market in the coming time, including both new entrants as well as incumbent players like Iridium Communications, Inmarsat, Globalstar and Orbcomm. In March 2020, Eutelsat announced about its plans of developing a nano satellite IoT constellation on the same side, set to be launched between 2021 and 2022. This will further help in serving emerging space economy advancements, driving its market growth in the long run.

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New Space/Commercial Space Market Segment Analysis - By End Users

Military sector is analyzed to witness the fastest growth in the global new space/commercial space market with the highest CAGR of around 6.3% during 2021-2026. Rise of military security threats have been eventually raising the need for increasing satellite communication services as a part of ensuring intelligence, surveillance and reconnaissance application areas. This further add up to the demand towards space crafts, launch missiles and many others in order to improve service and security standards within the military & defense sectors. Moreover, defense or military organizations support deployment of different types of satellites including communication satellites, surveillance satellites and many others towards tracking or monitoring of future security threats, thereby impacting the growth of new space/commercial space markets. In May 2021, the government of United Kingdom had revealed about a space program plan for its military towards investing on new technologies with a major focus on increasing space capabilities. Through this program, responsive launched small satellites in low earth orbit constellation will be adopted ensuring direct utility for the war fighters, causing faster response and resilience of the space networks. Such factors are further set to assist the growth of new space/commercial space market in the coming time.

New Space/Commercial Space Market Segment Analysis - By Geography

North America region had dominated the global new space/commercial space market in 2020 with a share of 33%, and is analyzed to witness a significant growth during the forecast period 2021-2026. Growing demand towards commercial communication or satellite imaging services, collaborative efforts from government and private sector towards space exploration projects have attributed towards the growth of new space/commercial space market in the region. Increasing demand for small satellites, rise of interplanetary space observation missions as well as investments on launch missiles, spacecraft and related space equipment to improve space ecosystem have also helped in boosting its market growth overtime. In addition, strong support for start-up firms from U.S government over the years, with SpaceX being the most prominent, through awarding with NASA launches have also helped in driving new space prospects in the region. Well-known venture capital firms including Sequoia, Khosla Ventures, RRE Ventures and others have invested in several promising companies such as Earth, Orbital Insight, and Spire in American New Space, as a part of uplifting the bar in exploring as well as designing accessible space technologies. In June 2021, the U.S Space Force announced about setting up an office in order to assess and secure commercial services ranging from traditional satellite communications to satellite imagery, further impacting the market growth of new space/commercial space.

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New Space/Commercial Space Market Drivers

Evolution of small satellites

Emergence of smallsats, a satellite which weights as much as a few hundred pounds anywhere from one ounce, act as a major driver for the market growth of new space/commercial space. Usually, satellites weighing about 1 and 10 kg are made with off-the-shelf components and assembled in only a couple of days, thus lowering the entry barrier complexities, scheduling as well as cost viewpoint for commercial companies. This in turn help in pushing a new paradigm led by private corporations dedicated towards making space more available and inexpensive for non-governmental and military organizations. In November 2020, the Indian Space Research Organization (ISRO) had revealed about its plans of gearing up the launch of small satellite launch vehicles utilizing satellites which weight less and have limited launch options. This small satellite evolution towards meeting the needs of emerging global small satellite launch services market, will further drive the growth of new space/commercial space market.

Growing investments from public as well as private firms

While private equity projects have captured most of the headlines in recent years, interest in the public sector have also increased significantly. In August 2019, Trump Administration had established a U.S. Space Command as a part of increasing U.S. military capabilities in space. Additionally, in May 2020, NASA announced about launching a manned flight to the International Space Station on a commercially developed rocket, making it the first time after U.K’s shuttle programme withdrawn in the year 2011. This further remarks a significant landmark in the collaboration between private enterprise and government in the area of space, thus aiding the market growth towards new space/commercial space.

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New Space/Commercial Space Market Challenges

Regulatory barriers

Global regulatory barriers or conditions remain a significant challenge for businesses seeking to launch or have assets launched into space, irrespective of active technical progress and a momentum for privatization in the post-SpaceX age of developing space markets. Operating licences for LSPs (Launch Services Programs) remain a sluggish process and laws being not yet in effect to support new modes of service. The lengthy delays required to gain regulatory approval have been adversely impacting the development of space companies. The S2E (Service-to-Employee) section, especially for spacecraft without de-orbiting capability, may be further affected by new space debris regulations. This is poised to hamper the new space/commercial market growth in the long run.

New Space/Commercial Space Market Landscape

Partnerships and acquisitions along with product launches are the key strategies adopted by the players in the new space/commercial space market. The top 10 new space/commercial space companies include Blue Origin LLC, Masten Space Systems, Stratolaunch LLC, Virgin Galactic, XCOR Aerospace, Inc., Space Exploration Technologies Corp. (SpaceX), Northrop Grumman Corporation, ORBCOMM Inc., Orbit International Corporation and Orbital Sciences Corporation (Orbital ATK) among others. 

 

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Unveiling the Growth Trajectory of the Commercial Rocket Market

Introduction

The space industry has historically been dominated by government agencies, with space exploration and satellite launches primarily conducted by organizations such as NASA, ESA, and Roscosmos. However, in recent years, there has been a notable shift towards commercialization, with private companies playing an increasingly prominent role in the sector. This transformation has given rise to the commercial rocket market, which encompasses the development, manufacturing, and operation of launch vehicles for a variety of purposes, including satellite deployment, space tourism, and commercial space activities.

According to the study by Next Move Strategy Consulting, the global Commercial Rocket Market size is predicted to reach USD 25.6 billion with a CAGR of 13.9% by 2030.

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Current State of the Commercial Rocket Market

The commercial rocket market has experienced significant growth in recent years, driven by several key factors. One of the primary drivers of market expansion is the increasing demand for satellite launches. The proliferation of communication satellites, earth observation satellites, and navigation satellites has created a burgeoning market for launch services. Private companies such as SpaceX, Rocket Lab, and Arianespace have capitalized on this demand by offering cost-effective and reliable launch solutions tailored to the needs of satellite operators.

Furthermore, the emergence of space tourism as a viable market segment has further fueled the growth of the commercial rocket market. Companies like SpaceX, Blue Origin, and Virgin Galactic are pioneering efforts to make space travel accessible to private individuals. As these companies continue to develop and commercialize reusable launch vehicles, the cost of space tourism is expected to decrease, opening up new opportunities for market expansion.

Additionally, the commercialization of space extends beyond satellite launches and tourism. There is a growing interest in utilizing space resources for commercial purposes, such as asteroid mining and space-based manufacturing. Companies are actively exploring the feasibility of these ventures, laying the groundwork for new revenue streams and market opportunities.

Market Dynamics and Trends

Several key trends are shaping the trajectory of the commercial rocket market. One notable trend is the increasing focus on reusable launch vehicles. Traditionally, rockets have been designed as expendable systems, meaning they are only used for a single launch before being discarded. However, reusable launch vehicles have the potential to significantly reduce the cost of space access by allowing rockets to be recovered and refurbished for future missions. Companies like SpaceX have made significant strides in this area, successfully landing and reusing the first stage of their Falcon 9 rockets multiple times.

Another trend driving market growth is the miniaturization of satellites. Advances in technology have enabled the development of smaller, more lightweight satellites known as CubeSats and SmallSats. These satellites are cheaper to manufacture and launch, making them an attractive option for a wide range of applications, including Earth observation, communications, and scientific research. As the demand for these smaller satellites continues to grow, there is a corresponding increase in demand for launch services capable of deploying them into orbit.

Furthermore, regulatory reforms are also playing a significant role in shaping the commercial rocket market. Governments around the world are revisiting outdated space regulations to foster innovation and investment in the sector. Initiatives such as streamlined launch licensing and the establishment of spaceports are creating a conducive environment for commercial space activities to flourish.

Challenges and Opportunities

Despite the promising outlook, the commercial rocket market is not without its challenges. Technical hurdles, such as ensuring the reliability and safety of launch vehicles, remain a primary concern for industry stakeholders. The failure of a single launch can have far-reaching consequences, including financial losses and damage to reputation. As such, companies must invest heavily in research and development to mitigate these risks and ensure the success of their missions.

Moreover, geopolitical tensions and market competition pose additional challenges to market growth and stability. The space industry is highly competitive, with numerous companies vying for market share and lucrative contracts. This intense competition can lead to price wars, undercutting profit margins and stifling innovation. Additionally, geopolitical factors such as trade disputes and international sanctions can disrupt supply chains and impede market access, further complicating matters for industry players.

However, amidst these challenges lie significant opportunities for growth and innovation. The continued expansion of the commercial satellite market, fueled by advancements in technology and increasing demand for connectivity, presents a wealth of opportunities for launch service providers. Furthermore, the nascent space tourism industry holds immense promise, with the potential to become a multi-billion-dollar market in the coming years. As companies continue to innovate and expand their capabilities, the commercial rocket market is primed for transformational change.

Expanding into new markets beyond low Earth orbit (LEO) presents another avenue for growth in the commercial rocket market. While LEO has been the primary focus for satellite launches and space tourism, there is increasing interest in missions to higher orbits, such as geostationary orbit (GEO) and beyond. These missions require more powerful launch vehicles capable of carrying larger payloads over greater distances, presenting an opportunity for companies to develop and commercialize new technologies.

Additionally, the emergence of mega-constellations, such as SpaceX's Starlink and OneWeb, is driving demand for dedicated launch services capable of deploying hundreds or even thousands of satellites into orbit. These constellations aim to provide global broadband internet coverage, revolutionizing connectivity on a global scale. Launch service providers that can offer reliable and cost-effective solutions for deploying mega-constellations will be well-positioned to capitalize on this growing market segment.

Furthermore, advancements in space manufacturing and in-orbit servicing are opening up new opportunities for commercial activities in space. Companies are exploring the feasibility of manufacturing products in microgravity environments, leveraging the unique properties of space to create materials and products with enhanced properties. In-orbit servicing missions, such as satellite repair and refueling, offer potential cost savings and prolong the operational lifespan of existing assets in space.

Moreover, partnerships and collaborations between government agencies and private companies are driving innovation and investment in the commercial rocket market. Initiatives such as NASA's Commercial Crew Program and Commercial Lunar Payload Services (CLPS) are providing opportunities for companies to develop and demonstrate new technologies for space exploration. By leveraging government expertise and resources, private companies can accelerate the development and commercialization of new capabilities, fostering growth and competitiveness in the industry.

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Furthermore, advancements in propulsion technologies, such as electric propulsion and nuclear thermal propulsion, hold the potential to revolutionize space travel and exploration. Electric propulsion systems offer greater efficiency and endurance compared to traditional chemical rockets, making them well-suited for long-duration missions to distant destinations such as Mars and beyond. Similarly, nuclear thermal propulsion systems promise faster transit times and increased payload capacity, opening up new possibilities for crewed missions to the outer planets and beyond.

In conclusion, the commercial rocket market is on the cusp of a new era of growth and innovation, driven by increasing demand for satellite launches, space tourism, and commercial space activities. By capitalizing on emerging trends and technologies, companies can position themselves for success in this dynamic and rapidly evolving industry. With continued investment and collaboration, the commercial rocket market has the potential to revolutionize space exploration and unlock new opportunities for economic growth and scientific discovery.

Conclusion

In conclusion, the commercial rocket market is poised for exponential growth in the coming years, driven by increasing demand for satellite launches, space tourism, and commercial space activities. As private companies continue to innovate and expand their capabilities, the industry is experiencing a paradigm shift, with new players entering the market and traditional boundaries being redrawn.

However, navigating the complexities and uncertainties inherent in the space sector will require strategic foresight and collaboration among industry players, policymakers, and regulators alike. By addressing key challenges and capitalizing on emerging opportunities, the commercial rocket market is poised to become a cornerstone of the global space economy, unlocking new frontiers of exploration and discovery for generations to come.

@androfem​ has made a number of good posts about transmisogyny, addressed to a milieu I’m very glad not to be part of anymore. I wanted to run off of something they wrote in this one...

[2.5k words. transmisogyny, racism tw. epistemic status: Hawkeye Gough]

while hedging an argument in the second paragraph, they write “i’m by no means someone who can definitively say what tme/tma mean” (thus preparing us to hear a definition but to treat it as nondefinitive), but that they see the acronym ‘tme’ (’tranmisogyny exempt’) as “the most palatable attempt trans women and transfem nb people have made towards identifying whether other trans people are one of them or not, and other trans people communicating that as well voluntarily.” By palatable they mean to other people in their milieu, who they spend the rest of the post attacking over the reasons they found all the other terminology (casab etc.) unpalatable. Their criticisms are all quite good.

But - am I crazy, or, aren’t they wrong in this quote? The way I remember it, trans women did not come up with the term ‘tme’. This was something that tme people came up with themselves. The use of tme would eventually become imbricated with the disuse of casab, under the argument that casab requires you to ‘out’ yourself, and so on, which was its own controversy. But originally it wasn’t related to this reservation or at least I never experienced the two as connected. tme was something that, to us, came out of nowhere; it was something like an alien bacteria penetrating the atmosphere from the belly of an asteroid; it woke us up to a whole neighbouring discourse that we were unaware of. That neighbourhood was made up of cis women, trans men, and nonbinary cafabs who were beginning to grapple with the ‘transmisogyny question’. At the time, most people did not take the concept of ‘transmisogyny’ seriously; many people still believed that trans women had male privilege and so on. It was a huge surprise to us to find a whole emerging discourse of non-trans women who believed transmisogyny was real and took it seriously enough to invent their own terminology for describing it.

It’s possible you can trace the coinage to some trans woman somewhere. But at least, at the time that we encountered it, we understood it to be the self-description of non-trans women. A lot of trans women at the time reacted very negatively to this. One of the main criticisms was that tme was not a ‘coherent category’ - could we say that it tries to be too definitive, ie. a definition that overapplies? The anxiety was that it would collect the experience of subjects which cannot rightly be put together; trans men, cis women, cafabs, whoever else, do not all experience patriarhcy(!) in the same way. They all have different proximities to misogyny, emotional labour (when you were still allowed to say that), access to community, sexual access & availability, and so on. Later or earlier, I don’t remember, this same discursive device would be used by trans women against casab; we were derided for “treating casab like a coherent class.”

Androfem may be surprised to learn that this criticism orginates with trans women, if they weren’t there for this. The gesture returns, later on in their post, when they chastise others in their milieu for reading trans women’s arguments in bad faith. They caution that “the assumption shouldn’t be made that [a transfem is] completely unaware of or in denial about” all of the various nuances of proximity whenever she says “definitively” (emphasis mine) that “tme people aren’t affected by transmisogyny”. At this point, the taboo on definitions reaches a delerious extreme - Androfem’s peers take issue even with this tautology! And the solution Androfem proposes is not to take the claim seriously, but to secretly insert something that disrupts it, imagine some inapplicable cases, and so on, and, further, to assume that she is also doing it behind the scenes. Androfem identifies this obsurantism with transmisogyny; their peers cannot bear to take a trans woman seriously, so they will always send her work back and demand a new more palatable analysis. And we trust they are right to make this diagnosis; but this trans woman experiences it as the terrible return of her own native discourse. What we sowed in 2012 they now reap in 2021.

Why has this discourse progressed to such an epistemologically vicious place, where no statements about gender are possible? Baudrillard would enjoy watching our transsexuality become transpolitical. For whatever unconscious reason, whenever we are presented with a master signifier capable of rendering the transcendental field, we are immediately compelled to castrate it. Our destiny is to constantly throw discourses into indifference. Maybe. But the more direct lesson is that something went wrong with the method of analysis we employed to explicate transmisogyny in 2012. What went wrong?

Maybe we can begin with some statements in Androfem’s post and work backwards. They write that “tme people benefit ... from transmisogyny”, although they insert in parenthesis “(some more than others)”. This was an analysis we would have subscribed to in 2012. In 2021, we now want to ask: who benefits and in what way? Who benefits more, who less, and why?

It’s true that transmisogyny brings some profit. Growing up as trans girls we are often deployed as women are deployed; we become the older sister, surrogate mother, and secret girlfriend. Whenever our peers see us in the correct light and notice our softness (to borrow a Saxon term), they exploit it. For boys the profit derives primarily from our socially acceptable proximity in the enforced homosociality that children in our culture endure. The trans girl is a girl who you can have sleepovers with, who you can have in the boys locker room, and so on, and therefore have early sexual and emotional access to. Girls generally exploit it a little later on, when heterosexual relations are expected. The trans girl can be a special kind of boy, like a ‘gay best friend’, but who is sexually available. Both boy and girl cast their brief teenage becomings on their own special gendered Other who is capable of facilitating it by her difference. Contra Balzac, it is precisely her castration that allows her to function as a superavailable Other, not (yet) as an overproximate Same that makes us recoil.

This relation of the tme to trans women dominates in the Bay Area of California, where trans women have resumed some of our traditional roles as temple functionaries. You probably have some homeless or recently homeless or about-to-be homeless trans woman (lets say she is ‘having to be homeless’) in your overcrowded apartment who will always be there to help you process your gender feelings and is probably down to fuck if you can get over yourself and make a move on her.

But these wages of transmisogyny are transitory and marginal. While most trans women will have encountered some of these kinds of exploitative gendered relations, it is by no means a universal experience of tme people. And, whats more, it is possible to have these relations, with the same benefits, which are not exploitative. I have known many cis girl-trans girl couples who got together under the bonds of enforced heterosexuality because of the profit each had for the other - the trans girl is not threatening, better about her boundaries, and so on, perhaps because of her own experiences of sexual exploitation; the cis girl, for equally contingent reasons, just ‘gets it’, and doesn’t try and make a man out of the trans girl - and when the trans girl realizes she is trans and comes out to her partner, the two track an escape route from heterosexuality together. There is no reason to expect it to always go one way, exploitative, or always the other, emancipatory. Is the cis girl ‘benefitting from transmisogyny’ in this scenario? Is she perhaps benefitting less than others, or more than others? I think that we cannot easily analyze every relation between person and person in terms of cost and benefit; even when we are bound by structures of domination, we cannot already anticipate the outcome. At the same time, if such experiences are rare, we aren’t surprised, because we know that the desiring-situations are staged in a certain way that makes discovering these kinds of escape routes difficult.

But simaultaneous with these occasional benefits, 1. transmisogyny is usually damaging to a trans woman without bringing any profit to her persecutor, and 2. transmisogyny is usually damaging to a tme person as well. Don’t you think so? Superficially, it acts as a limit on your presentation; all cis men growing up experience limits on their behaviour, backed by punishments, to prevent or destroy whatever might seem transsexual in them. Maybe it plays a similar role in the upbringing of cis women, trans men, cafabs, etc., in ways that are waiting to be articulated? On a deeper level, transmisogyny - as the hygeine of gendered categories, the social governance of presentation, etc. - plays a crucial role in the overall desiring-situation of oppressive heterosexuality; it creates a series of taboos, anxieties, myths and harsh realities which, in some indirect way, help to maintain heterosexuality’s renewal in each successive generation.

I think some harm was done by a too-ready application of frameworks developed to analyze white supremacy to the question of gender. The progressive leitkultur in those days was still the ‘invisible napsack’. While for transmisogyny the benefits are merely occasional, there are universally accessible wages of whiteness. White people enjoy a distorted labour market; the deterritorialization of black neighbourhoods creates (barely) affordable apartments for (eg.) white students [the scenario with the Oakland enaree we described implicitly takes place in one of these apartments]; and, most generally, there are habits of prosociality between white people which are difficult to break that continually renew the same distribution of wealth, status, care and intimacy [Eldridge Cleaver referenced Harry Golden’s gag about ‘vertical integration, horizontal segregation’ (pg 67) as a good description of race relations in Folsom; we find it to be a good description of race relations in the trans community as well].

When we tried to apply these readymade frameworks to transmisogyny, we found it difficult to construct relevant categories. Transmisogyny could not be domesticated to a form of exploitation metaphorized in economic terms. Therefore, every further demand for a ‘materialism’ that could clearly enumerate the relationships of exploitation would be frustrated, finding only edge cases and anecdotes. There was no underlying machinery that always produced this or that outcome. Therefore, each category was “incoherent”, too definitive, unable to capture what we took for an underlying system that was just out of reach. But the problem was only a misplace of focus. Transmisogyny is not really a system of exploitation; it’s the nightmare of a patrilineality that cannot enforce its borders. It is necessary therefore to move beyond categories like oppression and privilege, bigot and victim, exploited and exploiter, and deal with the domination that captures both ‘tme’ and ‘tma’ in its ruses. Now we can answer some of the old warhorses; CASAB is not a class which we can say anything about, nor is tme or even tma; it is rather the residue of a paternal subjugation, a ‘weight of dead generations’ that everyone confronts moments upon their exit from the womb; a universal coercive sexuation which we cannot help but encounter, combat or obey, enforce on others and despair in our private moments. Everyone, everywhere, is aware of the problem; and the exit is waiting, somewhere, as yet undiscovered, for anyone to seize.

So much for the riddle of 2012. In 2021 the situation is not really the same. Androfem’s milieu were not socialized by anti-revisionist parties and do not metaphorize their experiences in economic terms. Their platform is a sort of legalism. They enter into a discourse which has been a continuous bloodbath for twelve years (the relevant year for them is not 2012 but 2009, and the website not tumblr but wordpress); every discussion has already been had; what is necessary now is only to enforce the common law precedent. They are obliged to accept the existence of transmisogyny because it was already accepted before they got there; they don’t really understand why and are not curious about it. They are not gender abolitionists, but inclusionists. If they had lived thirty years ago they would probably have been exclusionists and thirty years before that, inclusionists again. Every conversation begins with some pious disavowal, ‘I can’t believe we’re having this conversation again...’ Everything has already been tabulated in their stare decisis; asexuals are not lgbt, queer is a slur, cottagecore is colonialist, and so on. What motivates them is primarily some irrelevant triviality like whether this or that fanfiction is normalizing abuse or whatever. It is thus easy to see why Androfem argues that the old taboo on being definitive is transmisogyny; in their milieu it is a strategy for rendering the anti-transmisogyny laws unenforcable. If the law is ever invoked there is a loophole; look here, you missed this nuance...

Much of that milieu - from my own experience with it - is dominated by TERF cults that essentially run friend groups as front organizations; they start off siccing teenages on each other over shipping drama and soon encourage mobbing trans women undesirables. These networks were active on wordpress in 2009, they were on tumblr when I joined in 2012 (where they were able to leverage irl connections to intimidate members of my friend group who were organizing), and they are running discord servers and stalking tumblrs here in 2021. [If anyone from that scene is reading this far and this sounds at all familiar to them: I’m sorry but, yeah, you’re in a cult. You’re better than this! The fandom drama commentariat is not really worth trying to reform. Sauve qui peut!]

These are normally crypto-TERFs who are ‘officially’ inclusive of trans women and, in fact, their friend-group cults are usually full of trans women. Trans women, we have to say, make the most ruthless transmisogynists. To this extent we must disagree with Androfem when they say that “the smallest demographic in [TERF] communities are transfems”; in my experience transfems have sometimes been the most numerous, and it is precisely because TERFs are organized around transmisogyny. The reasoning behind this paradoxical outcome is understandable only in terms of dianetics and thetan space operas.

Anyway. I have sometimes felt that transmascs need some kind of Prince of their own; someone who is able to articulate his own transsexual line of critique in the face of trans women’s well-known and well-settled one, but with the minimum amount of ressentiment; who can hold his own against transfeminine parochialsm and not cave to cheap attacks, but also not make them, and not become parochial himself. I think that ‘tme’ is at its most valuable as an organizational principle when only someone like Androfem can “definitively” articulate it. It has to be a space for tracking the escape from my own desiring-situation on my own terms, in my own style, by my own design; bathed in my own light... But to be capable of accomplishing this it needs to become a break with all previous discourses. One that is open, flexible, and forward-looking; a dangerous gambit which is definitive and unprecedented...

More on S.P.A.N.C.C

'Individually the companies were formidable. Together they were unstoppable. A coalition of monopolies that eventually managed complete supremacy.' The companies formed their coalition in 2040. S.P.A.N.C.C earned favour by strategically selling products and services to a global market. From AI tools, to military tech, to vaccines, cures and sustainable energy resources. Their biggest funds came from commercial space flights. The profits of which went into an asteroid mining project and building a research centre on the moon. By 2050 they established a small Lunar colony for research purposes. By 2080 the colonies were expanded to accommodate people. S.P.A.N.C.C gained more influence by demanding more access to land and access and threatened trade withdrawals of now coveted and essential resources, if they were not met. Eventually, U.N and S.P.A.N.C.C joined hands to form the Global Confederate and this further cemented their hold. Over the next few years, carbon emissions dropped. Civil wars were interrupted. Education standards and outreach improved. True globalization was envisioned and somewhat realised. Their total take over started with standardizing education, training of the protective services and eventually law, order and politics. With globalized cryptocurrency conversion - They gained stability and essentially monopolized the development of the world. Their philosophy is individuality amidst a united world citizenry. The details about the individual companies aren't too relevant to the drabbles. Once again, it is an attempt to show the good and the bad. It can also help to know the nuances of where some of my characters are going to work/study and what their jobs entail. Apart from that, I spent way too much time on this for some inexplicable reason, and so, I must share it. A slightly scroll-y post below the cut, because it features some art of the company runners!

Here is a collage of sketches for the folks that run the companies of S.P.A.N.C.C. I am learning by tracing and editing very particular photos of what I consider to be ‘face-claims’ for my characters. They’re peripheral characters that’ll feature in my content occasionally.

Vega Tevel, Fang Pyxis, Maya Chara.

Izar Achernar, Wezen Franz, Cepheus Cygnus.

More about the companies:

Scutum

Started in: 2031 Run by - Vega Tevel In charge of: [Money, governance, borders, conflict-resolution, law and order.] Details: Force Continuum establishment. Space laws. Dealing with criminals. Border control. Justice System. Sectorization application. Rehabilitation facilities. Policy establishment. Training for Amity Enforcers. Unsavoury/Illicit things: Unverified ties to the management of Nexus and Bloody Blitz. Power Abuse. Excuses to kill competition.

Pyxis

Started in: 2034 Run by: Fang Pyxis In charge of: [Nanotechnology hardware and software] Details: Management of Xyrints cryptocurrency, Augmented Reality, User Interface and basic applications for SmartChip. Universal real-time translating interface (URTTI), Studies for better AI design. AI support+Recreational AI designs. Tech Security. AI support. AI driving. XPshare platform [Complete sensory data from SmartChips uploaded to a server] Unsavoury/Illicit things: SmartChip data mining, SmartChip Overriding. Malicious Applications. Deliberately addictive AR experiences. Unverified rumours online platforms and untraceable software/user interface supplied to host Nexus and Bloody Blitz virtually.

Auriga

Started in: 2033 Run by: Maya Chara In charge of: [Space tech, energy and mechatronics] Details: Nuclear Reactor energy. Solar Energy. Space Tethers. Asteroid Mining. Space tourism and colonies. Bullet trains - Faster aircrafts. Weapon customization. Faster transport. Mechatronics (Mechas and Drones). Unsavoury/Illicit things: Unregulated mining and trade. Cost-cutting that disrupts safety regulations. Poor employer treatment. Unverified rumours of tech supply to the Nexus.

Norma

Started in: 2032 Run by: Izar Achernar In charge of: [Agriculture, architecture, urban planning] Details: Sustaining life on earth better. C/M/O configuration SmartHomes. BuzzBo manufacturers. Trash management. Reversing climate change damage. Algae consumables. Vertical farming. Space food. Designing Space colonies and bases. Family planning - Kids being supported by the G.C. Unsavoury/Illicit things: Fcking up rations. Uprooting homes. Improper jurisdiction of services. Partiality (based in bribery and corruption) in viable land allocation. Unverified rumours of locations and resources made available to the Nexus.

Caelum

Started in: 2035 Run By: Wezen Franz In charge of: [Education, entertainment and lifestyle] Details: Curriculum for schools. Virtual education options. SmartNeura recreational and educational application designs [XPshare curated for mmoRPGs - FPS - MOBA games]. Esports. Usual media content (written, XPmovies, videos, songs etc). BioArt. Live paints. Trendsetting AI. Tailored advertisements. Media, retail, fashion. Conservation of traditional art forms and cultures. Unsavoury/Illicity things: Surreptitious censorship by burying information. Fact alteration. Potential eradication (despite attempts to the contrary) of nuanced cultural variety in education by streamlined global curriculums and standards. Unverified rumours regarding hidden advertisement and virtual invitation designs generated for experiencing Nexus and Bloody Blitz events.

Crux

Started in: 2030 Run By: Cepheus Cygnus In charge of: [Healthcare, Diagnostics, epidemiological data collection and research] Details: Genetic therapy. Mobile MedDiagonistics. Research for updating SmartChips- An AI-Body interface that includes: - TractPro - dietary input/absorption data - SmartNeura: Collects [can override, generate and diminish] motor output Collects (can reroute, enhance, create and diminish) sensory input. - BloodPro, detects humoral components. Unsavoury/Illicit things: Genetic analysis/alteration without permission/‘cause’. Enhancing/Diminishing bodily functions to certain stimuli. General illicit data collection for research etc. Mind reading/altering/control. Cloning for experimental purposes. Chasing immortality etc. Unverified rumours of involvement with illegal experimentation at the Nexus and management of Bloody Blitz. (Clearly med stuff is my baby)

TAFAKKUR: Part 411

OUTER SPACE: MANKIND'S NEW FRONTIER: Part 2

B) MINING

The samples collected by the Apollo showed that lunar soil contains, as percentages, 41.3 oxygen, 21.6 silicon, 15.3 iron, 5.4 aluminium, 6.8 magnesium, 0.1 potassium. There are also traceable amounts of sodium, sulphur, hydrogen, nitrogen, copper, zinc and lead in the samples collected (Bille, 1990, p.109). Out of these lunar materials, various minerals and metals, alloys, cement, electrical conductors, glass, silicone resins, rocket propellants and numerous industrial chemicals could be produced. One study concluded that hydrogen and oxygen, stored in lunar rocks, could be used to make air, water and rocket fuel. It is also said that the moon is rich in helium-3, which, almost non-existent on earth, may be usable as an ideal fuel for fusion power plants because of its low radioactivity (ibid., p.110).

Apart from the moon’s rich resources, asteroids are seen as extremely valuable celestial bodies. Scientists have found that there are dozens of mineral-rich asteroids circumnavigating the earth. These asteroids are on average 500 metres across and made of solid nickel-iron. Just one such asteroid could possibly meet years of global demand for these elements. Scientists reckon that asteroids within the vicinity of the earth contain abundant amounts of nitrogen, hydrogen and free metals. It is technologically feasible to process these asteroids on an industrial scale in outer space, more easily than exploitation of the moon’s resources. Such extraterrestrial production could avert earthbound pollution and potential conflicts over scarce earth resources (Condora, 1984, p.178). It was estimated in the 1980s that an asteroid could be worth five billion dollars. It is also projected that asteroids would be processed in outer space for extraterrestrial construction of space stations.

C) SPACE MANUFACTURE

Although satellite communications and remote sensing are already very profitable commercial enterprises, space manufacturing is thought to have even greater commercial potential. As space is a relatively dust-free, micro gravity environment, it offers a unique laboratory setting for the development and processing of some complicated chemicals, pharmaceuticals, semi-conductor crystals, glass and metal alloys-indeed, production under micro gravity conditions is estimated to be up to 500 hundred times that possible on earth and with a degree of purity unobtainable on earth (Jericho and McCracken, 1986, p.802).The potential market sales for such products is reckoned at around $20 billion annually.

Additionally the relatively uncontaminated space environment is an ideal place for growing crystals used in computers, optoelectronics and ultrasonic equipment; for developing floride glass used in laser and fibre optic applications; and for producing new metal alloys as well as metals of higher purity and structural uniformity (ibid., p.803). In sum, the horizons for potential use of space are immeasurable.

THE ISLAMIC COUNTRIES AND SPACE ACTIVITIES

Our concern is to find out what the Muslims are doing or not doing in the face of the continued progress of the space-faring Christians (NASA, ESA), the Jews (Israel), the Buddhists (People’s Republic of China, Japan), the Hindus (India). It was declared at the beginning of the ‘space age’ that space would be a province all mankind. However, it is apparent that it is only the technologically advanced non-Muslim states who are ploughing in huge sums of money into aerospace technology and enjoying the benefits of the outer space environment. Muslims in general seem unaware of the fact that it is enjoined upon them to keep abreast of the latest science and technology and to be as equipped as the non-Muslims. For example, in Sura al-Mulk, God directs our attention to the Heavens:

‘He who created the seven one above another: you will see no want of proportion in the creation of the Most Gracious, so turn your sight again: Do you see any flaw? Again turn your vision a second time; your sight will return to you dim and discomfited, in a state worn out’ (67.3-4. See also 7.54; 13.2; 21.33; 36.40;51.7; 81.15.)

The World Is a Mess. We Need Fully Automated Luxury Communism.

Asteroid mining. Gene editing. Synthetic meat. We could provide for the needs of everyone, in style. It just takes some imagination.

It starts with a burger.

In 2008 a Dutch professor named Mark Post presented the proof of concept for what he called “cultured meat.” Five years later, in a London TV studio, Mr. Post and his colleagues ate a burger they had grown from animal cells in a laboratory. Secretly funded by Sergey Brin, a co-founder of Google, the journey from petri dish to plate had cost $325,000 — making theirs the most expensive meal in history. Fortunately, the results were promising: Hanni Rützler, a nutrition scientist, concluded that the patty was “close to meat but not as juicy.” The next question was whether this breakthrough could be made cheaper. Much cheaper.

The first “cultured beef” burgers are likely to enter the market next year, at approximately $50 each. But that won’t last long. Within a decade they will probably be more affordable than even the cheapest barbecue staples of today — all for a product that uses fewer resources, produces negligible greenhouse gases and, remarkably, requires no animals to die.

It’s not just barbecues and burgers. Last year Just, a leader in cellular agriculture, cut a deal to start producing one of the world’s tastiest steaks, Wagyu. A company called Endless West, which also makes grapeless wine, has started to produce Glyph, the world’s first “molecular whiskey.” Luxury could be coming to all.

The case of cultured food and drink, far from a curiosity, is a template for a better, freer and more affluent world, a world where we provide for the needs of everyone — in style.

But how do we get there?

To say the present era is one of crisis borders on cliché. It differs from the dystopias of George Orwell or Aldous Huxley, or hell in the paintings of Hieronymus Bosch. It is unlike Europe during the Black Death or Central Asia as it faced the galloping Golden Horde. And yet it is true: Ours is an age of crisis. We inhabit a world of low growth, low productivity and low wages, of climate breakdown and the collapse of democratic politics. A world where billions, mostly in the global south, live in poverty. A world defined by inequality.

But the most pressing crisis of all, arguably, is an absence of collective imagination. It is as if humanity has been afflicted by a psychological complex, in which we believe the present world is stronger than our capacity to remake it — as if it were not our ancestors who created what stands before us now. As if the very essence of humanity, if there is such a thing, is not to constantly build new worlds.

If we can move beyond such a failure, we will be able to see something wonderful. The plummeting cost of information and advances in technology are providing the ground for a collective future of freedom and luxury for all.

Automation, robotics and machine learning will, as many august bodies, from the Bank of England to the White House, have predicted, substantially shrink the work force, creating widespread technological unemployment. But that’s only a problem if you think work — as a cashier, driver or construction worker — is something to be cherished. For many, work is drudgery. And automation could set us free from it.

Gene editing and sequencing could revolutionize medical practice, moving it from reactive to predictive. Hereditary diseases could be eliminated, including Huntington’s disease, cystic fibrosis and sickle cell anemia, and cancer cured before it reaches Stage 1. Those technologies could allow us to keep pace with the health challenges presented by societal aging — by 2020 there will be more people over the age of 60 than under the age of 5 — and even to surpass them.

What’s more, renewable energy, which has been experiencing steep annual falls in cost for half a century, could meet global energy needs and make possible the vital shift away from fossil fuels. More speculatively, asteroid mining — whose technical barriers are presently being surmounted — could provide us with not only more energy than we can ever imagine but also more iron, gold, platinum and nickel. Resource scarcity would be a thing of the past.

The consequences are far-reaching and potentially transformative. For the crises that confront our world today — technological unemployment, global poverty, societal aging, climate change, resource scarcity — we can already glimpse the remedy.

But there’s a catch. It’s called capitalism. It has created the newly emerging abundance, but it is unable to share round the fruits of technological development. A system where things are produced only for profit, capitalism seeks to ration resources to ensure returns. Just like today’s, companies of the future will form monopolies and seek rents. The result will be imposed scarcity — where there’s not enough food, health care or energy to go around.

So we have to go beyond capitalism. Many will find this suggestion unwholesome. To them, the claim that capitalism will or should end is like saying a triangle doesn’t have three sides or that the law of gravity no longer applies while an apple falls from a tree. But for a better world, where everyone has the means to a good life on a habitable planet, it is an imperative.

We can see the contours of something new, a society as distinct from our own as that of the 20th century from feudalism, or urban civilization from the life of the hunter-gatherer. It builds on technologies whose development has been accelerating for decades and that only now are set to undermine the key features of what we had previously taken for granted as the natural order of things.

To grasp it, however, will require a new politics. One where technological change serves people, not profit. Where the pursuit of tangible policies — rapid decarbonization, full automation and socialized care — are preferred to present fantasies. This politics, which is utopian in horizon and everyday in application, has a name: Fully Automated Luxury Communism.

Sounds good, doesn’t it?

Aaron Bastani (@AaronBastani) is a co-founder of Novara Media and the author of the forthcoming “Fully Automated Luxury Communism: A Manifesto,” from which this essay is adapted.

https://www.nytimes.com/2019/06/11/opinion/fully-automated-luxury-communism.html