SpaceWorks Enterprises

SpaceWorks Enterprises, Inc. (SEI)
Company type	Private
Industry	Aerospace
Founded	Atlanta, Georgia ; (August 1, 2000)
Headquarters	Atlanta, Georgia
Key people	John E. Bradford, PhD ; Chief Executive Officer; Jon Wallace ; Chief Operating Officer; Brad St. Germain ; Chief Technical Officer; Chris Stroumpis ; Chief Financial Officer; John R. Olds, PhDContents History ; Overview ; Current Projects ; Educational Outreach ; Previous Projects ; References ; External links ; ; Chair and Founder;
Products	Aerospace engineering services and software
Brands	SpaceWorks Engineering; SpaceWorks Commercial; SpaceWorks Software
Number of employees	60+
Subsidiaries	Generation Orbit Launch Services, Inc. (GO) ; Terminal Velocity Aerospace, LLC (TVA) ; Blink Astro, LLC (Blink)
Website	spaceworks.aero

Last updated May 01, 2024

SpaceWorks Enterprises, Inc. (SEI) is an aerospace engineering company based in Atlanta, Georgia, United States that specializes in the design, assessment, hardware prototyping and flight demonstration of advanced space concepts for both government and commercial customers.  

History

SEI was founded in 2000 by Dr. John R. Olds, then a tenured professor in the school of aerospace engineering at the Georgia Institute of Technology in Atlanta, GA.^[1]^,^[2] The firm was previously known as SpaceWorks Engineering, Inc. and officially changed its name in 2011. Dr. Olds stepped down as CEO of SEI in August 2022; Dr. John Bradford assumed the role, while Dr. Olds remained as chair of the board of directors. ^[3]

In 2011, SEI was named the 39th fastest-growing engineering firm in the United States according to the 2011 Inc. 500/5000 list.^[4] SpaceWorks received the 2015 Georgia Small Business of the Year Award from the Georgia Chapter of the National Defense Industries Association on February 8, 2016.^[5]

Overview

SpaceWorks Enterprises (SEI), based in Atlanta, Georgia, specializes in independent concept development, economic analysis, technology impact assessment, and systems analyses for future space systems and projects. Along with custom analyses, SEI develops software and apps for the aerospace field. The company created three subsidiary companies to support various business lines. These include Generation Orbit Launch Services, Inc. (GO), Terminal Velocity Aerospace, LLC (TVA), and Blink Astro, LLC (Blink).

SEI has six primary lines of business: SpaceWorks Flight, SpaceWorks Orbital, SpaceWorks Engineering, SpaceWorks Commercial, SpaceWorks Studios, and SpaceWorks Software.

Current Projects

Analysis of the creation of a Torpor Inducing Transfer Habitat For Human Stasis To Mars.^[6]^[7]^[8]^[9]^[10] This project was originally funded through a NASA Innovative Advanced Concepts (NIAC) Phase I award.^[11]^[12] The NIAC award was featured in a number of online publications including the Air & Space Smithsonian magazine^[13] Space.com,^[14] Forbes,^[15] scientas.nl,^[16] and the Guardian Express.^[17] SEI continues to mature this concept and approach to support human exploration.
Development and testing of Re-Entry Devices (RED), providing a lower-cost option for returning products and experiments from space. The project is partially funded through NASA’s Flight Opportunities Program and was recently^{[ when? ]} featured on NASA’s website. It is SpaceWorks’ latest step towards fielding a full cargo return capability.
Development and testing of RED-Rescue, an Air-launched Drone Delivery Device (AD3) for airmen rescue package delivery of a Personnel Recovery Kit (PRK). The project was awarded by the U.S. Air Force and its Air Force Research Laboratory (AFRL).
Development of Mono-propellant deorbit stage (MPDS) designed to quickly and precisely deorbit space capsules such as RED-4U. A high-thrust chemical propulsion stage utilizing environmentally-friendly liquid propellants, MPDS was created to meet the requirements of current rideshare launchers. The MPDS will be capable of supporting a variety of emerging space tug missions in low Earth orbit including orbital debris cleanup, satellite servicing, satellite orbit raising, and support for private space stations.
Development of the QuickShot™ trajectory simulation and optimization tool as a modern software package to replace legacy industry tools such as NASA's Program to Optimize Simulated Trajectories (POST) and Optimization Through Implicit Simulation (OTIS). The software is sold commercially.
Development of REDTOP™ (Rocket Engine Design Tool for Optimal Performance) software allowing customers to experiment with factors that impact thrust, Isp, turbine speed, power balance, cost and other outputs while they design their own engine.
Development of Manta™, software for high-speed propulsion for a supersonic combustion ramjet (scramjet). The software canprovide designers insight into performance characteristics while also delivering a geometry definition, which includes the inlet, isolator, combustor, and nozzle.
Development of the NewSpace Index™, which compares the performance of a basket of publicly traded NewSpace companies to other indices.
Commercialization of FuseBlox™, a patented docking and connection device for small satellites that provides a secure structural attachment, power connectivity, and data transfer to support the in-space economy. In 2016, SpaceWorks designed the device through funding from the Defense Advanced Research Projects Agency (DARPA). The project continued in 2020 under the Space Vehicles Directorate’s Commercial Readiness Program (CRP) at the Air Force Research Laboratory (AFRL)
Assessment of High-Speed Passenger Travel for the NASA Langley Research Center to study and evaluate economic prospects for commercial high-speed passenger flight. SpaceWorks Commercial will examine a range of aircraft configurations representative of the systems currently planned for development by the aerospace industry, considering such key design drivers as flight speed, operational range, passenger count, fuel type, ticket price, and fleet size.

Educational Outreach

From 2013 - 2018, SEI hosted the ASTRO (Aerospace Summer Training & Research Opportunity) for local area high school students. This was in addition to college internships that are hosted year round. ASTRO was a project-oriented experience during which participants work in teams to solve an aerospace engineering design problem. The teams conducted research and solved complex aerospace engineering challenges created for them by SEI staff. Each team was charged with creating a PowerPoint presentation detailing their research, analysis, and solution to the challenge, a mission patch designed entirely by the team that reflected their work, and a prototype of their solution.
SEI also developed a free interactive Astrodynamics Lab for use by teachers and educators. It is designed for students at both the high school and college level. Upon completion, students should have a basic proficiency and understanding of how gravitational fields influence the orbit of satellites.
SpaceWorks STEM Student Engagement Program visited science and engineering classes at local high schools in the Atlanta area, discussed careers in aerospace, and demonstrated a hybrid rocket on site.

Previous Projects

Participated on the Artemis Innovative Management Solutions team which worked to mature technologies and concepts for a space-based solar power system known as SPS-ALPHA. NASA Innovative Advanced Concepts (NIAC) sponsored the project.^[18]
Created Blink® Satellite Radio, which connects with cube satellites to serve a variety of markets including precision agriculture (see AgriBlinkR), transportation, energy, environmental monitoring (see AquaBlinkR), and defense.
Developed Re-Entry Device (RED)- Phoenix, a flight test solution for evaluating thermal protection materials and hot structures at hypersonic speeds. RED-Phoenix is a recoverable flight testbed designed to conduct testing of advanced leading edge materials, nose caps, sensor windows, and fins at relevant flight conditions. O
Created the Spaceport Field Guide (SpFG), which is a customized Google Map that identifies worldwide launch sites and associated facilities. SpFG is a free resource to the aerospace community. (Please note that SEI has attempted to compile and maintain accurate information, however no assertions are made as to the complete accuracy of this field guide. Users are encouraged to submit suggested updates and corrections to help evolve this resource.)
Created and installed AgriBlinkR™, an outdoor Internet of Things (IoT) data logger and transmitter for precision agriculture use. Satellite-enabled, it provides farmers with one-stop global coverage and eliminates dead spots typical of cellular solutions.
Created and tested AquaBlinkR™, an IoT sensor for fresh and salt water monitoring using low-Earth-orbit satellite communication. It is a low power device capable of capturing and measuring global position along with air and water temperature from on-board sensors. Constructed with a power-saving HyperSleep™ mode to conserve battery power and maximize lifetime.
Created and tested Re-Entry Device (RED)-Data2, a small device that serves as affordable, expendable test beds to study thermal protection system performance and high speed flight dynamics upon reentry from Earth orbit. The first space flight of the RED-Data2 capsules took place in 2017.
Presented “Performance and Business Case Impact Assessment for Launch Systems Utilizing RDRE Propulsion” at the 2022 IEEE Aerospace Conference. The paper presented the advantages of switching from current engine technology to a rotating detonation rocket engine (RDRE) for propulsion.
Presented “Suborbital Drop Test to Demonstrate Autonomous Payload Recovery from Low Earth Orbit”, at the 2022 IEEE Aerospace Conference. The paper demonstrated through theory and practice how autonomous payload delivery capabilities will be used to make the return of space-based products more routine and cost efficient.
Presented a paper titled "Cryogenic Propulsive Stages for Human Exploration beyond Low Earth Orbit" at the 2012 Global Space Exploration Conference (GLEX 2012) in Washington, DC. The paper summarizes the results of a six-month study that SEI performed for United Launch Alliance.
Assisted Satrec Initiative Co., Ltd. (Satrec Initiative or SI) to market their products and services to United States customers through Satrec Initiative-US (SI-US). SpaceWorks represented SI in the U.S. and managed the SI-US initiative until 2012.
Published the results of an internal study of a lunar lander concept to support missions from Earth-Moon L2 to the lunar surface.
Founded the FastForward Project, an international study group investigating the commercial market for future high-speed point-to-point flight for passengers and/or cargo.^[19]
Actively tracked the small satellite industry and provided projections based on the data that is collected. SEI annually published these projections for the < 50 kg market and provided custom market assessment to government and commercial customers for all satellite classes.^[20]^[21]^[22]^[23]^[24]
Supported the Air Force on its RBS and Pathfinder efforts. SEI provided independent aerodynamic, trajectory, and propulsion analysis of competing RBS and Pathfinder approaches and also provided systems engineering and risk management support to AFRL's Chief Engineer for Pathfinder.^[25]
Provided technical and graphics support to the 2010-2011 NASA-DARPA Horizontal Launch Study team. The HLS study explored near-term air launch concepts capable of launching medium payloads to space.^[26]^,^[27]
Foresight, a small satellite mission concept developed by SEI, won The 2007 Planetary Society 99942 Apophis Mission Design Competition.^[28]^,^[29]
Designed an asteroid mitigation mission concept referred to as MADMEN, or Modular Asteroid Deflection Mission Ejector Node, for use in planetary defense missions.^[30]^,^[31]
Personnel from SEI provided engineering analysis to the Review of United States Human Space Flight Plans Committee.
Supported NASA's Constellation Program via the Ares Project Office as a member of the Ducommon/Miltec team.
Participated on the Orbital Sciences Corporation team for NASA's Concept Exploration and Refinement (CE&R) study.
Supported the Northrop Grumman team on the first phase of the hypersonic weapon system development for the DARPA Falcon Project.
Participated on the Coleman Research Corp. (L-3 Coleman Aerospace, since acquired by Aerojet Rocketdyne) team for DARPA's Responsive Access, Small Cargo, Affordable Launch (RASCAL) program.
Served as a minor partner of Astrobotic Technology for the Google Lunar X Prize from 2009 to 2010.

Related Research Articles

Interplanetary spaceflight or interplanetary travel is the crewed or uncrewed travel between stars and planets, usually within a single planetary system. In practice, spaceflights of this type are confined to travel between the planets of the Solar System. Uncrewed space probes have flown to all the observed planets in the Solar System as well as to dwarf planets Pluto and Ceres, and several asteroids. Orbiters and landers return more information than fly-by missions. Crewed flights have landed on the Moon and have been planned, from time to time, for Mars, Venus and Mercury. While many scientists appreciate the knowledge value that uncrewed flights provide, the value of crewed missions is more controversial. Science fiction writers propose a number of benefits, including the mining of asteroids, access to solar power, and room for colonization in the event of an Earth catastrophe.

Space exploration is the use of astronomy and space technology to explore outer space. While the exploration of space is currently carried out mainly by astronomers with telescopes, its physical exploration is conducted both by uncrewed robotic space probes and human spaceflight. Space exploration, like its classical form astronomy, is one of the main sources for space science.

Solar sails are a method of spacecraft propulsion using radiation pressure exerted by sunlight on large surfaces. A number of spaceflight missions to test solar propulsion and navigation have been proposed since the 1980s. The first spacecraft to make use of the technology was IKAROS, launched in 2010.

<span class="mw-page-title-main">Lander (spacecraft)</span> Type of spacecraft

A lander is a spacecraft that descends towards, then comes to rest on the surface of an astronomical body other than Earth. In contrast to an impact probe, which makes a hard landing that damages or destroys the probe upon reaching the surface, a lander makes a soft landing after which the probe remains functional.

The Discovery Program is a series of Solar System exploration missions funded by the U.S. National Aeronautics and Space Administration (NASA) through its Planetary Missions Program Office. The cost of each mission is capped at a lower level than missions from NASA's New Frontiers or Flagship Programs. As a result, Discovery missions tend to be more focused on a specific scientific goal rather than serving a general purpose.

A spaceplane is a vehicle that can fly and glide like an aircraft in Earth's atmosphere and maneuver like a spacecraft in outer space. To do so, spaceplanes must incorporate features of both aircraft and spacecraft. Orbital spaceplanes tend to be more similar to conventional spacecraft, while sub-orbital spaceplanes tend to be more similar to fixed-wing aircraft. All spaceplanes to date have been rocket-powered for takeoff and climb, but have then landed as unpowered gliders.

Leroy Chiao is an American chemical engineer, retired NASA astronaut, entrepreneur, motivational speaker, and engineering consultant. Chiao flew on three Space Shuttle flights, and was the commander of Expedition 10, where he lived on board the International Space Station from October 13, 2004 to April 24, 2005. He is also a co-author and researcher for the Advanced Diagnostic Ultrasound in Microgravity project.

Orbital Sciences Corporation was an American company specializing in the design, manufacture, and launch of small- and medium- class space and launch vehicle systems for commercial, military and other government customers. In 2014, Orbital merged with Alliant Techsystems to create a new company called Orbital ATK, Inc., which in turn was purchased by Northrop Grumman in 2018. The remnants of the former Orbital Sciences Corporation became a subsidiary of Northrop Grumman, known as Northrop Grumman Space Systems.

New Millennium Program (NMP) was a NASA project with focus on engineering validation of new technologies for space applications. Funding for the program was eliminated from the FY2009 budget by the 110th United States Congress, effectively leading to its cancellation.

Aerocapture is an orbital transfer maneuver in which a spacecraft uses aerodynamic drag force from a single pass through a planetary atmosphere to decelerate and achieve orbit insertion.

The NASA Institute for Advanced Concepts (NIAC) is a NASA program for development of far reaching, long term advanced concepts by "creating breakthroughs, radically better or entirely new aerospace concepts". The program operated under the name NASA Institute for Advanced Concepts from 1998 until 2007, and was reestablished in 2011 under the name NASA Innovative Advanced Concepts and continues to the present. The NIAC program funds work on revolutionary aeronautics and space concepts that can dramatically impact how NASA develops and conducts its missions.

An Entomopter is an aircraft that flies using the wing-flapping aerodynamics of an insect. The word is derived from entomo + pteron. Entomopters are type of ornithopter, which is the broader term for any device intended to fly by flapping wings.

<span class="mw-page-title-main">Outline of space exploration</span> Overview of and topical guide to space exploration

The following outline is provided as an overview of and topical guide to space exploration.

The National Aeronautics and Space Administration is an independent agency of the U.S. federal government responsible for the civil space program, aeronautics research, and space research. Established in 1958, it succeeded the National Advisory Committee for Aeronautics (NACA) to give the U.S. space development effort a distinctly civilian orientation, emphasizing peaceful applications in space science. It has since led most American space exploration, including Project Mercury, Project Gemini, the 1968–1972 Apollo Moon landing missions, the Skylab space station, and the Space Shuttle. It currently supports the International Space Station and oversees the development of the Orion spacecraft and the Space Launch System for the crewed lunar Artemis program, the Commercial Crew spacecraft, and the planned Lunar Gateway space station.

An orbital propellant depot is a cache of propellant that is placed in orbit around Earth or another body to allow spacecraft or the transfer stage of the spacecraft to be fueled in space. It is one of the types of space resource depots that have been proposed for enabling infrastructure-based space exploration. Many different depot concepts exist depending on the type of fuel to be supplied, location, or type of depot which may also include a propellant tanker that delivers a single load to a spacecraft at a specified orbital location and then departs. In-space fuel depots are not necessarily located near or at a space station.

Space architecture is the theory and practice of designing and building inhabited environments in outer space. This mission statement for space architecture was developed at the World Space Congress in Houston in 2002 by members of the Technical Aerospace Architecture Subcommittee of the American Institute of Aeronautics and Astronautics (AIAA). The architectural approach to spacecraft design addresses the total built environment. It is mainly based on the field of engineering, but also involves diverse disciplines such as physiology, psychology, and sociology.

The future of space exploration involves both telescopic exploration and the physical exploration of space by robotic spacecraft and human spaceflight.

Martian Moons eXploration (MMX) is a robotic space probe set for launch in 2026 to bring back the first samples from Mars' largest moon Phobos. Developed by the Japan Aerospace Exploration Agency (JAXA) and announced on 9 June 2015, MMX will land and collect samples from Phobos once or twice, along with conducting Deimos flyby observations and monitoring Mars's climate.

Joel C. Sercel is an American aerospace engineer. He is the inventor of Omnivore Thruster, a new concept of propulsion technology for in-space transportation, of Optical Mining, a technology for extracting raw materials from asteroids, of the Radiant Gas Dynamic method of lunar water harvesting, and of the Sun Flower Power Tower architecture for capturing and converting solar power into electricity to be used in polar lunar regions. As of July 2021, his work and studies have led to eight US patents and seventeen published applications. An asteroid, (46308) Joelsercel, was named after him.

References

↑ Dave Smith (2011-07-11). "Inc. 5000 Applicant of the Week: SpaceWorks Enterprises" . Retrieved 2011-07-23.
↑ Shawn Jenkins (2008-12-01). "Space for Fun and Profit" . Retrieved 2011-07-01.
↑ "Spaceworks Enterprises Names Dr. John Bradford As New CEO". SpaceWorks Enterprises, Inc. 2022-08-01. Retrieved 2022-08-03.
↑ "SpaceWorks - Atlanta, GA - The Inc.5000". Inc. 2011-08-23. Retrieved 2011-08-25.
↑ "SEI Receives Georgia Small Business of the Year Award". SpaceWorks Enterprises, Inc. 2011-02-09. Retrieved 2016-02-09.
↑ "Sleep the key to keeping space travel cheap?". Fox Business Network . 2014-10-09.
↑ "NASA studying humans rocketing to Mars in a deep sleep". Fox News . 2014-10-08.
↑ "Deep Sleep To Get To Mars: Scientists Consider Putting Astronauts Into Torpor, Or 'Deep Sleep,' When Sent To Mars". Medical Daily. 2014-10-07.
↑ "NASA Is Considering Deep Sleep for Human Mars Mission". Wall Street Journal . 2014-10-08.
↑ "Sleeper spaceship could carry first humans to Mars in hibernation state". CNN . 2014-10-09.
↑ "NIAC 2013 Phase I and Phase II Selections". NASA . 2013-07-19.
↑ John Bradford (2013-07-19). "Torpor Inducing Transfer Habitat For Human Stasis To Mars". NASA .
↑ Emmett, Arielle. "Sleeping Their Way to Mars". Air & Space Magazine. Retrieved 2017-03-28.
↑ Mike Wall (2013-08-26). "Incredible Technology: How Astronauts Could Hibernate On Mars Voyage". Space.com .
↑ Michael Venables (2013-10-06). "Space Travel's Efficient, Cheaper Future: Sleeping Your Way to Mars in a Stasis Habitat". Forbes .
↑ Caroline Kraaijvanger (2013-10-12). "Slapend naar Mars: reis naar Mars wordt wellicht haalbaar als we onderweg een winterslaap houden". scientias.nl.
↑ Douglas Cobb (2013-07-20). "NASA Funding Suspended Animation and 11 Other Cool Ideas". Guardian Express.
↑ "Orbital solar plants could help solve Earth's energy crisis". November 2011.
↑ Irene Klotz (2009-12-07). "Spaceships may speed consumer air travel" . Retrieved 2011-07-03.
↑ Doug Messier (2014-02-11). "SpaceWorks Releases 2014 Nano/Microsatellite Market Assessment". Parabolic Arc .
↑ "SpaceWorks Releases 2014 Nano/Microsatellite Market Assessment". SpaceRef . 2014-02-13.
↑ Jeff Foust (2014-08-11). "Small satellites, small launchers, big business?". The Space Review .
↑ "Growing small-satellite market brings pricing, technology challenges". MICROmanufacturing .
↑ Debra Werner (2014-08-08). "Small-satellite Entrepreneurs, Suppliers Part Ways on Pricing". SpaceNews . Archived from the original on August 28, 2014.
↑ "USAF seeks reusable booster concepts". April 2010.
↑ "Horizontal Launch: A Versatile Concept for Assured Space Access" (PDF). December 2011. Retrieved 2012-06-14.
↑ "Report of the Horizontal Launch Study" (PDF). June 2011. Retrieved 2012-06-14.
↑ Paul Rincon (2008-02-26). "US team wins asteroid competition" . Retrieved 2009-03-25.
↑ The Planetary Society (2008-02-26). "Projects: Apophis Mission Design CompetitionThe Winning Mission Proposals". Archived from the original on 2008-11-23. Retrieved 2009-03-25.
↑ Richard Gray (2007-02-25). "Hollywood got it wrong, this is how you stop an apocalyptic asteroid" . Retrieved 2007-02-26.
↑ Brill, Louis; Coledan, Stefano (2004). "Tech Watch: Robots Dig In To Defend Earth". Popular Mechanics (August 2004): 19. Retrieved 2011-07-14.

External links

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[1] Dave Smith (2011-07-11). "Inc. 5000 Applicant of the Week: SpaceWorks Enterprises" . Retrieved 2011-07-23.

[2] Shawn Jenkins (2008-12-01). "Space for Fun and Profit" . Retrieved 2011-07-01.

[3] "Spaceworks Enterprises Names Dr. John Bradford As New CEO". SpaceWorks Enterprises, Inc. 2022-08-01. Retrieved 2022-08-03.

[4] "SpaceWorks - Atlanta, GA - The Inc.5000". Inc. 2011-08-23. Retrieved 2011-08-25.

[5] "SEI Receives Georgia Small Business of the Year Award". SpaceWorks Enterprises, Inc. 2011-02-09. Retrieved 2016-02-09.

[6] "Sleep the key to keeping space travel cheap?". Fox Business Network . 2014-10-09.

[7] "NASA studying humans rocketing to Mars in a deep sleep". Fox News . 2014-10-08.

[8] "Deep Sleep To Get To Mars: Scientists Consider Putting Astronauts Into Torpor, Or 'Deep Sleep,' When Sent To Mars". Medical Daily. 2014-10-07.

[9] "NASA Is Considering Deep Sleep for Human Mars Mission". Wall Street Journal . 2014-10-08.

[10] "Sleeper spaceship could carry first humans to Mars in hibernation state". CNN . 2014-10-09.

[11] "NIAC 2013 Phase I and Phase II Selections". NASA . 2013-07-19.

[12] John Bradford (2013-07-19). "Torpor Inducing Transfer Habitat For Human Stasis To Mars". NASA .

[13] Emmett, Arielle. "Sleeping Their Way to Mars". Air & Space Magazine. Retrieved 2017-03-28.

[14] Mike Wall (2013-08-26). "Incredible Technology: How Astronauts Could Hibernate On Mars Voyage". Space.com .

[15] Michael Venables (2013-10-06). "Space Travel's Efficient, Cheaper Future: Sleeping Your Way to Mars in a Stasis Habitat". Forbes .

[16] Caroline Kraaijvanger (2013-10-12). "Slapend naar Mars: reis naar Mars wordt wellicht haalbaar als we onderweg een winterslaap houden". scientias.nl.

[17] Douglas Cobb (2013-07-20). "NASA Funding Suspended Animation and 11 Other Cool Ideas". Guardian Express.

[18] "Orbital solar plants could help solve Earth's energy crisis". November 2011.

[19] Irene Klotz (2009-12-07). "Spaceships may speed consumer air travel" . Retrieved 2011-07-03.

[20] Doug Messier (2014-02-11). "SpaceWorks Releases 2014 Nano/Microsatellite Market Assessment". Parabolic Arc .

[21] "SpaceWorks Releases 2014 Nano/Microsatellite Market Assessment". SpaceRef . 2014-02-13.

[22] Jeff Foust (2014-08-11). "Small satellites, small launchers, big business?". The Space Review .

[23] "Growing small-satellite market brings pricing, technology challenges". MICROmanufacturing .

[24] Debra Werner (2014-08-08). "Small-satellite Entrepreneurs, Suppliers Part Ways on Pricing". SpaceNews . Archived from the original on August 28, 2014.

[25] "USAF seeks reusable booster concepts". April 2010.

[26] "Horizontal Launch: A Versatile Concept for Assured Space Access" (PDF). December 2011. Retrieved 2012-06-14.

[27] "Report of the Horizontal Launch Study" (PDF). June 2011. Retrieved 2012-06-14.

[28] Paul Rincon (2008-02-26). "US team wins asteroid competition" . Retrieved 2009-03-25.

[29] The Planetary Society (2008-02-26). "Projects: Apophis Mission Design CompetitionThe Winning Mission Proposals". Archived from the original on 2008-11-23. Retrieved 2009-03-25.

[30] Richard Gray (2007-02-25). "Hollywood got it wrong, this is how you stop an apocalyptic asteroid" . Retrieved 2007-02-26.

[31] Brill, Louis; Coledan, Stefano (2004). "Tech Watch: Robots Dig In To Defend Earth". Popular Mechanics (August 2004): 19. Retrieved 2011-07-14.

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