MIT Space Hotel Wins NASA Graduate Design Competition

For Immediate Release

MARINA in orbit. MARINA is a proposed concept for a commercially owned and operated space station to replace the International Space Station (ISS) following its planned retirement in the mid-2020s. (All photos courtesy of MIT MARINA team.)

Contact: Matthew Moraguez
Phone: +1 (561) 281-3934
Email: moraguez@mit.edu

(June 20, 2017) An interdisciplinary team of MIT graduate students representing five departments across the Institute was recently honored at the Revolutionary Aerospace Systems Concepts–Academic Linkage Design Competition Forum. The challenge involved designing a commercially enabled habitable module for use in low Earth orbit that would be extensible for future use as a Mars transit vehicle. The team’s design won first place in the competition’s graduate division.

The MIT project, the Managed, Reconfigurable, In-space Nodal Assembly (MARINA) was designed as a commercially owned and operated space station, featuring a luxury hotel as the primary anchor tenant and the National Aeronautics and Space Administration (NASA) as a temporary co-anchor tenant for 10 years. NASA’s estimated recurring costs, $360 million per year, represent an order of magnitude reduction from the current costs of maintaining and operating the International Space Station. Potential savings are approximately 16 percent of NASA’s overall budget—or around $3 billion per year.

MARINA team lead Matthew Moraguez, a graduate student in MIT’s Department of Aeronautics and Astronautics and a member of Professor Olivier L. de Weck’s Strategic Engineering Research Group (SERG), explained that MARINA’s key engineering innovations include:

  • the extensions to the International Docking System Standard (IDSS) interface;
  • the modular architecture of the backbone of MARINA’s node modules; and
  • the distribution of subsystem functions throughout the node modules.

“Modularized service racks connect any point on MARINA to any other point via the extended IDSS interface. This enables companies of all sizes to provide products and services in space to other companies, based on terms determined by the open market,” said Moraguez. “Together these decisions provide scalability, reliability, and efficient technology development benefits to MARINA and NASA.”

MARINA’s design also enables modules to be reused to create an interplanetary Mars transit vehicle that can enter Mars’ orbit, refuel from locally produced methane fuel, and return to Earth.

A subset of members of the interdisciplinary MIT team that won first place in the graduate division of the Revolutionary Aerospace Systems Concepts–Academic Linkage Design Competition Forum. From left:Caitlin Mueller (faculty advisor), Matthew Moraguez, George Lordos, and Valentina Sumini.

MARINA and SERG team member George Lordos is currently a graduate fellow in MIT System Design & Management (SDM), a program offered jointly by the MIT School of Engineering and the MIT Sloan School of Management. Lordos pointed out that MARINA’s engineering design innovations are critical enablers of its commercial viability, which rests on MARINA’s ability to give rise to a value-adding, competitive marketplace in low Earth orbit.

Lordos also holds a Sloan MBA earned in 2000 and will enter the MIT Aeronautics and Astronautics doctoral program in fall 2017. “Just like a yacht marina, MARINA can provide all essential services, including safe harbor, reliable power, clean water and air, and efficient logistics and maintenance,” said Lordos. “This will facilitate design simplicity and savings in construction and operating costs of customer-owned modules. It will also incent customers to lease space inside and outside MARINA’s node modules and make MARINA a self-funded entity that is attractive to investors.”

Dr. Valentina Sumini, a postdoctoral fellow at MIT, contributed to the architectural concept being used for MARINA and its space hotel, along with MARINA faculty advisor Assistant Professor Caitlin Mueller of MIT’s School of Architecture + Planning and Department of Civil and Environmental Engineering.

“MARINA’s flagship anchor tenant, a luxury Earth-facing eight-room space hotel complete with bar, restaurant, and gym, will make orbital space holidays a reality”, said Sumini.

Other revenue-generating features include rental of serviced berths on external International Docking Adapter ports for customer-owned modules and rental of interior modularized rack space to smaller companies that provide contracted services to station occupants. These secondary activities may involve satellite repair, in-space fabrication, food production, and funded research.

Additional members of the MARINA team include:

* MIT Department of Aeronautics and Astronautics graduate students and SERG members Alejandro Trujillo, Samuel Wald, and Johannes Norheim;
* MIT Department of Civil and Environmental Engineering undergraduate Zoe Lallas;
* MIT School of Architecture + Planning graduate students Alpha Arsano and Anran Li; and
* MIT Integrated Design & Management (IDM) graduate students Meghan Maupin and John Stillman.