A group that's working with the United Nations is launching a simulated Mars and moon colony in Poland — the country's first such facility.

Six volunteer astronauts will work and live inside the faux habitat, called M.A.R.S., for two weeks, starting on July 31.

Organizers hope to use the data and lessons they learn to support real missions to the moon and Mars.

Next to an old nuclear bomber hangar in western Poland, a mission to the surfaces of both the moon and Mars is about to begin.

The two-week mission is just a simulation, of course, since no entity on Earth is prepared to inhabit deep space. But the experiment — called the Poland Mars Analogue Simulation 2017 — will study a group of six volunteer "analogue" astronauts as they work through a realistic schedule of space exploration, then provide those findings to anyone who's drawing up crewed missions beyond Earth.

"This mission will be one of the most comprehensive Mars analogue missions ever conducted in Europe," Mina Takla, spokesperson for the PMAS 2017 mission, told Business Insider in an email.

About 89 miles will separate M.A.R.S. from mission control. Google Maps; Business Insider The experiment, which Business Insider first learned about through the Dawn of Private Space Science Symposium on June 4, is being spearheaded by the Space Exploration Project Group, or SEPG. (The group is part of the Space Generation Advisory Council and works with the United Nations on its space exploration research and support efforts.)

Many other partners are involved in the mission, too, including The Mars Society, European Space Agency, and European Space Foundation.

The project's central feature is a U-shaped habitat that's "connected to a nuclear fighter [plane] hangar near Pila, Poland," Takla said.

A 'nuclear' M.A.R.S. base

To make the mission possible, PMAS 2017 rounded up money from corporate sponsors, and also raised tens of thousands of dollars through crowdfunding sites. To create the habitat, the Space Garden Company — a partner to the project — secured material donations and also did some fundraising.

Organizers have dubbed their faux habitat project the Martian Modular Analog Research Station, or M.A.R.S.

As Marta Bellon of Business Insider Poland reported in May 2016, a previous design for the base, created by British architect Scott Porter, called for four arms and a domed headquarters built by Freedomes (the same company that built the fictional Mars habitats for the blockbuster movie "The Martian").



However, organizers have since dropped the four-armed design for a U-shaped one. The habitat's planned location in southern Poland also moved to western Poland in the past year.

The new, U-shaped M.A.R.S. facility will have six units, each with its own dedicated purpose, such as "scientific research, crew quarters (including a gym), habitation, hygienic facilities, kitchen area, and storage and systems," Takla said. "The entry and exit to the habitat will be via an airlock."

Takla did not provide Business Insider with any sketches or photos of the facility in time for publication, nor could he confirm if and when its construction was completed.

Assuming M.A.R.S. is finished in time, six analogue astronauts will "land" in the habitat on July 31, then work and live and work inside it through August 13.

Poonampreet Kaur Josan, one of six "analog" astronauts who will live inside the M.A.R.S. habitat for two weeks. Space Generation Advisory Council/PMAS 2017 The volunteers hail from Puerto Rico, Israel, Spain, France, India, the US, Nigeria, and other locations. Meanwhile, a larger support team will operate as mission control in the northern Polish city of Torun, including psychologists to monitor the astronauts.

"[PMAS 2017] will be one of the most international, multicultural, and interdisciplinary analogue missions ever conducted, with members from over 28 different countries and representing scientific disciplines ranging from engineering to astrophysics, psychology, geology, and biology," Takla said.

In addition to following a strict schedule of experiments, maintenance, and personal time, mission managers will simulate other realities for a far-off planetary mission, including spacesuits to leave M.A.R.S., and annoying communications delays.

"[T]he first three days of the 14 days of the simulation will be in 'Lunar mode' with a real-time communication between habitat and Mission Control, before we go for the remaining 11 days into the Martian mode," Tajana Lučić, co-leader of SEPG, told Business Insider in an email.

When the Martian mode starts, Lučić said, "the time delay will be 15 minutes, and simulates the long distance between Earth and Mars and the related communication delay."

Faux Mars missions galore

The PMAS 2017 mission isn't the only project trying to figure out how to run a tightly operated lunar or Martian base.

HI-SEAS in Hawaii, for example — which former Business Insider reporter Kelly Dickerson visited — has astronauts who live and work inside a habitat built on the side of a barren volcano.

The HI-SEAS faux Mars base on the Mauna Loa volcano in Hawaii. NASA

Russia, China, and the ESA have also run six willing "astronauts" through a psychological gauntlet with its $15 million Mars500 experiment.

That project, which ended a few years ago, had the astronauts stay inside for 520 days, or nearly a year and a half, to see what challenges they faced — and how to prevent or solve them when real Mars colonization missions actually begin. (Boredom, concluded an exhaustive study of the project, is one of the greatest hurdles to overcome.)

Such information could prove extremely valuable to the first nation (or private company, like SpaceX) to land people on Mars. Whoever is spending tens of billions of dollars to get the job done, they'll not only want a crew to survive to tell the tale, but also make the best use of their time some 140 million miles from Earth.

Correction (July 10, 2017): Business Insider was initially given and directed to outdated information about M.A.R.S. We have since corrected and updated this story to reflect the project's current details.