The MIT team wins the competition for the design of the habitable city for a future on Mars



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By: Express Web Desk | New Delhi |

Published: November 27, 2017 at 4:43 p.m.


  MIT, MIT projects, MIT courses, web.mit.edu, MIT education, study abroad, MIT students, education news, indian express, Mbadachusetts Institute of Technology, Mars colony, marte Domes would contain abundant supply of water harvested from the plains from the north of the planet.

Have you ever wondered what it would be like to live on Mars? Participants in the Mars City Design competition were asked the same question, as they were involved in the planning of sustainable cities on the neighboring planet for the future. A team of architects and engineers from the Mbadachusetts Institute of Technology (MIT) has won the winning title of its urban design in this competition.

The design, titled Redwood Forest, includes domes of tree habitats that can occupy up to 50 people. They contain open and public spaces along with a simple sleeve sleeve transport. The domes would contain an abundant supply of water harvested from the plains of the north of the planet and the arboreal habitats would be built on top of a network of underground tunnels. This would provide access to private spaces that can be occupied by a community of approximately 10,000 people.

"On Mars, our city will physically and functionally imitate a forest, using local Martian resources such as ice and water, regolith (or soil), and the sun to sustain life." Designing a forest also symbolizes the potential for external growth as nature extends through the Martian landscape, "says MIT postdoc Valentina Sumini. She adds that the roots would offer protection against cosmic radiation, impacts of micrometeorites and extreme thermal radiation.

The MIT team included nine students from various departments and research groups and was led by Assistant Professor Caitlin Mueller. The objective of the project was to build a comfortable environment for the inhabitants with the help of the location and architecture of the system. The project also focused on sustainability.

"Each tree habitat incorporates a branching structural system and an inflated membrane enclosure, anchored by tunnel roots." The design of a habitat can be generated using a computational workflow of shape search and structural optimization developed by the team, "said Sumini.

"All arboreal habitats in the Redwood Forest will collect energy from the Sun and use it to process and transport water throughout the tree, and each tree is designed as a water-rich environment," said George Lordos, who was responsible of the architecture of the Redwood Forest system.

The designers also claim that many of these designs can also be useful on Earth and electric vehicles that travel in underground and multilevel networks can alleviate traffic congestion.

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