Urban planning in space: 3 off-world designs for future cities
The future of cities on the Moon, Mars and orbital habitats.
- In the 1970s NASA published an extensive book on urban planning in space.
- Acclaimed architectural and engineering firm Skidmore, Owings & Merrill LLP (SOM) designed a conceptual plan for the first permanent settlement for human life on the moon.
- An MIT team developed a concept for the first sustainable cities on Mars to be built in the next century.
One day humanity will again step foot on other worlds. When that day comes we will need to build new cities in these places. Where we go, our cities go. The urban form follows us like a civilizational shadow.
In order to house our post-terrestrial bound culture, we'll first need to layout the new order of our settlements. There are three prime candidate planets and places in space that may be the first to house our founding space pioneers.
These are the Moon, Mars, and orbital habitats around Earth.
Major governmental space agencies, engineering firms and even urban planning groups have already seriously considered the prospect of space colonization.
In 1977 NASA published "Space Settlements: A Design Study." This extensive 155-page book essentially contains a city planning policy guide on the future of cities and urban planning in space. The book focuses exclusively on orbital civilian habitats – the type that would revolve and settle in Lagrange Points around Earth.
"Space Settlements" covers everything it can think of, from the psychology of its inhabitants, rocket landing areas, and zoning land-use to the barebones of oxygen production. Even with such depth the book still covers only a small portion of the challenges facing space colonization.
The sheer scale of genius needed for this feat will keep us busy down here for years.
Yet, urbanists would be happy to hear that the plan advocates for communities that are walkable, transit-oriented, dense and inclusive. This list checks off a fair bit of principles modern urban planners abide by.
The book's authors even took the time to think about the notion of the first extraterrestrial pioneers' budding culture:
The first extraterrestrial communities may not be purely American if the United States is no longer a major world power or a major technological center by the time the first extraterrestrial community is established. If the United States remains a major world power, many nations including nonwestern nations and African nations could be highly technological and want to participate, so that the first extraterrestrial community may be international.
The present technological nations are not necessarily advantaged, because the technology they possess is "Earth-bound" in addition to being culture-bound. They may have first to unlearn the forms, the assumptions and the habits of the Earth-bound technology before learning the new forms and assumptions of technology useful in extraterrestrial communities.
Moon culture evolution, confirmed. The thought of new cultures developing in the newly forged lunar cities and floating metropolis colonies would be a testament to our accomplishment.
Building a city on the Moon
Wikimedia Commons | Source: NASA Ames Research Centre
What would it take to build a full scale city on the moon? Skidmore, Owings & Merrill recently threw their hat in the proverbial moon ring.
In partnership with the European Space Agency (ESA) and the Massachusetts Institute of Technology (MIT), SOM presented a conceptual design for their "Moon Village." In a press statement, Design Partner Colin Koop talked about the new challenges needed for architectural design in space.
"The project presents a completely new challenge for the field of architectural design. The Moon Village must be able to sustain human life in an otherwise uninhabitable setting. We have to consider problems that no one would think about on Earth, like radiation protection, pressure differentials, and how to provide breathable air."
Masterplanning, designing and engineering the imagined settlement, SOM imagines are cross-disciplinary collaboration and an entirely new way to approach the space industry's most complex problems.
- The Moon Village is imagined on the edge rim of the Shackleton Crater near the South Pole.
- This area was selected because it receives near continuous daylight throughout the whole lunar year.
- Overall development plans were envisioned in three distinct phases to set up infrastructure, resources and habitable structures.
The Moon Village would sustain its energy from direct sunlight and set up food generation and life-sustaining elements through in situ resource utilization by tapping into the Moon's natural resources. Water extracted from the depressions near the South Pole would create breathable air and rocket propellants to support the burgeoning industry in the town. By being near the South Pole, the town would have direct access to the crater's water-ice deposits.
As for habitats for lunarites to live in, there would be individual pressurized modules which are inflatable, giving residents the flexibility to increase their living space when needed.
Most buildings would be three to four story structures that would serve as a combined workspace, living quarter and have the necessary environmental and life support systems integrated into each one.
The Moon Village was created for the ESA's reflection of future exploration beyond 2050 in partnership with NASA's strategic plan to "extend human presence deeper into space and to the Moon for sustainable long term exploration and utilization."
A pioneer Moon Village could set in stone the first opportunity to permanently inhabit the moon, spur research and explorations and serve as a gateway to the rest of the solar system and beyond.
Designing cities in Space Colonies
Wikimedia Commons | Source: NASA Ames Research Centre
Such ring habitats have been a common sight in science fiction for years, from Halo's massive ring worlds to Neuromancer's Tessier-Ashpool floating Freeside. But physicists have known for quite some time that they're actually possible to build. When space becomes more accessible, these would be the first contenders for habitation.
In NASA's "Space Settlements" study, researchers dedicated a few chapters on basic comprehensive plans, which is a deep dive into how much space would be needed for residential housing, schools and other land uses combined with transportation and other infrastructure. As for transportation, the book again goes into detail:
"Because of the relatively high population density (15,000 people/km2) in the community, most of the circulation is pedestrian, with one major mass transport system (a moving sidewalk, monorail, and minibus) connecting different residential areas in the same colony."
These floating cylinders with artificial gravity would survive by creating from the natural resources of outer space. Again in the 1970s Princeton physicist Gerald K O'Neill laid out compelling studies where he envisioned 100,000-person colonies, stationed at what is known as the fifth Lagrangian libration point (L5) in the moon's orbit.
"It is orthodox to believe that Earth is the only practical habitat for Man, but we can build new habitats far more comfortable, productive and attractive than is most of Earth," he wrote in Physics Today in 1974.
He was interested in building alternative human habitats that were both beyond Earth and beyond a planetary body. Out of this was conceived the idea of a giant rotating spaceship, which could support a biosphere and house up to 10 million people.
Planning the first cities on Mars
Wikimedia Commons | Source: NASA Ames Research Centre
In 2017, an MIT team developed a design for a settlement that won the Mars City Design competition. MIT's winning urban plan, titled Redwood forest, proposed to create domes or tree habitats that would house up to 50 people each. The domes provided residents with open public spaces containing vegetation and water, which would be harvested from deep in the Martian northern plains.
The tree habitats would be connected on top of a network of tunnels, or roots, providing transportation and access to both public and private spaces between other inhabitants of this proposed 10,000 strong community. Advanced technology such as artificial light inside these pods could strongly mimic the sight of natural sunlight.
MIT postdoc Valentina Sumini who led the interdisciplinary team, described the project's design fundamentals and elaborated on the project's poetic forest metaphor:
"On Mars, our city will physically and functionally mimic a forest, using local Martian resources such as ice and water, regolith (or soil), and sun to support life. Designing a forest also symbolizes the potential for outward growth as nature spreads across the Martian landscape. Each tree habitat incorporates a branching structural system and an inflated membrane enclosure, anchored by tunneling roots.
The design of a habitat can be generated using a computational form-finding and structural optimization workflow developed by the team. The design workflow is parametric, which means that each habitat is unique and contributes to a diverse forest of urban spaces."
The team aims to build a comfortable environment and architecture that focuses on the fundamental and critical aspect of sustainability, a baseline component needed for any Mars or offworld city.
On the entirety of the system, System Design Management Fellow George Lordos summed up the functionality by explaining the holistic and connected system they imagined.
"Every tree habitat in Redwood Forest will collect energy from the sun and use it to process and transport the water throughout the tree, and every tree is designed as a water-rich environment. Water fills the soft cells inside the dome providing protection from radiation, helps manage heat loads, and supplies hydroponic farms for growing fish and greens. Solar panels produce energy to split the stored water for the production of rocket fuel, oxygen, and for charging hydrogen fuel cells, which are necessary to power long-range vehicles as well as provide backup energy storage in case of dust storms."
Northwell Health CEO Michael Dowling has an important favor to ask of the American people.
- Michael Dowling is president and CEO of Northwell Health, the largest health care system in New York state. In this PSA, speaking as someone whose company has seen more COVID-19 patients than any other in the country, Dowling implores Americans to wear masks—not only for their own health, but for the health of those around them.
- The CDC reports that there have been close to 7.9 million cases of coronavirus reported in the United States since January. Around 216,000 people have died from the virus so far with hundreds more added to the tally every day. Several labs around the world are working on solutions, but there is currently no vaccine for COVID-19.
- The most basic thing that everyone can do to help slow the spread is to practice social distancing, wash your hands, and to wear a mask. The CDC recommends that everyone ages two and up wear a mask that is two or more layers of material and that covers the nose, mouth, and chin. Gaiters and face shields have been shown to be less effective at blocking droplets. Homemade face coverings are acceptable, but wearers should make sure they are constructed out of the proper materials and that they are washed between uses. Wearing a mask is the most important thing you can do to save lives in your community.
Two massive clouds of dust in orbit around the Earth have been discussed for years and finally proven to exist.
- Hungarian astronomers have proven the existence of two "pseudo-satellites" in orbit around the earth.
- These dust clouds were first discovered in the sixties, but are so difficult to spot that scientists have debated their existence since then.
- The findings may be used to decide where to put satellites in the future and will have to be considered when interplanetary space missions are undertaken.
What are they?<img type="lazy-image" data-runner-src="https://assets.rebelmouse.io/eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJpbWFnZSI6Imh0dHBzOi8vYXNzZXRzLnJibC5tcy8xODgyMDA0NC9vcmlnaW4uanBnIiwiZXhwaXJlc19hdCI6MTYzNTM1ODc0Mn0.NH33LuauIo__sUBi4tvhwxDcsvhflDFD-Nhx9FjlSNk/img.jpg?width=1245&coordinates=148%2C0%2C149%2C0&height=700" id="cec96" class="rm-shortcode" data-rm-shortcode-id="acb78abe2ab46a17e419ad30906751d6" data-rm-shortcode-name="rebelmouse-image" />
Artist's impression of the Kordylewski cloud in the night sky (with its brightness greatly enhanced) at the time of the observations.
G. Horváth<p>The<a href="https://en.wikipedia.org/wiki/Kordylewski_cloud" target="_blank"> Kordylewski clouds</a> are two dust clouds first observed by Polish astronomer Kazimierz Kordylewski in 1961. They are situated at two of the <a href="https://www.space.com/30302-lagrange-points.html" target="_blank">Lagrange points</a> in Earth's orbit. These points are locations where the gravity of two objects, such as the Earth and the Moon or a planet and the Sun, equals the centripetal required to orbit the objects while staying in the same relative position. There are five of these spots between the Earth and Moon. The clouds rest at what are called points four and five, forming a triangle with the clouds and the Earth at the three corners.</p><p>The clouds are enormous, taking up the same space in the night sky as twenty lunar discs; covering an area of 45,000 miles. They are roughly 250,000 miles away, about the same distance from us as the Moon. They are entirely comprised of specks of dust which reflect the light of the sun so faintly most astronomers that looked for them were unable to see them at all. </p><p>The clouds themselves are probably ancient, but the model that the scientists created to learn about them suggests that the individual dust particles that comprise them can be blown away by solar wind and replaced by the dust from other cosmic sources like comet tails. This means that the clouds hardly move but are <a href="https://www.nationalgeographic.com/science/2018/11/news-earth-moon-dust-clouds-satellites-planets-space/" target="_blank">eternally changing</a>. </p>
How did they discover this?<img type="lazy-image" data-runner-src="https://assets.rebelmouse.io/eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJpbWFnZSI6Imh0dHBzOi8vYXNzZXRzLnJibC5tcy8xODgyMDAzNi9vcmlnaW4uanBnIiwiZXhwaXJlc19hdCI6MTY1Nzc4MjQ4MX0.7uU9OqmQcWw5Ll1UXAav0PCu4nTg-GdJdAWADHanC7c/img.jpg?width=1245&coordinates=0%2C180%2C0%2C181&height=700" id="952fb" class="rm-shortcode" data-rm-shortcode-id="a778280a20f1c54cd2c14c8313224be2" data-rm-shortcode-name="rebelmouse-image" />
"In this picture the central region of the Kordylewski dust cloud is visible (bright red pixels). The straight tilted lines are traces of satellites."
J. Slíz-Balogh<p>In their study published in the <a href="https://academic.oup.com/mnras" target="_blank">Monthly Notices of the Royal Astronomical Society</a>, Hungarian astronomers Judit Slíz-Balogh, András Barta, and Gábor Horváth described how they were able to find the dust clouds using polarized lenses.</p><p>Since the clouds were expected to polarize the light that bounces off of them, by configuring the telescopes to look for this kind of light the clouds were much easier to spot. What the scientists observed, polarized light in patterns that extended outside the view of the telescope lens, was in line with the predictions of their mathematical model and ruled out other possible sources. </p>
Why are we just learning this now?<img type="lazy-image" data-runner-src="https://assets.rebelmouse.io/eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJpbWFnZSI6Imh0dHBzOi8vYXNzZXRzLnJibC5tcy8xODgyMDAzOS9vcmlnaW4uanBnIiwiZXhwaXJlc19hdCI6MTY2MjUyNDMyMH0.Zl8GmQ_rJHiL4b7hN0r_YBmgb6_ZqIRvqOVuko2ubpw/img.jpg?width=1245&coordinates=0%2C141%2C0%2C185&height=700" id="87afe" class="rm-shortcode" data-rm-shortcode-id="dd4c0b5088e601d7279cc5eb226f8b7b" data-rm-shortcode-name="rebelmouse-image" />
"Mosaic pattern of the angle of polarization around the L5 point (white dot) of the Earth-Moon system. The five rectangular windows correspond to the imaging telescope with which the patterns of the Kordylewski cloud were measured."
J. Slíz-Balogh<p>The objects, being dust clouds, are very faint and hard to see. While Kordylewski observed them in 1961, other astronomers have looked there and given mixed reports over the following decades. This discouraged many astronomers from joining the search, as study co-author Judit Slíz-Balogh <a href="https://ras.ac.uk/news-and-press/research-highlights/earths-dust-cloud-satellites-confirmed" target="_blank">explained</a>, <em>"The Kordylewski clouds are two of the toughest objects to find, and though they are as close to Earth as the Moon are largely overlooked by researchers in astronomy. It is intriguing to confirm that our planet has dusty pseudo-satellites in orbit alongside our lunar neighbor."</em></p>
Will this have any impact on space travel?<span style="display:block;position:relative;padding-top:56.25%;" class="rm-shortcode" data-rm-shortcode-id="c3d797fff5430c64afcb5a49bddc3616"><iframe type="lazy-iframe" data-runner-src="https://www.youtube.com/embed/Ou8N3v9SFPE?rel=0" width="100%" height="auto" frameborder="0" scrolling="no" style="position:absolute;top:0;left:0;width:100%;height:100%;"></iframe></span><p>Lagrange points have been put forward as excellent locations for a space station or satellites like the <a href="https://jwst.nasa.gov/about.html" target="_blank">James Webb Telescope</a> to be put into orbit, as they would require little fuel to stay in place. Knowing about a massive dust cloud that could damage sensitive equipment already being there could save money and lives in the future. While we only know about the clouds at Lagrange points four and five right now, the study's authors suggest there could be more at the other points.</p><p>While the discovery of a couple of dust clouds might not seem all that impressive, it is the result of a half-century of astronomical and mathematical work and reminds us that wonders are still hidden in our cosmic backyard. While you might never need to worry about these clouds again, there is nothing wrong with looking at the sky with wonder at the strange and fantastic things we can discover. </p>
New cancer-scanning technology reveals a previously unknown detail of human anatomy.
- Scientists using new scanning technology and hunting for prostate tumors get a surprise.
- Behind the nasopharynx is a set of salivary glands that no one knew about.
- Finding the glands may allow for more complication-free radiation therapies.
PSMA PET/CT technology<span style="display:block;position:relative;padding-top:56.25%;" class="rm-shortcode" data-rm-shortcode-id="676e611b970c9b516cace0870447b325"><iframe type="lazy-iframe" data-runner-src="https://www.youtube.com/embed/RHAyoQF09X4?rel=0" width="100%" height="auto" frameborder="0" scrolling="no" style="position:absolute;top:0;left:0;width:100%;height:100%;"></iframe></span><p>PSMA PET/CT is a new combination of <a href="https://www.mayoclinic.org/tests-procedures/pet-scan/about/pac-20385078" target="_blank">PET scans</a> and <a href="https://www.mayoclinic.org/tests-procedures/ct-scan/about/pac-20393675" target="_blank">CT scans</a> that is believed to offer a more reliable means of locating prostate cancer metastasis. A <a href="https://www.cancer.gov/news-events/cancer-currents-blog/2020/prostate-cancer-psma-pet-ct-metastasis" target="_blank" rel="noopener noreferrer">study</a> published last spring suggests it may be the most accurate way to diagnose prostate cancer metastasis than any method previously available.</p><p>Prior to PSMA PET/CT, the primary way to look for metastatic prostate cancer was to image the body using x-ray-based CT scans and to perform bone scans, since bone is where prostate cancer often spreads. CT scans, however, often miss small tumors, and bone scans can generate false positives as a result of other damage or abnormalities that have nothing to do with prostate cancer.</p><p>PSMA PET/CT scans track the travels of an intravenously administered radioactive glucose tracer throughout the body. For hunting down prostate cancer, this tracer contains a molecule that binds to the <a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1472940/" target="_blank">PSMA</a> protein that's present in large amounts in prostate tumors. The molecule is linked to a radioisotope, <a href="https://netrf.org/2018/11/13/gallium-68-scan-for-neuroendocrine-tumors/" target="_blank" rel="noopener noreferrer">gallium-68</a> (Ga-68).</p><p>In last spring's research, PSAM PET/CT was shown to be 27 percent more accurate than previous methods at finding metastases (92 percent accuracy as opposed to 65 percent). In addition, it was found to be much less likely to produce false positives, and it was particularly good at detecting tumors far removed from the prostate.</p>
A good kind of avoidance behavior<p>"Radiation therapy can damage the salivary glands," says Vogel, "which may lead to complications. Patients may have trouble eating, swallowing, or speaking, which can be a real burden."</p><p>The researchers looked back through the cases of 723 patients who had undergone radiation treatment, interested in seeing if inadvertent radiation of the tubarial glands was associated with the complications experienced by the patients. It turned out that this <em>was</em> the case: In cases where more radiation had been delivered to this area, patients did indeed report more in the way of complications of the type one would expect when salivary glands are radiated.</p><p>Now that we know the tubarial salivary glands exist, therapists can stay out of their way. Vogel says, "For most patients, it should technically be possible to avoid delivering radiation to this newly discovered location of the salivary gland system in the same way we try to spare known glands."</p><p>He's hopeful that that things may be about to get at least a bit better for cancer patients: "Our next step is to find out how we can best spare these new glands and in which patients. If we can do this, patients may experience less side effects which will benefit their overall quality of life after treatment."</p>
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