Precambrian Motorways

[Image: The geological time scale, in spiral form; via the USGS].

Upon seeing the above diagram, it occurred to me that you could – or should – redesign the 10 Mile Spiral so that it communicates geological information.
In other words, you could literally be driving up a diagram of the Earth’s deep history.
Vacationing families tootle their way around the spiral, eating ice cream cones – twisting in loops, upward through space – reading signs posted on either side about Precambrian tectonics

[Image: The 10 Mile Spiral, by Terraswarm].

At the very least, it would make the US highway system a bit more educationally worthwhile…
Every off-ramp of I-95, for instance, would tell you a quick story: the discovery of edicarans, as you pull off to get gas; the rotational history of the North Pacific Gyre, explained to you at a Georgia rest-stop; outside New York City you read in awe, slowing down at a toll-booth, about the ancient reversal of the Amazon River
Signs like these proliferate, inspiring a whole new generation to take endless car trips: driving up and down the east coast of the United States, reading about geology.
Soon, though, all those curious kids and their millions of cars emit so much carbon dioxide the Atlantic weather system shifts, plunging them all into an ice age… a planetary event that will someday be described on a sign and posted next to a highway in Kentucky.

(Geo-spiral found via Leah Beeferman).

Other Landscapes

[Image: Michael Benson, from Beyond, via the New York Times].

The New York Times reports on Beyond, “a one-year exhibition of more than 30 large-format photographs of Earth’s planetary neighbors,” opening soon at the American Museum of Natural History in New York. (For what it’s worth, the AMNH is easily one of my favorite museums in the world; I couldn’t count all the times I’ve been there.)

In any case, the New York Times explains that Michael Benson, “a writer, photographer and filmmaker, created the stunning series of pictures from the enormous archives of images taken over the years by robotic explorers of the solar system.”

Beginning in 1995 Mr. Benson spent years sifting through hundreds of thousands of photographs, looking for those that offered an aesthetic punch. He then painstakingly combined images, using digital tools like Photoshop, to eliminate dropouts and blurs from individual photos beamed back across millions of miles of space. A lovely picture of Europa, a moon of Jupiter, gliding in front of the swirling atmosphere of that planet, for example, is a blend of some 70 frames sent back by Voyager.

Benson’s got an entire book of these photographs, called Beyond: Visions of the Interplanetary Probes, complete with essays by Arthur C. Clarke and Lawrence Weschler. The book is very positively reviewed, being referred to as “breathtaking,” “resplendent,” “miraculous,” “sublimely exhilarating,” and “supremely reproduced.” Best of all, from my end, I’ll be in NY next month, so I’ll get to see the show…

Stylin’

I was perhaps a little over-excited to see that Time Magazine included BLDGBLOG in its “Style & Design 100” list for 2007…

Other blogs on the list include Greenopia, Apartment Therapy, MoCo Loco, and designboom.
I have to admit, though, to a certain amount of stunned optimism when a blog about Copernicus, Don DeLillo, science fiction and architecture, Mars, and… whatever this post was about makes it into Time Magazine.
Does that mean, in other words, that there’s some huge and untapped audience in the United States for articles about urban exploration, inflatable architecture, and W.G. Sebald? Are people in this country really looking for more information about micronations, offshore oil platforms, mud mosques, Greek myths, and futuristic outbreaks of statue disease? Does the U.S. secretly demand more Alpine thrillers…?
It makes me really happy, actually, to think that people out there want to read about this stuff – this machine, for instance. Or this lost city. Amidst more news of Don Imus there’s… the London Tornadium. And J.G. Ballard.
Anyway, congrats to everyone on the list. Congrats to everyone, in fact – I’m in a good mood.
Congratulations!

The disorienting mass of fog-bound outcroppings

[Image: Orogenesis: Man Ray/Duchamp, 2006, by Joan Fontcuberta. Courtesy of Zabriskie Gallery, via the ICP].

“Rather than venturing out into nature,” the International Center of Photography explains, Spanish photographer Joan Fontcuberta “creates plausible, even spectacular landscapes using Terragen, a computer program originally created for military and scientific uses that turns maps into images of three-dimensional terrain.”
Fontcuberta’s work was featured in the ICP’s show Ecotopia, alongside work by David Maisel and Simon Norfolk.
The above image features “a disorienting mass of fog-bound outcroppings,” generated from a photograph of Marcel Duchamp’s Large Glass, taken by Man Ray.
If the inputs can be that random, however, I have only to point out that the imaginative – and technical – possibilites are literally endless. Whole world-surfaces could be generated from tourist snapshots; photos of Manhattan turned into the undersea canyons of a distant sea; Fontcuberta’s work itself used to produce even more landscapes, three or four times removed from their source material.
Even more intriguingly, though, if you could reverse-engineer Fontcuberta’s photographs to find the original image by Man Ray mathematically encoded somewhere deep inside all that repetitive geometry of detail, what would happen if you applied the same analysis to, say, your family photo album…? Only to discover, lurking there, within those dusty prints, something monstrous and ill-formed, some original hidden mystery from which you and your loved ones derived.
Leading me to speculate, on a fairly unrelated note, that the great conspiracy plot of the future – filmmakers take note! – will involve some guy in an apartment building spending all this time reverse-engineering political photographs and news reels – presidents and heads of state and ambassadors and kings – only to realize, as the camera pulls away revealing his shaking hands, that deep beneath all those images is a…

(Thanks, Steve!)

Autumn leaves to black flowers

[Image: “The greenery on other planets may not be green,” New Scientist reports. Indeed, alien vegetation may be orange and yellow – “so the foliage would wear bright autumn colours all year round” – or even black: flowers the color of charcoal blooming over electrically charged soil. But why not transparent vegetation…? Vast equatorial jungles full of transparent plantlife, rooted on blocks of quartz, glowing from within as twin suns set behind wooded plateaus in the distance. (Above illustration by Doug Cummings @ Caltech)].

Quick list 8

It’s been a really busy few weeks, so I’ve missed a lot of interesting stories that would’ve been perfect for the blog; but it’s better late than never, right? So I thought I’d do another Quick List…

[Image: Architectural Design by Rolf Mohr; Modeling and Rendering by Machine Films. Via New York magazine].

First, Lisa Chamberlain, of Polis, had an immensely popular article in New York magazine two weeks ago exploring the idea “that ‘vertical farm’ skyscrapers” designed by a man named Dickson Despommier “could help fight global warming.”

Imagine a cluster of 30-story towers on Governors Island or in Hudson Yards producing fruit, vegetables, and grains while also generating clean energy and purifying wastewater. Roughly 150 such buildings, Despommier estimates, could feed the entire city of New York for a year. Using current green building systems, a vertical farm could be self-sustaining and even produce a net output of clean water and energy.

Despommier’s towers could also free up cropland so that literally hundreds of thousands of acres of corn, wheat, potatoes, cotton, oranges, lemons, artichokes, strawberries, spinach, parsley, sage, rosemary, thyme, etc., could return to – or be turned for the first time into – forest. This, in turn, might help reverse global warming (though it also might not).
At the very least, it’d be cool.

[Image: Architectural design by Rolf Mohr; modeling and rendering by Machine Films; interiors by James Nelms Digital Artist @ Storyboards Online. Via New York magazine].

Chamberlain cites an example of how this could work: “Depending on the crops being grown,” she writes, “a single vertical farm could allow thousands of farmland acres to be permanently reforested.” For instance, she continues, “after a strawberry farm in Florida was wiped out by Hurricane Andrew, the owners built a hydroponic farm. By growing strawberries indoors and stacking layers on top of each other, they now produce on one acre of land what used to require 30 acres.”
This 30:1 densification rate could radically transform the American landscape.
The actual details of a “vertical farm” are fascinating, meanwhile, and for that reason alone I would recommend reading the whole article; I particularly like the “Evapotranspiration Recovery System,” which will be “nestled inside the ceiling of each floor”; there, it will “collect moisture, which can be bottled and sold.”
In any case, Pruned actually covered this story, albeit in far less detail, two years ago, before anyone – including Boing Boing – took off with it. More on topic, though, if you like the idea of skyscrapers being turned into vertical croplands, then don’t miss Future Feeder‘s look at so-called urban underground farming, also from 2005.
Lisa’s piece wasn’t the only look at farming in recent weeks, however; The New York Times reported that, due to a rising industrial demand for ethanol – a biofuel product derived from corn – American farmers this year will be planting “a staggering 90.5 million acres [of corn], the most since World War II and 15 percent more than last season.”
The fact that the American landscape thus gives physical form to distant legislative decisions meant to regulate the ethanol content of gasoline absolutely fascinates me. For every freeway and gas station, there is a cornfield somewhere – but, for very obvious reasons, the reverse is also true.
But perhaps we should combine Lisa Chamberlain’s article with the rise of biofuels… and free up all these excess cornfields for something a bit more biologically adventurous. Like entire forests full of living knots and ladders.

[Image: The water behind stored Hoover Dam is down more than eighty feet; photo by Jim Wilson for The New York Times].

Speaking of landscapes, then, The New York Times also reported on a growing, nearly decade-long drought in the American southwest. “Everywhere in the West, along the Colorado and other rivers,” we read, “as officials search for water to fill current and future needs, tempers are flaring among competing water users, old rivalries are hardening and some states are waging legal fights.”
With a wonderfully Ballardian twist, we learn that the drought’s effects “can be seen at Lake Mead in Nevada, where a drop in the water level left docks hanging from newly formed cliffs, and a marina surrounded by dry land.”

[Image: One of several “docks left hanging from newly formed cliffs” on the edge of a receding Lake Mead; photo by Jim Wilson, for The New York Times].

Even more interesting:

Preparing for worst-case outcomes, the seven states that draw water from the Colorado River – Colorado, Wyoming, Utah and New Mexico in the upper basin and California, Arizona and Nevada in the lower basin – and the United States Bureau of Reclamation, which manages the river, are considering plans that lay out what to do if the river cannot meet the demand for water, a prospect that some experts predict will occur in about five years.

Five years! Is part of their plan to drain the Great Lakes?
We then read that Las Vegas actually wants to build a pipeline drawing water all the way from northern Nevada – so that water currently used by ranchers can, instead, spray out of faux-Italian fountains at the sagging chests of morbidly obese vacationing children who are too big to fit in the hotel kiddy pool.

[Image: Workers remove turf from a Nevada golf course, revealing the desert sand beneath; photo by Jim Wilson for The New York Times].

To their credit, “[r]anchers and farmers in northern Nevada and Utah are opposed to the pipeline plan”; they have, in fact, “vowed to fight it in court, saying it smacks of the famous water grab by Los Angeles nearly a century ago that caused severe environmental damage in the Owens Valley in California.” This “famous water grab,” of course, was dramatized by Roman Polanski’s film Chinatown – and the water grab’s long-term effects have been beautifully documented, in a series of aerial landscape photographs, by David Maisel, who I had the pleasure of interviewing last Spring in a Feature on Archinect.
David Maisel refers to sites like Owens Lake as “dismantled landscapes, abandoned, collapsing on themselves.”

[Image: The scarred bed of a drained Owens Lake, as photographed by David Maisel; the water of Owens Lake was stolen by the city of Los Angeles nearly one hundred years ago].

Maintaining our temporary focus here on landscape and pollution, the BBC reported last week about the “toxic truth” of a “secretive Siberian city.”
Reporters from that news organization apparently “entered a remote region of Russia normally closed to foreigners that produces almost half the world’s supply of palladium – a precious metal vital for making catalytic converters.” Like an image from William Blake – if he’d perhaps been raised in a different era, watching too many films by Andrei Tarkovsky – we read that, deep in the smelting plants, “[v]ast furnaces roast the ore extracted from the mines, eventually disgorging streams of red-hot liquid metal into containers that dwarf the workers standing nearby.”
Huge and poisonous clouds then belch upward from smokestacks, like an artificial weather system hanging above the city.
Greenpeace warns that all this pollution “has created a 30km (19 mile) ‘dead zone’ around the city and quotes scientists as saying the acid rain has spread across an area equivalent in size to Germany.”

[Images: From the BBC].

From there, the BBC leads us into a landscape of industrial destruction; this treeless waste, in what should really be a forest, “stretches across an area so great it has been described as perhaps the largest man-made desert in the world.”
You can find this “desert” on the Kola peninsula, also in Russia.

[Image: A landscape of death in the Kola peninsula; photo via the BBC].

This is turning out to be a rather depressing post at this rate, but I was also interested to read that urban air pollution is considered, according to a recent study conducted in England, “more than dangerous than Chernobyl“:

The study suggests high levels of urban air pollution cut short life expectancy more than the radiation exposure of emergency workers who were sent into the 19-mile exclusion zone around the site straight after the accident.

But cities aren’t all bad…
Even in the filth and ruin and degradation; the anonymity, violence, and emotional free-fall; amidst so much friendlessness and abandonment, we can still find our own strange epiphanies.
In a great interview with writer Luc Sante, for instance, we’re greeted with this wonderful excerpt from his work:

In the 1970s New York City was not a part of the United States at all. It was an offshore interzone with no shopping malls, few major chains, no golf courses, no subdivisions. We thought of the place as a free city, where exiles and lamsters and refugees found shelter. Downtown we were proud of this, naturally.

The use of the word “interzone,” however, immediately conjures up the literary ghost of William Burroughs, who used the term to indicate a city “where the unknown past and the emergent future meet in a vibrating soundless hum.” More, the Interzone is a “Composite City where all human potentials are spread out in a vast silent market”; its architecture consists of “perilous partitions built on multi-levelled platforms, and hammocks swinging over the void.”
In any case, Sante continues: New York “was a wild, one-in-a-million conjunction of circumstances, a sort of black pearl of world history, when New York City was at one and the same time both the apex of Western culture and the armpit of the Western world.”
This isn’t entirely relevant, meanwhile, but I’m going to quote it anyway; here is a long excerpt from that interview, describing the “founding myth” of the U.S.A.:

Well, think about it: the founding myth of this country involves pushing farther and farther out into terra incognita, cutting ties to family and background, maybe adopting a new name and a completely concocted new identity, and somehow making lots of money, the existence of which in sufficient quantity is enough to stifle any questions about its provenance. The land that formerly belonged to the Sioux, the copper that formerly belonged to the Navaho, the skins that formerly belonged to the beavers, the stake that formerly belonged to the miner who caught diphtheria – they’re yours now, pal. Call yourself “Colonel” and declare that your fortune was left to you by Dutch burghers from the seventeenth century. Now you’re a solid citizen, the embodiment of hard work and rugged individualism. You’re no criminal. The criminal is the guy who comes up short, who gets caught, who fails to adopt a respectable cover. But after a while the solid citizen gets to missing those wild years, even as he is ensconced in his forty-room Carrera-marble Beaux-Arts palace on upper Fifth Avenue. He thinks wistfully of how he used to hop freights, sleep in culverts, drink white lightning in hobo jungles, take a sash-weight to his competitors, go through the pockets of the recently dead. He envies those who live that life now denied him forevermore. It seems to him that he’s a prisoner of his own success and that those yeggs out there are truly free.

Meanwhile, all this talk of “perilous partitions” and “multi-levelled platforms… swinging over the void” reminds me of another story I neglected to link last week: the now well-known tale of a Russian gangster who built himself a castle made of planks.

[Image: The gangster’s castle; photo by Dmitry Beliakov, via the Telegraph].

“Dominating the skyline of Arkhangelsk, a city in Russia’s far north-west,” the castle “is believed to be the world’s tallest wooden house, soaring 13 floors to reach 144ft – about half the size of the tower of Big Ben.”
This “remarkable architectural feat,” the Telegraph says, “defies easy description.”

A whimsical jumble of planking, from a distance it bears a resemblance to a Japanese pagoda, but draw closer and it seems more like a mix between a Brobdignagian tree house and the lair of a wicked fairytale character.

The castle’s designer and builder – the “gangster” himself – now spends his time giving “death-defying tours that involve criss-crossing rotting planking and climbing icy ladders.”

[Image: The gangster’s castle; photo by Dmitry Beliakov, via the Telegraph].

All of which pales slightly when faced with the quote-unquote “looming sink-hole crisis.”
It seems we should all be very afraid: “Last year was the worst ever in the U.S. for sinkholes. Almost every state in the country experienced record problems.”
In what is surely one of the most ridiculous examples of scare journalism I’ve ever seen, we read the following:

In San Diego, the mayor held a news conference near a yawning abyss. A 64-year-old Brooklyn woman fell into a 5-foot-deep sinkhole in front of her house.
In Los Angeles, a broken water main created a sinkhole 30 feet deep and shut down half of Pacific Coast Highway near Malibu. At the same time, a broken sewer pipe shut down the adjacent beach.
In Northern California, an 8-foot-deep sinkhole stunned the occupants of a nearby office building. In Grand Rapids, Mich., residents had to boil water after a sinkhole cut off their water service.
And this year is shaping up to be even worse.

The article goes on to urge almost literally everyone to fix their old pipes – because a broken pipe means leaking water, and that means underground erosion… which just might produce another sinkhole.
What makes the article even more absurd – just totally and stunningly, even amazingly, absurd – is that its author is the “president and chief executive of a large sewer, water and oil pipe repair company.”
I think I’ll leave it at that; these Quick Lists are getting longer and longer. Apologies, meanwhile, for not covering any of these stories when they first hit the web – but I’m hoping to get back on a regular posting schedule soon… Busy times!

(With thanks to Jill, doilum, Carl Douglas, Jon Haeber, Lisa Chamberlain, and others for the tips. Earlier on BLDGBLOG: Quick list 7, Quick list 6, etc.)

The Event

Well, I’m back in LA and so I wanted to give a quick and public thanks to everyone who came out on Saturday afternoon for the event in San Francisco; to the speakers themselves: John Bela & Matthew Passmore, Erik Davis, Lisa Iwamoto & Craig Scott, and Walter Murch; and to everyone else involved with the proceedings, including Alan Rapp & Chronicle Books, Fred Dolen & the CCA, and our two indefatigable technical assistants.
We videotaped everything, as well, so once I figure out whether we’ll be putting those tapes online or simply transcribing them, I’ll let you know.
But it was a great event, I thought. There were some moments in which the screen turned magenta and we went rather beyond the scheduled time slot, but it was a nice mesh of topics, approaches, ideas, and imagery, and some really cool conversations ensued at the end.
So thanks again – and, if you did come out, I hope you had a good time! If you didn’t have a good time, of course, please feel free to tell me why…

The Heliocentric Pantheon: An Interview with Walter Murch

[Image: Inside the Pantheon; via].

Through both film editing and sound design, Walter Murch has worked literally behind the scenes of Hollywood to give shape and structure to the films we see. In the process, he’s won three Academy Awards; he’s directed his own feature-length film, the creatively subversive Return to Oz; and he’s worked with some of the greatest directors of modern times, including Francis Ford Coppola and George Lucas, on some of their greatest films, from The Godfather trilogy and Apocalypse Now to The Conversation and THX-1138.
But it is due only in part to Murch’s stellar career in film that I wanted to talk to him for BLDGBLOG.
As it happens, Murch’s interests go far beyond the reach of cinema, encompassing architecture, astronomy, music theory, and mathematics – among an almost impossibly broad range of other subjects. When a friend of mine casually mentioned that Walter had “discovered” something about the Pantheon, in Rome, and that this discovery had something to do with Nicolaus Copernicus and the origins of heliocentrism in Western astronomy, I was determined to write about it for BLDGBLOG. Within only a few weeks, Walter and I were in touch.
Of course, Murch is already very well-known as an interviewee; as only one example of this, novelist Michael Ondaatje recorded an entire book’s worth of interviews with Murch, later published under the title The Conversations: Walter Murch and the Art of Editing Film.
That book is never less than fascinating, if frequently enigmatic; at one point Murch claims, for instance, referring to his sound work for film: “If I go out to record a door-slam, I don’t think I’m recording a door-slam. I think I am recording the space in which a door-slam happens.”
Or, continuing that thought:

I spent a lot of time trying to discover those key sounds that bring universes along with them. I tend not to visualize but auralize, to think about sound in terms of space. Rather than listen to the sound itself, I listen to the space in which the sound is contained.

Murch and I spoke for roughly an hour, and we continued our conversation through email; we managed to discuss the Pantheon, Copernicus, the Mithraic religion of the ancient Mediterranean, urban acoustics, the music of the spheres, Brian Eno, Single Speed Design, the architecture of film, and whether CCTV surveillance of city streets should be considered a new cinematic avant-garde.
It’s worth noting, finally, that this interview goes online only a few hours before Murch is due to speak at an event in San Francisco, co-organized by BLDGBLOG and Chronicle Books; there, he will be discussing his thoughts on Copernicus and the Pantheon in more detail.

• • •

[Image: Exterior view of the Pantheon].

BLDGBLOG: I’d like to start with your research into the Pantheon – in particular, how that building’s structure may have influenced the astronomical theories of Nicolaus Copernicus. Could you tell me a bit more about that?

Walter Murch: Well, the Pantheon still holds its mysteries: Who designed it? How was it used? What does it mean? But Copernicus still has his mysteries, too: Why did someone like him, a high official in the Church, 500 years ago, dedicate his life to the idea that the Earth revolved around the Sun? Not only did this contradict common-sense and the teaching of the Bible, but it also capsized 1400 years of Ptolemaic, geocentric astronomy. And Ptolemy, it turns out, was writing his classic book on astronomy – the Almagest – while the Pantheon was being built.

At any rate, Copernicus was born in 1473. He studied astronomy at the University of Bologna, along with medicine and law, and while he was there he became an assistant to Domenico Novara. Novara was a well-known astronomer who may have exposed Copernicus to the 3rd century BC theories of Aristarchus.

Aristarchus believed that the Sun was the center of the universe. He also believed that the Earth not only revolved around the Sun, along with all the other planets, but that it rotated on its axis once every 24 hours, and that the moon, in turn, revolved around the Earth. So – more than two thousand years ago – Aristarchus described the solar system essentially the way we conceive of it today; yet his theory was rejected at the time, and his writings were subsequently lost.

Scholars in the Renaissance were only able to learn about Aristarchus through a book called The Sand Reckoner, by Archimedes, where Aristarchus’s theory is described – but it’s used as the premise for an impossibly large universe. Aristarchus’s heliocentrism is almost certainly the source of Copernicus’s inspiration – but why did Copernicus take it seriously when no one else did?

In 1500, a Jubilee year, Copernicus took time off from his studies in Bologna and he moved to Rome. This is where the Pantheon comes in. Circumstantial evidence would suggest that if you were a young man of 27, footloose in Rome, the Pantheon would be high on your list of places to visit: it was probably the most famous building in the world at that time – the only intact structure from Ancient Rome – and it featured the world’s largest dome: 142 feet in diameter. It remains, to this day, the largest unreinforced concrete dome in the history of architecture.

The Pantheon had survived mainly because it was consecrated in 609, yet the overwhelming feeling when you walk into that building is pagan: a series of concentric circles surrounding a single bright source of light – which is the oculus in the center of the dome. It’s pretty certain that the Pantheon was designed by the Roman Emperor Hadrian, and Hadrian was a Mithraist – a worshipper of the Sun.

The only writing about the Pantheon from around the time it was built appears in the History of Rome, by Dio Cassius. Dio Cassius mentions that some people believed the name Pantheon (which is Greek for all gods) came from the statues of the many different gods which decorated the building, “but my own opinion of the name is that, because of its vaulted roof, it resembles the heavens.”

That powerful image of the central source of sunlight surrounded by a series of concentric circles must have been an overwhelming experience for Copernicus, primed by his knowledge of Aristarchus. He would have been standing in a church (St. Mary All Martyrs) built 1400 years earlier as a pagan temple, looking up at Aristarchus’s theory “in the flesh” so to speak.

[Image: The dome of the Pantheon, a “celestogramme” by Wolfgang Wackernagel].

BLDGBLOG: Are there any writings or images by Copernicus that might prove he interpreted the building this way?

Murch: There is a drawing in Revolutions, at the end of Chapter Ten, where Copernicus, for the first time, schematically illustrates his conception of the Universe. It’s a series of concentric circles, the outermost being the “Sphere of the Fixed Stars,” with progressively smaller circles representing the orbits of Saturn, Jupiter, Mars, Earth, Venus, and Mercury. In the center, of course, is the dot of the Sun. Copernicus’s exact words accompanying the drawing are significant:

At rest, however, in the middle of everything is the Sun. For in this most beautiful temple (in hoc pulcherimo templo) who could place this lamp in another or better position than the center, from which it can light up the whole at the same time? For, is not the Sun called ‘the lantern of the universe’ and, ‘its mind’ and by others ‘its ruler’? Hermes Trismegistus calls the Sun ‘a visible god’, and Sophocles’ Electra calls it ‘the all-seeing’. Thus indeed, as though upon a royal throne, the Sun governs the family of planets revolving around it.

What leaps out from that text are the allusions to this beautiful temple, illuminated by a central lamp – and lantern was the architectural term used in Copernicus’s time to refer to the central opening in a dome – which lights up the whole. Then there are the classical references to Hermes Trismegistus and Sophocles. These are not the words of a cautious medieval ecclesiastic, but someone deeply influenced by the ancient pre-Christian world.

[Image: A diagram of the planetary orbits, by Nicholas Copernicus].

BLDGBLOG: So, in that passage, he was simultaneously describing the structure of the Pantheon and his theory of the solar system?

Murch: In a sense.

Inspired by that description, I then superimposed Copernicus’s drawing over an image of the Pantheon’s dome – and found that the ratios of the circles in his drawing and the ratios of the circles of the Pantheon line up almost exactly. Seeing that alignment was one of those wonderful moments where you suddenly feel a strong current of connection with the past.

[Image: A superimposition, by Walter Murch, of Copernicus’s diagram of planetary orbits over a celestogramme of the Pantheon by Wolfgang Wackernagel].

BLDGBLOG: Wow! That’s not just a coincidence? Copernicus actually meant for that to happen?

Murch: The circumstantial evidence is compelling, but there is no reference to the Pantheon in any of Copernicus’s correspondence or in the various manuscript versions of de Revolutionibus – so we will probably never know for sure.

Nonetheless, it’s a fascinating thought: that this magnificent temple, built 1400 years before Copernicus ever saw it, designed by a pagan, Sun-worshipping Roman emperor, and later transformed into a church, may have had secretly encoded within it the idea that the Sun was the center of the universe; and that this ancient, wordless wisdom helped to revolutionize our view of the cosmos.

BLDGBLOG: As far as the organization of the solar system goes, you’ve also been doing some interesting work with Bode’s Law, which has to do with finding a mathematical pattern in the orbits of the planets. How did you first discover that Law, and where is your research going?

Murch: Well, it was something I ran across a number of years ago in Arthur Koestler’s book The Sleepwalkers – a history of our conception of the universe from ancient Greece through Copernicus, Kepler, and Galileo to Newton. Bode’s Law is just mentioned as a footnote.

Kepler, in particular, had been obsessed with finding a pattern in the orbits of the planets – his famous Three Laws were discovered almost incidentally along the way to that goal, and he would probably be very upset to find that we remember him for his those laws (which he did not number or particularly esteem) and that we’ve forgotten the planetary harmonics to which he devoted his life. But, even by the middle of the 1600s, Kepler’s harmonies were considered a lost cause.

Then, sometime in the 1760s – more than a hundred years after Kepler – a German professor of physics inserted a formula into a French book he was translating: a simple bit of algebra which seemed to indicate there was, indeed, a pattern to the planetary orbits. That professor was Johann Titius, and his formula was later appropriated and published by the director of the Berlin observatory, Johann Bode. Bode had a much bigger megaphone than Titius, so the formula became known as Bode’s Law – but it should really be named after Titius.

When I read Sleepwalkers I was right in the middle of finishing a film – and it was odd, because I was under a tight deadline, but this idea really got under my skin. So at 11:30 at night I started fooling around with the Bode numbers, and within half an hour, I came up with a formula that generated the same set of ratios, yet was different from the original – and that really made the hair on the back of my neck stand up! That was what started me down this road, about ten years ago.

[Image: The rings of Saturn; courtesy of NASA].

BLDGBLOG: What’s the specific idea behind the Law itself? In other words, what exactly is Bode’s Law?

Murch: It’s a relatively simple exponential function, sprinkled with a few arbitrary constants – you put whole numbers (1, 2, 3, 4, etc.) in at one end and a series of different numbers come out the other (.4, .7, 1.0, 1.6, etc.). It turns out that these new numbers are very close to the average distances of the planets from the Sun, measured in Astronomical Units (AU). For instance, the Earth is (by definition) 1 AU from the Sun. Bode’s Law says that there should be a planet at .7 of that distance – and Venus is actually found at .72 AU.

Titius’s formula not only correctly described – to within a few percentage points – the average distances of the six planets known at the time, but it also predicted that there should be planets at certain distances where there seemed to be empty space. Then, in 1781, Uranus was discovered – the first planet ever to be discovered with a telescope – and its average distance turned out to be 19.2 AU, within 2% of the predicted 19.6. In 1801, Ceres, the first and largest asteroid, was discovered at 2.77 AU, within 1% of the predicted 2.8.

It was a kind of astronomical apotheosis: Titius’s formula seemed to be both descriptive and predictive: the holy grail of science. It fit all the known planets – even newly-discovered ones. So, even though nobody knew why it worked, Titius’s formula was assumed to be a Law. Unfortunately for Titius, who died in 1796, it became popularly known as Bode’s Law.

Everything was fine for the next fifty years, but then disaster struck: in 1846, another new planet was discovered – Neptune – but it didn’t fit. It should have been at 38.8 AU, but it was orbiting at 30, off by almost 30%.

It was a fatal blow. Bode’s Law fell into obscurity, where it remains to this day. Now, when you take astronomy 101, if Bode’s Law is mentioned at all, it’s presented as a historical curiosity. Or a cautionary tale of wrong thinking – luring unwary astronomers into the swamp of numerology.

But, then, when Pluto was discovered in 1930, it fit to within 2% the orbit where Neptune should have been. So rather than throw the whole thing out because one planet didn’t fit, I thought it would be interesting to set Neptune aside as a renegade and see what I could learn by applying the formula to other orbital systems.

I eventually discovered that there are parts of the formula that are linked to particular and unique aspects of our own solar system – and that these particularities are responsible for some of the arbitrary constants in the formula. I found if I could purify the formula of these constants, then I could also make it simpler and more general, and yet it would still yield the same set of ratios.

[Images: The rings – and a moon – of Saturn; courtesy of NASA].

BLDGBLOG: How did you purify it?

Murch: Well, one of the unexamined assumptions in Bode’s Law is that the unit to which everything is mathematically compared is the distance of the Earth from the Sun. This seems perfectly natural – it’s the Astronomical Unit, and the Earth is where we live. But this comparison requires the formula to perform a kind of mathematical jiu-jitsu: it has to generate a series of ratios and compare all of those ratios to the Astronomical Unit.

So it seemed more logical to abandon the Astronomical Unit and just concentrate on the ratios. Once you do that, the formula gets much simpler: it doesn’t have to do two things at once. This new formula is not only simpler, but it’s also lost its “Earth-centricity.” Now you can apply it to other orbital systems – the miniature “solar systems” of the moons around Jupiter, Saturn, Uranus, and Neptune, for instance, and you find the same set of ratios cropping up!

Of course, it’s not that the moon systems of those planets somehow duplicate the solar system – they don’t. It’s rather that, underlying all of these moons and planets, there is a pattern of ratios, like the musical ratios underlying a keyboard. Just as you are restricted to playing certain musical ratios on a keyboard, so it seems to be with the arrangements of these moons. Some systems “play” – or occupy – certain orbits that others don’t.

Applying the same formula to different systems is potentially very fruitful. By comparing orbital systems you find that, in each of system, there are a few renegades – like Neptune in our solar system – but each of these is a renegade in the same way as Neptune: all of them fall exactly at the midpoint between two adjacent Bode-predicted orbits. So there is an underlying similarity even to the exceptions.

[Image: Bode-predicted planetary orbits compared to those orbits as they are now scientifically understood].

BLDGBLOG: The “music of the spheres” is perhaps an inevitable metaphor to use here – but I’m curious if you have actually found a real, numerical correspondence between the structure of Western music and the orbits of the planets, or if it’s just a convenient metaphor.

Murch: That’s one of the startling things about this. If I wrote the simplified Bode formula down on a piece of paper and showed it to music theorists, they would ask: “Why are you showing us a formula from the overtone series…?”

In other words, Bode’s Law gives a series of orbital ratios which are mathematically identical to intervals in musical theory. They’re primarily variations on what we call the 7th chord: C, E, G, B-flat. Bode’s predicted ratio between Earth and Mars, for instance, is the same as the 5:8 musical ratio between E and C. And if you divide the distances, in kilometers, of the four Galilean moons by a common denominator you get the notes Ab, E, C, Bb. And so on.

[Image: The moons of Jupiter].

BLDGBLOG: Have you discussed these ideas with actual astronomers? How did they react?

Murch: I’ve given this, as a lecture, in various forms – at the National Convention of Digital Astronomy in Italy in 2004; at NYU in 2005; and then, last year, at the Chicago Humanities Festival. I think it was well-received in each case, but it’s still a work-in-progress, and I’m looking for feedback from people who are interested in this kind of cross-disciplinary thinking. For most astronomers it’s hard to contemplate reviving a long-discredited 18th century law of celestial mechanics, let alone the music of the spheres! [laughs] The conventional wisdom about Bode’s Law is that it’s just a fluky coincidence.

[Images: The world as a series of chords; via].

BLDGBLOG: So there are similarities between this and music theory – but what about between this and film theory? Is there a kind of Bode’s Law of film editing? The relationships between scenes and so on?

Murch: I think the common thread to both astronomy and film-editing is this search for patterns. Now, at least as far as we can tell, filmmaking is not amenable to the same kind of mathematical rigor that applies to astronomy [laughs] – there may be a mathematical rigor, but we certainly haven’t discovered what it is yet.

Think how difficult it would be to explain musical notation to someone from ancient Egypt, when they did not even suspect the underlying mathematical laws of harmonics, let alone a way of writing it all down. Instead, for thousands of years, music was the main poetic metaphor for that which could not be preserved. Music evaporates as soon as it is performed. So this idea – that marks could be made on paper, and that this paper could then be sent hundreds of miles away, allowing different people to play the same music years later – I think would have seemed very strange, even impossible, to people in ancient times.

Maybe someday, though, we’ll turn a conceptual corner and suddenly discover the equivalent of musical theory and notation in film. Maybe we are still “Ancient Egyptians” in that regard.

BLDGBLOG: When you’re actually editing a film, do you ever become aware of this kind of underlying structure, or architecture, amongst the scenes?

Murch: There are little hints of underlying cinematic structures now and then. For instance: to make a convincing action sequence requires, on average, fourteen different camera angles a minute. I don’t mean fourteen cuts – you can have many more than fourteen cuts per minute – but fourteen new views. Let’s say there is a one-minute action scene with thirty cuts, so that the average length of each is two seconds – but, of those thirty cuts, sixteen of them will be repeats of a previous camera angle.

Now what you have to keep in mind is that the perceiving brain reacts differently to completely new visual information than it does to something it has seen before. In the second case, there is already a familiar template into which the information can be placed, so it can be taken in faster and more readily.

So with fourteen “untemplated” angles a minute, a well-shot action sequence will feel thrilling and yet still comprehensible: just on the edge of chaos, which is how action feels if you are in the middle of it. If it’s less than fourteen, the audience will feel like something is lacking, and they’ll disengage; if it’s more than fourteen, so much new information is being thrown at the audience that they’ll also disengage, though for different reasons.

At the other end of the spectrum, dialogue scenes seem to need an average of four new camera angles a minute. Less than that, and the scene will seem flat and perfunctory; more than that, and it will be hard for the audience to concentrate on the performances and the meaning of the dialogue: the visual style will get in the way of the verbal content and the subtleties of the actors’ performances.

This rule of “four to fourteen” seems to hold across all kinds of films and different styles and periods of filmmaking.

BLDGBLOG: Returning to the idea of music and sound for a moment, are there any places or buildings that you’ve visited, anywhere in the world, that particularly seemed to highlight the connection between a space and the sounds that occur in it? A kind of acoustic urbanism, where how a place sounds totally transforms what you see happening there?

Murch: Actually, I had that exact experience – but it was while watching a film. [laughter] Grand Central Station had been used as a location for one of the scenes. And this was despite the fact that I grew up in Manhattan, had been in Grand Central many times, and had developed an interest in sound recording as a teenager. But I was deaf to the kind of acoustic urbanism you’re speaking of until I saw Seconds by John Frankenheimer, in 1965.

There was just a single hand-held shot gliding down the main staircase, but accompanied by this…. bwoooaaahmmmm… the sound of that great room in all its wonderful complexity. It hit me very hard, emotionally, even though in retrospect it was quite obvious: the realization that you could join a certain tonality with a certain architectural space to create an emotion in the audience. And, if you wanted to, that you could then manipulate or distort that tonality to create a different sense of the visual space and a different emotion.

I’ve been pursuing that idea ever since. On every film I try to think as deeply as I can about the implied acoustic space of each scene; I then try to tailor the reverberant quality of the sound, and the tonality, to the spaces that we’re looking at. It’s endlessly fascinating, particularly because this technique flies “below the radar” of the audience. The filmmaker can have an effect on the audience without the audience knowing where that effect is coming from. Which I would guess is something that architects enjoy playing with, too.

[Images: Grand Central Station; via].

BLDGBLOG: As far as an acoustically rich space goes, is there a specific place – or a building or a landscape – where you like to record sounds for use in a film? How does the actual space affect the sounds you can record in it?

Murch: Well, first of all, I record a sound without any atmospheric envelope around it. I then take that recorded sound and find an acoustic space that is as close as possible to the acoustical space in the film; I play the sound in that space; and I record the resulting reverberation on another device, placed to extract the maximum reverberation. Then, in the final mix, I have the ability to blend those two sounds: the “dry” sound itself, alongside a sound which is almost all reverberation.

In musical terms, you could say it’s like the relationship between the string of the violin and the reverberation and amplification added by the body of the violin itself.

By first separating and then balancing those two elements together, I can custom-fit what seems to be the right dimension of sound implied by the space on screen. If you have too much reverb, and you don’t hear enough of the original sound itself, the result is too diffuse and ethereal to be realistic – but sometimes that lack of realism is exactly what you want. On the other hand, if you play proportionately too much of the dry sound, it doesn’t seem to connect to the space you’re looking at. But maybe that’s exactly what you want – that kind of dislocation. It all depends on the dramatic intent of the moment. But these two elements give you the handles to control the final result.

Over the last forty years, this time-consuming technique of physically “worldizing” the sound has been gradually replaced by increasingly sophisticated digital techniques, though the principle is the same. Now we can record a digital “snapshot” of a real acoustic space, using tone bursts and frequency sweeps, and then impose the resulting parameters on any sound we want, back in the studio.

BLDGBLOG: In a still unpublished interview I did with a Boston-based architecture firm called Single Speed Design, I asked one of the principal designers whether he liked ambient music – and his answer was interesting. He said that he didn’t like ambient music at all because it already included all the reverb, echo, and other effects that should have been introduced by the space in which the music was played. In other words, ambient music does the work of architecture for you, on the level of acoustics.

Murch: Exactly. He was reiterating, in an architectural sense, exactly what we do as a sound recordists.

BLDGBLOG: Another anecdote I think is interesting here comes from the British composer Brian Eno. Eno once said that he would make field recordings in different parks around London, then listen to the tapes until he’d memorized them – the way you would memorize a Beatles song. So he would know exactly when the church bell rang, and the mother called out to her child, and the birds flew overhead – or a distant truck rumbled by. He memorized the space according to the sounds that occurred within it.

Murch: There’s a wonderful essay by Michelangelo Antonioni, notes for a film that he was going to make in New York. To familiarize himself with the acoustic space of Manhattan (where he had never made a film) he sat in a room 34 stories up in a hotel somewhere on Fifth Avenue, writing down exactly what he heard over a period of three hours from dawn through rush hour. He came up with the most wonderful metaphors for sounds that were mysterious and unfamiliar to him, but which would be run-of-the-mill to a New Yorker. It’s a great read: a kind of meditative poetry, or song, just like Brian Eno said. It can evoke a whole series of emotional responses if you’re sensitive to that kind of stuff.

BLDGBLOG: Speaking of which, is there a specific place, like Leicester Square or some forest near San Francisco, where you thought to yourself: I could do this better – I could make this place sound better?

Murch: [laughs] Back in the late 60s we used to think of hiding a series of playback devices around a house to improve the sounds of the doors closing, the toilets flushing, and so on. Creating a real-life alternate acoustic universe.

Certainly the dominant thing that’s happened over the last hundred years is the universal spreading of white noise – just the general mush of traffic, air-conditioning, and jet planes. Whereas if you were in Leicester Square a hundred years ago, it might have been just as noisy – but the sounds would be more specific, less mushy and ill-defined because of the lack of the internal combustion engine and the constant whir of rubber tires on asphalt. For a number of years Aggie and I lived very near a freeway, on a Sausalito houseboat, and that constant mushy sound eventually became a kind of water-torture for me.

So I don’t have a specific answer for your question – but, generally, it would be to try to find some way to eliminate the white noise and to make people more sensitive to the individual sources of sound and reverberations within the space. Church bells can do that: they attract the ear with their tonality and reverberation, making you aware of the space between you and the church, and making you less aware of the underlying white noise.

[Image: Harry Caul (Gene Hackman) gets to know his surveillance equipment; from The Conversation. Courtesy of American Zoetrope].

BLDGBLOG: Finally, I’m curious how you, as a film editor, see the rise of video surveillance – CCTV – in cities around the world. It seems that cinema has become the default condition of urban security. So I have two questions: do you think that a new kind of cinematic avant-garde is evolving in the control rooms of private security firms? In other words, these epic, nine-hour shots of parking lots seem more Warholian than Andy Warhol. And, second: if you were suddenly faced with all of the surveillance footage generated in a city for a day, do you think you could edit it into a convenient, albeit imaginary, narrative? You could take all those non-events and edit them into something – with action, and a storyline, and rhythm?

Murch: Well, there was a short film made a few years ago where the filmmaker had worked out the location of all the surveillance cameras along a cross-section of London, and how many of those cameras were operated by the municipal authorities. If the cameras were operated by the city, then he could get access to the footage. So he mapped out a pedestrian trip for himself across town knowing that, at every moment he would be on CCTV: as soon as he was out of range of one camera, he would come into focus on another. So he walked the walk, wrote to all the relevant authorities, got the footage, and then edited it all together into a continuous narrative. It’s very amusing in a dystopian, Warholian kind of way. You only “get” the joke after a few minutes of watching.

But George Lucas’s THX-1138 was kind of like that, except it was made in 1971. Much of the action takes place on video surveillance cameras. In fact, the job of the girl in the film is to monitor banks of surveillance cameras. She eventually gets fed up, stops taking her Prozac, or whatever, and tries to escape this completely video-monitored world – which, it turns out, is completely underground because of some disaster that had happened on the surface many years earlier.

Also similar, in some ways, is The Conversation – which is about audio surveillance – made around the same time. Part of the visual style of that film was a dispassionate “surveillance camera” look. There are a number of moments in the film where Gene Hackman walks into the shot, lingers for a moment, and then he walks out – but the camera doesn’t follow him or cut, as it normally would. Until, maybe five or ten seconds later, it slowly pans left, in a very mechanical way, over to where he is, and then it watches him for a while. But then he gets up and moves out of range again, and so on.

This is all in 35mm, not video, but the effect is disorienting just the same – perhaps even more so. It’s as if the camera has a motion-detector behind it, not an intelligence. It will stay still as long as there is activity – but then, if it detects a lack of activity, it will wait five seconds before searching out where the activity might have gone. The film both begins and ends like that – a long slow mechanical zoom at the beginning, then ending on an oscillating camera that pans back and forth mindlessly. And there are a number of scenes in the middle that are shot similarly.

[Image: Harry Caul (Gene Hackman) realizes his apartment is bugged; from The Conversation. Courtesy of American Zoetrope].

BLDGBLOG: So do you think that video surveillance is a kind of unacknowledged form of cinema, or even a counter-Hollywood on the rise? The next avant-garde?

Murch: Something may be emerging. For instance, Mike Figgis’s Timecode is similar in its use of the simultaneous action of a four-way split screen telling four stories which sometimes interconnect.

You know, the other aspect of this is that these CCTV images are recycled and abandoned regularly. They are preserved for a certain length of time, and then they’re obliterated if there is no call for them. There is a temporality to it all which I think needs to be taken into account. It’s amazing, when you think about it, how rapidly this technology has spread – for economic reasons that have nothing to do with creativity. Insurance companies will now put cameras up at intersections where there have been lots of accidents. Then, if there is an accident involving one of their clients, they can use the footage to prove that the other person is at fault. Even when their client may be dead. Especially when he is dead.

BLDGBLOG: [laughs]

Murch: There’s also footage now being made available, showing the July 7 London bombers rehearsing their terror plan two weeks ahead of time – all caught on publicly-operated CCTV cameras – and it is almost like the first example I mentioned, of crossing London on foot – lots of continuity of action. Except that it was real, and many lives were lost.

One hope I have is that someone will put a HiDef camera into orbit, giving a full-frame view of the Earth spinning below, and this will be made available to everyone on HiDef cable channel 427 or whatever. Then, when plasma screens – or liquid crystal, or digital wallpaper – get large enough, this image can then occupy the entire wall of a room in your house. You’ll be able to go into that room and do other things – read a book, or listen to music, and occasionally look up – and one entire wall of the room is the Earth as it actually is at the very moment that you’re looking at it. It would be as if your room were in orbit.

You’d begin to see Earthly events in context – a volcanic eruption in Peru, or the pollution coming out of New York harbor, or the hurricane threatening New Orleans, floods in Bangladesh – and it will begin to change our awareness of our relationship to the Earth in a profound way, the way the mirror changed our relationship to ourselves, and deepened our sense of identity as individuals. Given the technology that we have today, I’m interested that it hasn’t already happened yet. Given the state of the world at the moment, I hope it happens soon.

[Image: The Earth; image courtesy of NASA].

• • •

I owe an enormous thank you to Walter Murch, both for taking the time to do this interview – even following up via email from London – and for speaking at BLDGBLOG’s event, co-organized by Chronicle Books, tomorrow afternoon in San Francisco. If you’re anywhere nearby, be sure to stop in.
I also owe a huge thanks to Lawrence Weschler for first putting me in touch with Walter, and for introducing Walter to BLDGBLOG; and to Anne-Marie Cowsill, Chad Keig, and James Mockoski at American Zoetrope for sending me images from the filming of the The Conversation. Finally, I want to thank my wife, Nicola, for helping edit all this together while we drove up to San Francisco – it was also Nicola who suggested the interview’s title.
Meanwhile, I would urge anyone even remotely interested in the topics covered by this interview to pick up a copy of The Conversations. It’s compulsively readable, and well worth the time. Murch’s own book, In the Blink of an Eye, is particularly useful for anyone working in film.
Finally, Charles Koppelman’s Behind the Seen: How Walter Murch Edited Cold Mountain Using Apple’s Final Cut Pro and What This Means for Cinema is a detailed look at the film-editing experience itself, focusing on Murch’s decision to use an off-the-shelf software package in the editing of Anthony Minghella’s Cold Mountain.

Of jellyfish, loops, site constraints, and canopies

[Image: Jellyfish House by IwamotoScott].

One of the speakers at the big event this Saturday will be Lisa Iwamoto, of IwamotoScott Architecture and Assistant Professor of Architecture at UC-Berkeley.
Lisa and her firm’s co-principal, Craig Scott, seem to be everywhere lately. IwamotoScott was a finalist, for instance, in the 2006 Next Generation contest sponsored by Metropolis; they both taught at the Urban Islands design studio in Sydney, Australia, last summer; they were finalists for this year’s PS1 courtyard competition in New York; they just spoke as part of the Architectural League’s Emerging Voices series; their work is featured in “Innovation by Design,” on display now at SF MOMA; they’re featured in “Open House: Architecture and Technologies for Intelligent Living” in Pasadena; and Lisa was even on the judging panel for last year’s Bottom Line Design Awards.
For all of that, however, I’ve hardly even cracked the long list of credits that IwamotoScott has amassed; for more comprehensive coverage, visit their site and click on Profile.

[Image: Jellyfish House by IwamotoScott].

Lisa will be presenting two projects on Saturday; those projects are the Jellyfish House and the PS1 competition entry, and they’re both worth hearing about.
I don’t want to pre-empt her talk by giving away too much information, however – so I’ll just show you a few images, quote a few soundbites, and urge you to stop by the event if you’re anywhere near San Francisco.
So the Jellyfish House, we read, “is modeled on the idea that, like the sea creature, it coexists with its environment.”

[Image: Jellyfish House by IwamotoScott].

As such, the house is designed “as a mutable layered skin, or ‘deep surface’, that mediates internal and external environments.”
That “external environment” is rather interesting, in this case, because the proposed site is actually an artificial island, in the middle of San Francisco Bay. The island once served as a military base, which means that there is a legacy of “toxic soil” to clean-up – but the project, being impressively imagined on a variety of levels, has detoxification schemes built directly into it.

[Image: Jellyfish House by IwamotoScott].

The house, then, is part of a much larger landscape proposal involving wetlands, soil remediation, and a complex “water filtration system” that operates within the very walls of the house. There are “phase change materials,” and even a “water jacket” featuring “quilted baffles.”
In any case, the house is really cool and well thought-out, and I’m excited to hear more about it.

[Images: Jellyfish House by IwamotoScott].

Then there’s IwamotoScott’s PS1 competition entry.
The PS1 competition is an annual event in which entrants are asked to design a temporary installation for the PS1 courtyard; that space will then serve both as a venue for events and as a place for the public to congregate.

[Images: PS1 courtyard competition entry by IwamotoScott].

Unfortunately, I don’t have very much information about this project – all the more reason for me to attend my own event and find out – but I can perhaps justifiably speculate that it uses a webbed canopy stretched across the courtyard to define and frame individual spaces…

[Image: PS1 courtyard competition entry by IwamotoScott].

There are several other projects on IwamotoScott’s website worth checking out. There’s the Loop House, for instance, the Split House, the FiberOpticRoom, and the 2:1 House, for starters.
That latter project is particularly interesting, as its proposed site comes with some fiendishly unique ground conditions – what the architects call “an extreme set of site constraints.”
These “site constraints” include the following:

A steep 2 to 1 upslope and extremely long, narrow access; a limited zoning envelope due to the irregular shape of the property; a stand of protected Coast Live Oak trees that cannot be removed; reuse of an existing foundation on the upper part of the site; and a panoramic view from the top of the site encompassing San Francisco Bay, the Golden Gate and Mount Tamalpais.

The resulting “house” is more like an inhabitable land-bridge spanning downward along the hillside, several feet off the ground, turning at just the right moment to avoid the oak trees (thus forming a “trapezoidal void that accommodates the protected trees”).
The house/bridge/structure also appears to consist, internally, of multiple stairways, turning each room into something more like a terrace. This is referred to as the project’s “internal terrain.”
Meanwhile, IwamotoScott also has a housing project called FaceSide, several different images of which I’ve here assembled into one.

[Image: FaceSide houses by IwamotoScott].

And then there’s the Moire Tower. I’ve cropped an image, below, so as to zero-in on the latticed and woven structure of the tower itself.

[Image: The Moire Tower by IwamotoScott].

Finally, for this post at least, there is the LiveWorkShop House, a “case study house” proposed for Cleveland, Ohio.
Among other things, the house uses “a hybrid structure – combining steel with off-the-shelf, lightweight, prefabricated structure and enclosure systems.” This allows for “a flexible menu of finish materials” by which future residents can customize their individual homes. “The proposed final design,” in other words, is not final at all; it is “but one demonstration of a number of possible permutations.”
Of course, as with almost all good prefab, it feels – and looks – a bit like a game of Tetris.

[Image: The LiveWorkShop House by IwamotoScott].

So come out on Saturday to hear Lisa discuss both the Jellyfish House and the PS1 competition design – though feel free to ask her questions about the other projects, too. In the meantime, be sure to check out IwamotoScott’s website.

(A few more images are available in my IwamotoScott Flickr set).

Monocular Landscapes, Unmanned Drones, and the Orbital Future of Australian Archaeology

The new magazine Monocle has been getting loads of press lately, from both lovers and haters; and while I can’t necessarily say that I’m one or the other, I will admit to erring on the side of enthusiasm.
There’s some great stuff in there.

I’ve only got the first issue, however, so I’m not exactly an informed reader; and I won’t be performing a rigorous review of the magazine here – discussing its design, intentions, etc. etc. etc. I simply want to point out a few cool articles that have an architectural or landscape bent.
Which is quite a large part of the magazine, as it happens.
First, for instance, we take a brief trip to Paris, where we step down onto the Champs-Elysées and learn that a Citroën “flagship showroom” will soon open up, putting shiny cars with waxed bonnets on display in the window. Then there’s a glossy photo-essay on Le Chaux-de-Fonds, Switzerland, “the city were timing is everything” (they manufacture watches). And there’s a quick visit to the nearby town of Sedrun, Switzerland, where the Gotthard Base Tunnel “is being dug more than 600m below the [earth’s surface], through nearly 58km of Massif stone.” A subterranean train station, located at the midpoint of the tunnel, will be “linked to the surface by the world’s tallest lift.” Long-term readers may note that this same tunnel was mentioned on BLDGBLOG back in December.

[Image: Gotthard Base Tunnel, via Wikipedia].

Awesomely, Monocle then turns its cyclopean gaze onto the empty skies above Kemijärvi, Finland, north of the Arctic Circle, where “a test centre for unmanned aerial vehicles (UAVs)” has opened. The test center is run by a firm called Robonic; Robonic “has taken advantage of the vast, virtually unused airspace – a rarity in Europe – above Finnish Lapland to create the only private test centre in the world devoted solely to UAVs.” This would also seem to be the perfect setting for a new novel by J.G. Ballard. Or an Alfred Hitchcock film: unmanned drones fly state secrets across the Arctic Circle…
Meanwhile, could you use these launchers, I wonder, to hurl small buildings into the sky? And if you could, would you do it?
Frustratingly, the article doesn’t ask these questions.

[Image: The launcher for a UAV; courtesy of Robonic].

Moving on, we read, Budapest wants to clean up its river; as it is, the Danube is now “a muddy grey-brown, thanks in part to the sewage gushing out underneath Elizabeth Bridge” – which is a structure, not a woman.
Apparently a “warehouse district” will soon be built, modeled after the Docklands in London.
There’s also a great article on China’s bankrolling of infrastructural construction projects throughout Africa:

China’s influence in Africa is growing at an unprecedented rate. Across the continent the Chinese are building stadiums, parliaments, roads, offering their expertise as well as they wallet. But China is not just giving to Africa, it is taking too. By the end of next year China will have become the world’s largest importer of oil, and most of it will come from Africa. China is also in desperate need of minerals such as copper, aluminium and iron ore – and African nations are willing to provide them.

This topic was also previously explored on BLDGBLOG.
I’m going on a bit here, I have to say, but there’s even a feature-length exposé on Bartenbach LichtLabor (BLL) and their “daylight-redirection” scheme in Rattenberg, Austria – a project Pruned told us about so long ago.
Monocle explains how BLL plans “to create an elaborate system of heliostats and fixed mirrors that could bounce sunlight from a nearby mountaintop on to a hill opposite and into the main street’s gift shops and cafés.” Without these mirrors – and their “secondary mirrors,” in turn – the town would spend “almost four months of the year in the shadow of Rat mountain.” In the shadow of Rat mountain!
The English name alone would cause depression.

[Image: The lighting technologies of Bartenbach LichtLabor].

To test these devices, BLL has constructed an “artificial sky… packed with fluorescent lamps, translucent lamps and LEDs.” It’s referred to as “the ultimate toy for a lighting geek.”
Anyway, I could go on and on – it’s an impressive magazine.
However, I do have to mention, finally, the one article I was actually intending to write about here before I started drinking coffee: on page 70, there’s a short, one-column piece about Alice Gorman.
Gorman is an Australian archaeologist whose university homepage states her interests as “material culture relating to space exploration, including terrestrial launch sites like Woomera (South Australia), Kourou (French Guiana) and Hammaguir (Algeria).” She also studies “orbital debris” and “planetary landing sites.”
Gorman’s got a blog called Space Age Archaeology; she’s got a research abstract online discussing “the archaeological record of human endeavours beyond the atmosphere” (!); and she’s got a downloadable PDF about all of the above. Vaguely similar topics, meanwhile, pop up in an old – and somewhat confusingly typeset – BLDGBLOG post called “White men shining lights into the sky“…
Monocle further tells us that Gorman has been “calling on the United Nations this month to create a protected ‘heritage list'” for orbital objects, “including the Vanguard 1 satellite, launched in 1958 and now the oldest man-made object in orbit.”
Gorman: “Maybe the only evidence that a country has a right to be in geostationary orbit will be [the presence of] an old satellite.” As space fills up with more and more junk – not to mention working satellites – she says: “It’s not impossible that being able to claim access to an orbit could be a bit like Aboriginal people in Australia being able to say, ‘This is where my ancestors camped.'”

[Image: The International Space Station].

A few things: 1) Last week I interviewed science fiction novelist Kim Stanley Robinson for BLDGBLOG and I asked him about this very topic – directly referencing Monocle: will we yet see an archaeology of space, complete with in-orbit excavation sites, etc. etc. etc.? I hope to have that interview up and public within the month.
2) The very idea of an orbiting, geostationary archaeological site strikes me as so amazing, and so fun to think about, that I almost can’t believe it. What will happen, say, in 400 years, or 900 years, or 1500 years, when the International Space Station has become like Petra or Skara Brae or even Macchu Picchu – the lost and dusty relic of a dead civilization – visited by space tourists with a thing for archaeology, snapping photos of themselves beside old push-button consoles as the sun rises through command windows in the background…? Masked grad students earn summer credits in Forensic Anthropology, roping off portions of the Station, mapping ancient social dynamics as dictated by architectural space…
Ruins in orbit around the earth!
Anyway, I found the first issue of Monocle to be really exciting and well-done, and I’m looking forward to issues two, three, four, etc.
Although… note to Monocle: it is actually cheaper to buy the magazine issue by issue here in the States; subscribing is nearly 30% more expensive.