Latent Color
2010-02-24
The Work of the Futurist Antonio Sant’Elia is perhaps the clearest example of architecture being pushed into machine-hood at the beginning of the 20th century, albeit with a strange and often overlooked twist.
 
In his Manifesto of Futurist Architecture, Sant’Elia rails against neoclassical ornament as "supreme imbecility“. In point 4 of his Manifesto, he states that "Decoration as an element superimposed on architecture is absurd, and that the decorative value of Futurist architecture depends solely on the use and original arrangement of raw or bare or violently colored materials.“ This point has become virtually lost in architectural history, due to the ubiquity of Sant’Elia’s black-and-white renders of power stations, ports, and hotels in print.
 
His work, seen in its true intended colors, takes on an entirely new life, one of rich, rusty affect incongruent with the extreme monochromatics of his time. The vivid color gradients expose a supressed trajectory of Modernism, one which simultaneously eschews decoration but desires emotional relief from the machine aesthetic it is promoting. Thanks to Todd Gannon.

What is Cooption?
2010-01-18
Cooption, exaptation, and preadaptation, studied in depth by Stephen Jay Gould in the 80’s, are related terms referring to shifts in the function of a trait during evolution. For example, a trait can evolve because it served one particular function, but subsequently it may come to serve another in another environment. Exaptations are common in both anatomy and behavior. A classic example is feathers, which initially evolved as insulation, were co-opted for display, and eventually were co-opted for use in bird flight. Interest in cooption relates to both the process and product of evolution: the process that creates complex traits and the product that may be imperfectly designed.

This idea of the imperfection of the evolutionary chain, and the swapping of behaviors begins to define a ‘minor biology’ which is critical to understanding the interrelation of features and behaviors in species. Their relation is in fact fluid and messy, which brings into question ‘clean’ models of natural selection being bandied around by many biologically-minded architects.

(Image: The Toucan’s large beak is not a result of sexual selection or edible fruit size as often assumed. It is rather a thermoregulating device—a massive radiator—which dumps heat during flight. The thermoregulatory function is an exaptation, a beneficial byproduct, of other evolutionary pathways.)

Bio-Variegation and Luminescence
2009-12-21
"Plants, animals, and marine organisms share the same trait, emitting light in breathtaking patterns. From what scientists can tell, the Pandoran ecology works and communicates like a nervous system, suggesting a symbiotic relationship between all things Pandoran," says Sigourney Weaver in the Discovery-channel-like trailer for James Cameron's Avatar.

The Pandoran jungle is exceptional but still materially consistent, which is its beauty. Systems are intricately interwoven, color and light features are never separated from formal features, and creatures don't exceed their exceptional mechanics. Extreme biodiversity generates a hallucinogenic ecology. Familiar features are hybridized with alien features: pterodactyl wing morphologies transform at the tips into dragonfly wing morphologies, rhinos have peacock and hammerhead shark features, horses shimmer with multicolor abalone shell skin, wolves move like insects, and everything exhibits characteristics of bioluminescent marine life. Species emerge as categorical novum from radical reassemblies of features and behaviors.

The story is more or less inert. It is a Shakespearian backdrop that allows the context to unfold. Atmospheres and sensations, generally side-effects of narratives, become primary drivers. Exquisite.

http://www.youtube.com/watch?v=EE1IvFDrRUs

Biomega Motorcycle
2009-12-21
This motorcycle, appearing in the 2007 manga Biomega series by Tsutomu Nihei, features a complex interweaving of surface and infrastructure. Drive systems, structural systems, and exhaust systems dip in and out of the composite shell, obfuscating force and flow vectors, and producing a complex figuration.

(modelled and rendered by Julien Duquesnoy)

Bird Style
2009-08-03
Bower birds from Australia are known for their aesthetic sensibility as it appears to exceed simple problem-solving. Male Bower birds create an elaborate 'stage' complete with thatch, decorative found objects, and multicolored paints made from berry juice. This stage is used to attract discerning females, who clearly possess cognitive processes not usually attributed to animals. Interestingly, the stage is not even used as a nest later, it is simply an aesthetic, almost cultural device.

According to James and Carol Gould in their book Animal Architects: "the idiosyncratic edifices and decorating schemes of different males and their constant fussing to try new variants... implies an element of something like individual style."

Mega-grooves and Micro-ridges
2009-07-30
Brain corals get their name from their maze-like grooved surface. This pattern is a hard skeleton made of calcium carbonate extracted from the ocean by the polyps which live in the parallel grooves of the coral surface. The mega-grooves protect the polyps and their tiny tentacles, while the micro-ridges are home to algae. The polyps and algae have a mutualistic relationship where they provide food for one another in the form of photosynthesis and waste recycling.



Micro-Fabrication
2009-07-13
Microfabrica's EFAB technology allows the fabrication of micro-scale devices in one piece, without assembly. Mechanisms are batch-fabricated and made of using a similar process to that used for manufacturing computer chips. This particular medical device is an 'arterial expander' which non-invasively clears arterial bockages through car jack-like motion in four directions. Microfabrica also manufactures micro-chainmail, micro-needles, and miniature rachets.
www.microfabrica.com



Helix BioReactor
2009-04-10
The Helix Bioreator, from OriginOil, is an around-the-clock bioreactor, which is driven by a rotating helix of artificial lights. It is a breakthrough in low-cost biofuel production with as yet untested atmospheric potentials for architectural space.

http://www.originoil.com/technology/helix-bioreactor.html

Wearable Micro-capillaries
2009-04-10
Seen in Lynch's Dune (1984), the stillsuit is a full body suit worn in the open desert that is designed to preserve the body's moisture as well as act as a heat-exchanger. It consists of various layers that would firstly absorb the body's moisture through sweating and urination, and then filter the impurities so that drinkable water would be circulated to catchpockets with a secondary cooling effect. The individual could then drink the reclaimed water from a tube attached to the neck.



Reyner Banham's Legacy
2009-04-09
From The Architecture of the Well-tempered Environment (1969): "In a world more humanely disposed...it would have been apparent long ago that the art and business of creating buildings is not divisible into two intellectually separate parts-- structures, on the one hand, and on the other, mechanical services. Even if industrial habit and contract law appear to impose such a division, it remains false."

Contemporary experiments into HVAC system hybridization, including embedding air, heat, and fluid flow into architectural surfaces, are indebted to Banham's identification of the supression of mechanical system logic in architecture. EMERGENT is exploring how to move beyond Banham's humanist/ rationalist approach, however, toward one which might include ambient spatial effects and morphological possibilities.

Proto structural-mechanical hybrid: Olivetti Factory by Marco Zanuso, 1955

Vampire Gallop
2009-04-09
Vampire Bats occasionally sneak up on their prey on foot. Elegant flight patterns transform into awkward but fascinating quadrapedal + bipedal movement when they gain speed. The perverted behavior of the bat, especially when it begins its creepy gallop (Thanks Jason), points to an architecture which might do work, albeit in a non-optimal way, in favor of rich affect.

Vampire running! from Carl Zimmer on Vimeo.

Multi-creatures
2009-01-15
The Portuguese Man-of-war is not a single animal but a colony of four kinds of highly modified individuals (polyps). The sail-float, tentacles, stomach, and reproductive apparatus all contain different DNA yet operate interdependently. The creature is all organ; its body is provisional.



Rain Harvesting
2008-08-12
Some desert-dwelling species of lizard have the ability to harvest rain by chanelling water along the fine crevices of their skin towards their mouths. These variegated skin patterns also serve as cammoflage against predators.



Behavioral vs. Formal Mimicry
2008-08-11
Octopi are well-known for their ability to color adapt to their environment, even to extremely complex, variegated color patterns. The mimic octopus is special because it not only mimics visual charateristics of its environment, but behavioral characteristics of other species. It has learned to swim and contort into a flatfish, a sea-snake, and a lionfish. Similar to Brian Massumi’s concept of ‘becoming-dog’ (after Deleuze), this creature changes in kind rather than degree.



Co-evolution
2008-08-11
The Bloodcomb jelly consists of two interlaced creatures. The jelly itself is transparent, but colonies of bioluminescent bacteria live on its ‘combs’ (racks of little paddles), creating a kaleidoscopic color output. The jellie‘s predators live at lower depths, and the interference pattern created by the bacteria and the motion of its combs works as a stealthing mechanism. The bacteria gain increased mobility and access to more food sources. Both species benefit, and have evolved into a single, irreducible organism.



Performative Ornament
2008-08-11
A survey of historical military armor and contemporary wetsuit design reveals the complex relationship of ornamental sensibilities and structural and ergonomic patterning. Pleating stiffens surfaces without increasing their overall depth and seaming alllows flexure within assemblies or between materials.



Surface-to-Strand Morphologies
2008-04-01
Examining the interior of a turtle shell reveals how the shell itself is partially a surface-based exoskeleton and partially a frame-based endoskeleton. The smooth gradient between radically different types of structural system offers possibilities for new architectural hybrids which can respond to a wider range of force patterns and single-system solutions.



The Contemporary Baroque
2008-04-01
The air intake design on the Mazda Furai concept car cannot be completely understood in terms of aerodynamic performance. It is an example of the contemporary Baroque, where affect preceeds efficiency. This does not preclude efficiency but it tempers it through a sensibility of surface involutions and pleating.



Hybrid Assemblies
2007-10-23
The Boeing-McDonnel-Douglas F/A-18E fighter jet has a radically opportunistic structure in terms of both engineering and manufacture. It is a hybrid of semi-monocoque construction out of steel, titanium, and aluminum- used for the fuselage and wings, and carbon-fiber construction- used for the ailerons, rear fins, and other infill pieces. Rather than using a universal structural system, this jet is based on a radical optimization of structural zones using variable depth, thickness, grid size, and material properties. Its manufacture, involving a network of every major aerospace company in the U.S., reflects this radical variability.



Voronoi Patterns
2007-08-08
Based on the decomposition of metric space into a set of discreet objects, Voronoi patterns are created using points and interval boundaries. The procedural logic minimizes acute angles in cells, creating an elegance which is ubiquitous in biological and mineral formations in nature.



Structural Color II
2007-08-08
The color of peacock feathers are caused by their complex physical structure rather than simply the absorbtion and reflection of light wavelengths by pigments. Microlamellas, or plates with indentations of varying depth, interfere with incident light, generating the iridescent effect.



Gaudi’s Sagrada Familia
2007-08-08
Gaudi was the first biomathematical architect, and the first in modern history to employ an analog computer in the designing of shell structures. Clearly influenced by the Gothic tradition of material testing and non-linear engineering, Gaudi employed physical models with weights to determine building efficient shell forms. The Sagrada Familia (1882-), his masterwork, was designed in this way. This interest in computational form is also evident in the geometry of the ornamentation on the building. Based on minimal surfaces, ornament is generated through the definition of edges, lofting routines, and aggregation of those elements at various scales.

The Rose window reveals how ornament, driven by both geometrical and structural logics, begins to define an architecture which is informed by computation and efficiency, but which cannot be reduced to those factors. It is in nature where we see a similar open-ended logic: performance is everywhere, but it is always messy, always wildly variable, never optimal. Excesses are always intermixed with efficiencies.

Mies vs. Nervi
2007-08-08
The National Gallery (1968) by Mies Van der Rohe is based on the dematerialization of structure and the idealization of the grid and the horizontal slab. Although structure is expressed there, it is a metaphysical formalism that drives the work. In his Giatti Wool Mill (1951), Pier Luigi Nervi alters that paradigm. In this project, the distribution of material responds to local forces and relates to the vertical structural system. The structural articulation here is not merely about achieving higher performance but about the elegance of structural patternings which respond to force flows and material conditions in the world.



BMW - Double Helix
2007-07-29
The Double-helix of BMW-Welt in Munich from Coop Himmelb(l)au (with Tom Wiscombe, Senior Designer) is a hybrid structural/mechanical armature. Developed with GARTNER, the steel profiles are welded to create a continuous hollow network which is filled with liquids connected to heat exchangers and geothermal heat pumps. The system is reversible, cooling in the summer and heating in the winter like a giant 3-dimensional radiator.



Extreme Adaptability
2007-07-29
Bat wings are currently being studied by Breuer and Swartz at Brown University for biomimetic applications in engineering. Over two dozen seperate wing-joints as well as highly flexible membranes allow for the generation of a great number of wing shapes for increased maneuverability. In particular, the way bats can make 180 degree turns in mid-air may be used to inform a new generation of fighter jets.



Structural Color
2007-07-29
Monarch Butterfly wings have evolved a porous wing structure that is optimized in terms of its stiffness-to-weight ratio. The complexity and elegance of its loopy, tendril-like morphology can be attributed to this development, but not entirely. It turns out that a primary emergent effect of this structuration is that it bends light waves in such a way that it generates color. The myriad colors visible on the monarch wing are in fact due to the varying size and depth of these pores. The wing is therefore multi-optimized toward at least two (and likely more) performative effects.



Soft Kill Optimization
2007-07-29
In consultation with bionics experts, DaimlerChrysler researchers have developed a computer-assisted process for transferring the growth principle used by nature to automobile engineering. It is based on the SKO method (Soft Kill Option). Computer simulation is used to configure body and suspension components in such a way that the material in areas subject to lower loads can be made less resistant, and can perhaps even be eliminated (“killed”) completely, while highly stressed areas are specifically reinforced.



Optishape - Structural Optimization
2007-07-29
Population-based engineering (aka evolutionary engineering) is revolutionizing industrial, automotive, and naval design. Optimization proceedures operate like natural selection in selecting efficient (fit) solutions out of millions of random mutations. 'OptiShape' software has been developed which adapts designs toward a multi-optimum of engineering performance and manufacturability based on available tools.

Product Lifecycle Management



Alligator Skin
2007-04-22
Alligator skin performs as stiff armor but also as flexible skin depending on its patterning. On the dorsal area of the alligator, the pattern becomes thick and is defined by large rectilinear tessellations, adding stiffness. The sides and underbelly of the alligator are defined by oval-shaped tessellations which allow for movement and expansion.



Branching Structures
2007-04-22
Giant lily pads are characterized by their wide circumference allowing maximum photosynthesis. A pattern of deep, tapered veins on the underside of the lilypads have evolved to increase stiffness and buoyancy. Vein patterns are driven by a branching logic but also a cellular logic, both driven by a differential of vascular performance vs. structural capacity. The pattern, based on incremental subdivisions, has a bio-mathematical similarity to dragonfly wings and alligator skin.



Beam/ Membrane Composites
2007-04-22
Dragonfly wings are the complex result of multiple patterning systems interweaving in response to force flows and material properties. They consist of both honeycomb patterns which are flexible and exhibit membrane behavior and ladder-type patterns which are stiff and exhibit beam-like behavior. These patterns are characterized by their rule-based interaction in terms of cell density, cell shape, and cell depth, as well as other parameters affecting overall wing performance, such as out-of-plane pleating behavior and material distribution. This complex mineral skeleton is skinned with translucent cuticle which eliminates shear failure in-plane. The composite morphology of skeleton and skin is what ultimately generates wing performance.



Strength vs. Weight
2006-10-09
Natural selection has evolved the Hedgehog Spine toward maximum strength with a minimum of material. The structural morphology is porous but also characterized a network of de-laminating surfaces oriented vertically for stiffness. Its geometry is computed through a complex interaction of material properties, procedural logic, and fluctuating environmental forces.



Reynold's Game of Tag
2006-10-09
Craig Reynolds, the inventor of Boids, the revolutionary swarming algorithm, is studying the game of tag in relation to the emergence of complex strategies through play: “Tag is a children’s game based on symmetrical pursuit and evasion… A player’s (agent’s) fitness is determined by how well it performswhen placed in competition with several opponents chosen randomly from the coevolving population of players. In the beginning, the quality of play is very poor. Then slightly better strategies begin to exploit the weaknesses of others. Through evolution, guided by competitive fitness, increasingly better strategies emerge over time.”

Link



Metal Microsructures
2006-10-09
The microcrystalline structure of metals is surprisingly airy. A three-dimensional Voronoi pattern, generated by simple algorithm, provides a good approximation of the structure. It shares this computational logic with foams, sponges, and other crystalline microstructures.



Radiolaria
2006-10-09
Mineralized skeletons from Radiolaria and Diatoms reveal an iterative build-up of material along a cellular armature in response to an extreme shaping environment. Intense pressures from the ocean on all sides of the organism have evolved this semi-spherical shape with the emergent characteristics of internal struts and spikules for additional performance. Studied by the Biologist Ernst Haeckel in 1906 and by the engineer Frei Otto again in the 1960s, Radiolaria exemplify how geometry coupled with materiality can lead to exquisite elegance.



Fractal Broccoli
2006-10-09
Chau Romanesco, a species of broccoli, is an example of how computation underlies the natural, and how complexity often arises from the iteration simple elements at various scales.



Non-deformational Forms
2006-10-09
“AlgoRhythm Technologies offers a wide range of curvilinear structures with fluid movements mirroring the flows of nature. Material flows under its own weight and other forces according to morphologic laws that pertain more to fluid motion than to static objects. By freeing the elements of construction from their rigid geometries, AlgoRhythm Technologies unfolds infinite opportunities to model a new architecture. The undulating look of these structures results from the behavior of sheet metal under force. The forms are non-deformational, thereby maintaining the integrity of the metal.”

Milgo-Bufkin



The Termite Cathedral
2006-10-09
The elegant, organized structure of termite cathedrals is the result of bottom-up processes rather than any outside control mechanism or leadership. Termites build up the mound cell by cell, based on local relations and material distribution, and are unaware of the overall emergent morphology.



Non-optimal Evolution
2006-10-09
New research suggests that the hammer-formed head has no discernable function as was previously supposed. It was the result of a random mutation that has been slowly optimized in terms of olfactory and navigational parameters. The Bonnethead shark was the first species to appear with its extremely wide head and through natural selection, populations of variations have appeared, all of them non-optimal yet performative.



Buttress Tree
2006-10-09
The Buttress Tree, found in the Amazon jungle, is an emergent structural morphology which responds to wet, unstable soil conditions. Deep root-beams spread out opportunistically, distributing the load of the tree onto an expansive footing. The growth of this beam-network is driven by rule-based logic of branching, curving, and pleating.



Starlogo
2005-06-01
Starlogo is a programmable modelling environment for exploring the workings of decentralized systems-- systems that are organized without an organizer. With StarLogo, you can model many real-lifre phenomena such as flocks of birds, the behavior of a cellular slime mold, ant colonies, and fireflies, as well as market economies. http://education.mit.edu/starlogo/



The Pack
2005-06-01
Imagine a pack of wolves: the pack is beautiful because it is not merely a series of independent wolves, but also an emergent whole. While on the hunt, wolves spatially reorganize into the flexible, tactical pattern of the pack. This superorganism has the emergent properties of navigating as a liquid unit over varied topography and outmaneuvering its prey through multiple, synchronized attacks. The pack is exponentially more resilient than the individual wolf, as it unknowingly computes and leverages multiple spaces, speeds, and trajectories into a synergistic, win-win enterprise.



Co-evolution
2005-06-01
Indirectly from systems theory. The study of how circular, interlocking behaviors of species create multi-optimized fitness. Reveals things not only about how species cooperate but how they learn and transform in the process. The Acacia shrub and the Army ant in the Mexican desert are not merely mutualistic, but interwoven in time. The plant has transformed itself into a shelter and food source for the ants, and the ants patrol the plant 24 hours a day. The ants no longer burrough to create shelter for themselves; the plant has given up its natural defenses (alkaloid leaves) and can no longer protect itself without the ants. This is not simple deterritorialization, but feedback and learning, without any top-down directive.



Switching Behaviors
2005-06-01
Counter to the categorical assumptions and win-lose logic traditionally applied to the behaviors of lion prides and hyena clans on the African savannah, these two species constitute a co-operative multi-optimized fitness landscape. By switching behaviors from predator to scavenger and back again, they constantly de- and re-territorialize each other, and increase their mutual resilience.



The Cellular Slime Mold
2005-06-01
The cellular slime mold is an emergent organism which opportunistically transforms its organization (from one to many) and behavior (from animal to plant) depending on environmental conditions. Its cycle of distribution and convergence is not driven by top-down intention, but rather by dumb material connectivity by way of a chemoattractant. The emergent pattern of the slime mold in its aggregation phase is seen on the right. It is a Deleuzian ‚body-without-organs‘ par excellance. www.zi.biologie.uni-muenchen.de

EMERGENT, an internationally recognized design office operating at the forefront of digital design since 1999. The office's work is driven by models of biology and computation as well as by contemporary design sensibilities. EMERGENT's work stands out in terms of its synthesis of form, pattern, color, and technology. In particular, EMERGENT is known for its ability to blend aesthetic and engineering issues into singular, irreducible constructions.

EMERGENT's work questions the dialectic of excess and efficiency in architecture, in favor of a more complex understanding of both through biological thinking. The cyclical process of mutation and selection in nature provides a model for making architecture which is ecological in the broadest sense of the word. This feedback logic is lived in the office through ‘messy computation’, which involves custom digital workflows designed to deal with heterogeneous inputs, anomalies, and performance criteria. Our interest is, however, not in promoting particular design techniques, but rather in the formal, spatial, and atmospheric effects produced at the back end.

EMERGENT has developed an international reputation through competitions entries, exhibitions of work at major institutions, and publications in over 250 books and magazines in 50 countries. ICON Magazine, in its May 2009 issue, named Principal Tom Wiscombe one of the “top 20 architects in the world who are making the future and transforming the way we work”.