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Visualization of a hand in motion during a conversation
Image: jeanbaptisteparis | Flickr
Motion sensors are already all around us, they exist in certain appliances, mobile phones and even within your car — but what if nanotechnology and the miniaturization of these sensors down to the nano scale could have profound impact on the buildings in which we live?
With nanotechnology, development is in the works to make sensors 100 times more sensitive than sensors we have today. Here is a quote explaining this remarkable feat:
“Able to “feel” and sense the movement of individual atoms, the researchers’ new MEMS sensing device uses small carbon tubes, nano in size — about one-billionth of a meter long. Creating these tiny tubes using a process involving methane gas and a furnace, Prof. Hanein has developed a method whereby they arrange themselves on a surface of a silicon chip to accurately sense tiny movements and changes in gravity.”
- from phsorg.com, A More Sensitive Senor Using Nano-sized Carbon Tubes
The question now becomes, how can you as an architect make use of such significant advances in order to improve and uplift the lives of your occupant? And yes, I do believe that uplifting the lives of your occupants should be a primary focus for your work as an architect. Nevertheless, it is time to think outside of the box.
Where Would You Embed a Nano Motion Sensor?
Since MEMS (microelectromechanical systems) will be not only more sensitive, but also a lot smaller, your designs can make use of their ability to sense very slight motion. For instance, with architectural kinetic installations, perhaps your components which are in motion could respond to Read more
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Image: williamcho | Flickr
As Communication Technology Moves Ahead…
How will your building be used over time? I’m sure you already take into account how certain materials will look as they are continuously exposed to sunlight or are worn down by occupant use. But do you ever seriously consider how, when and why your building will need a “facelift” during its lifespan? Well, today there are a multitude of factors that can spark the need for such change — and a major one is communication technology.
Communication technology is spreading and evolving at a faster and faster pace — particularly noticeable in office buildings. The nature of the way employees communicate is having radical effects on the way buildings work. In fact, the cultures behind many architectural institution-types are morphing because of changes in communication — and their occupants certainly feel the differences.
With new technologies, people are able to Read more
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image: Incase Designs | Flickr
Productivity. Collaboration. Mobility. Globalization. Socialization. Culture.
Such are the buzz-words which describe the more modern workplaces of today. But where is this all going? And why?
One thing is for sure, computers are spreading. They seem to be everywhere. They’re getting smaller, more helpful and their interfaces are getting more intuitive. It’s no wonder that the surrounding environments which inhabit them now often allow for more mobility, productivity and collaboration.
But what about creativity? It’s an important factor — and one that should be addressed head-on.
I think that fostering creativity within office cultures is both fundamental, and too often under-emphasized and overlooked. After all, it is creativity that is the glue for so many office cultures today. Just think Google.
Within Google corporate cultures you can see how having a creative work office design literally feeds the Google work culture — ultimately leading to more innovation, better employee satisfaction, retention and outreach.
Here is a quick look around the Google Chicago office so you can get a glimpse of what I’m talking about (before I go on): Read more
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image: Manky Maxblack | Flikcr
What can flexibility do for you?
Let’s exaggerate for a moment and see if we can make what is flexible, even more flexible. The goal is to get you to push some design boundaries and of course, to use the idea of “flexible design” to get your architecture to that “cutting-edge”.
Of course, there is a find line between extreme flexibility and that ultimate point where something just breaks. But for now, let’s take a look at the following list which I’ve put together to get you thinking about how you can take full advantage of flexibility for your future designs.
The aim here is to design architecture that is both technologically, scientifically and aesthetically advanced, but to do this in a most humane and occupant-centered manner.
To get started, try asking yourself the following four questions and see if you can “strip away” what you take for granted to bring an innovative edge to your work: Read more
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When You Think of “Skin”…What’s the First Thing You Think Of?
Have you ever compared building skin to human skin? Well, with new developments like nanotechnology, smart materials and ubiquitous computing the time is ripe to revisit the inner-workings of the human body’s largest organ. After all, there is much to learn by taking a closer look at what lies beneath its surface — particularly as it relates to architecture.
What do you typically think of when you think of “building skin”? Does it primarily function to keep the exterior outside and the interior inside? Or do you use it to bring the outside in within certain parts like windows, ducts and doors? Perhaps you have a more avant-garde way of working with “skin” — using it as part of your architectural language that allows your building to communicate with both its interior and exterior at the same time.
Wherever you may be in your ideas and way of designing building skin, I’m sure that the human skin can help to reinforce and spark new ideas for your architectural designs. You might be surprised to discover that there are many similarities between these two “skins”, and in essence, they are both there to protect and to communicate.
Can Human Skin Inspire Your Designs?
For starters, I want to show you this simple video that clearly shows how the human skin operates physiologically. Now is a good time to watch this sneak peek:
Notice any similarities between what human skin needs to do and Read more
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Today, the spectrum between a part and its subparts can be vast and rather static, yet already, there are prototypes for architectural systems that can adapt to triggers to self-perpetuate their own form — and blur the boundaries between where their sub-parts begin and end. Such is the character of adaptive design.
As adaptive architecture evolves, systems will become more seamless and their behaviors will stream more fluidly. The idea of nesting, fusing and embedding behaviors into a design’s systems and sub-systems will require that you consider the in-between states of your form — slowing down real-time behavioral movements and speeding up that which appears to be standing still.
Of course, if you don’t have it already, this all will require a mindset shift from you, the designer; thus, calling upon you to think of Read more
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image: phoosh | Flickr
As new emerging technologies surface, the idea of “transition” will take on entirely new form. Not only will “transition” continue to exist between building materials (like you see in buildings today), but “transition” will also be present within a material’s properties — changing the very nature of how a particular material behaves at any given time.
For instance, smart materials will be able to change in real time as certain variables like temperature, light or stress trigger them. Similarly, new sensing technologies will come together to yield smart environments where ubiquitous computing is tuned to give occupants a more personalized experience.
Furthermore, as nanotechnology and biomimetic systems rise into the forefront, you as an architect will need to consistently rethink how building materials typically function — by building for them from the bottom up.
The “rules” behind designing for material behavior are changing and new smart material systems will give you a new kind of flexibility which you can optimize by taking both function and form to entirely new levels.
A key to doing this is to rethink your notion of Read more
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image: johndisalvo | Flickr
Sustainable Systems Working Together as a Whole
Light, water, temperature, air quality and renewable resources typically come to mind when talking about sustainable design, and to see these innovative green building issues tackled in one building project is wonderful.
In this article I am calling particular attention to the LEED Platinum rated Genzyme Center located in Cambridge, Massachusetts. Within this building project designed by Behnisch, Behnisch & Partner, sustainable systems work to create not only an energy-efficient environment, but also a healthier workplace for the approximate 900 employees who work there.
As you will see in the online virtual tour (at the end of this article), key building features include Read more
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Image: Curbed SF | Flickr
Unleashing Necessity and Your Ingenuity
The need to build green skins that are able to harness energy gives architects incentive to find new ways to use and guide emerging technologies. Essentially, it is necessity coupled with ingenuity that can often spark the best design innovation.
As an architect, it will help you to think about building skin and all of its possibilities in totally new and fresh ways. Instead of using building skin to “shield” or “expose” building occupants to the external environment, think of how building skin can act as a live filter that “flexes” its own boundaries in dynamic ways. As an exercise to get you thinking along these lines try asking yourself the following three questions to get you started:
- On Selectivity: How can I connect my occupant with nature in completely new ways? Instead of thinking of skin as a barrier, how can I think of it as a dynamic filter — how could I separate different light, air quality or sound properties so the exterior can enhance interior spaces? How many exterior/interior “hybrids” can I think of?
- On Preconceptions: What qualities of nature do I presently take for granted as a designer? Can I “capture” a particular aspect of nature that is usually “invisible”? How can I “feed” my occupants through a building’skin to let them “touch” it in new ways? (For instance, a clever positioning and use of smart glass.)
- On Transience: What could my building do if my building skin could change in real-time? Could “windows” move and flex in new ways? Could they magnify or minimize certain qualities of nature? What new “between-states” could I create to bridge interior and exterior environments?
With the advent and evolution of nanotechnology, there will be many new developments for architectural buildings — particularly when it comes to building skins. Already there are newfound ideas on the drawing boards showing how certain nanotechnology integrations could work.
Harnessing the Power of Sun and Wind
One example of this is seen in the Concept Tower designed by Agustin Otegui. Within this tower’s skin, Otegui uses Nano Vent-Skin (NVS) as a way to extract energy from both the sun and wind. Using a system of “sensors, organic photovoltaics and micro-wind turbines”, the Concept Tower’s skin would be able to self repair through a self assembly process.
In the following images you can see, conceptually, how this design would work: Read more
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Image: maistora | Flickr
Ubiquitous computing is in the works and so is the smart building.
From portable computing to smart devices and from calm computing to wearable computing, architecture will no longer exist as a static “frame” which surrounds activity. Instead, buildings will begin to “move” around their occupants — as if to gain a nervous system.
Networks will help Buildings be Smart
Computers are getting smaller and they are being increasingly networked. The result will be buildings that communicate with both their exterior and interior environments. Since computers will be embedded in just about everything, from environmental objects to occupant clothing, designing for this type of ubiquitous computing evolution will be both challenging and amazing.
For starters, buildings will have to protect while also Read more
