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Friday, October 29, 2010
What we lost in Slumdog Millionaire
Saturday, August 28, 2010
THE USE OF INTELLIGENT GLASS & INTELLIGENT USE OF GLASS
The following paper won the 2nd place in http://www.glazette.com/30-a-vision-through-glass.html
The Author Himanshu Soni is currently doing is PG in Masters in Theory & Design, CEPT university
THE USE OF INTELLIGENT GLASS & INTELLIGENT USE OF GLASS
A VISION THROUGH GLASS
“An honest effort becomes more appreciable then winning”
- by me (Ar. Himanshu Soni)
While sitting and looking at GLASS …. Yes GLASS ….. Glass of my laptop screen, I got across this: “The use of intelligent glass and intelligent use of glass”. Thinking of it I went deep into ocean of my thoughts, with these few words surrounded by practical knowledge and rationalism gained by me in almost 23 years of life both consciously and unconsciously.
It was then it came to me in four ways:
· The use of glass,
· The use of intelligent glass,
· The intelligent use of glass, and
· The intelligent use of intelligent glass.
In order as written above these represent the rising stage of consciousness towards GLASS.
The use of glass
Have you ever imagined how the use of material is determined?
If we start listing uses of glass as a material, then uses will be innumerable. The reason is not that the material in question is glass, but it is the fact that any material lists its uses because of these three; firstly, its practical application; secondly, its ongoing research (seen as future use) and thirdly, imagination and dreams of masterminds (seen as unseen future).
The only factor that remains constant or major domain of a material which never separates it from its name are its very basic properties. These properties become its very basic information and the only reason for its innumerable uses. In order to use glass and understand its existing uses following is the basic information:
· Disordered and Amorphous structure
· Brittle nature makes its fragile and easily breakable into sharp pieces,
· Optically ranges from transparent to translucent and lustrous,
· Solid and Hard material,
· Inert and biologically inactive material,
· 100% recyclable material, and
· High refractive index.
One must keep in mind basic properties of glass as material before determining its use because these have been and will remain in future the guiding factor. The only thing which will change will context, the surrounding fabric of its existence.
Being the scientists, designers, architects, researchers, engineers… being an intelligent species the responsibility rests on our shoulders to best use glass as material, without forgetting its basic characteristics. For e.g. being an architect I would see glass as material that provides one vision across things, maintains visual connectivity but physical barrier, lightens space, maintains connection with nature etc. and see them as its very basic uses which had to be reflected whatever mode glass takes or technology it uses.
Being an intelligent species this great responsibility of supporting and upholding the beautiful creation of GOD i.e. nature rests with us and at the same time making life more enjoyable and easy for all living creatures in harmony with nature.
Majorly, idea is that, the use of glass is what we make out of it being blessed with intelligence but major concern is that are we doing intelligent use of glass. In the blind rush of acquiring more and more progress in technology and materialistic pleasures, somewhere we have lost the major principles and laws of our existence in equilibrium with nature. Nature, the very force holding our life’s intact and safe. To be sensitive towards this concern, it must remain at back of mind while defining use of any material.
“Motivation makes ordinary more ordinary than others;
extra-ordinary”
The use of intelligent glass
Intelligent, this word holds the key of making a glass intelligent, but what is intelligent in terms of glass?
Our researchers consider it as smart glass or glass that intelligently switches modes to suite the context or serve the needed cause. It is basically our intelligence which reflects into intelligent glass, or our need or our quest to solve an issue. For e.g. “types of smart glass can allow users to control the amount of light and heat passing through: with the press of a button, it changes from transparent to translucent, partially blocking light while maintaining a clear view of what lies behind the window”.
Any glass showing this attribute fully or partially becomes intelligent glass. Now, telling more about intelligent glass, taking its horizon to its use will be disrespect to time as 4th dimension. Time shows continuous growth of technology and makes the new of today old of tomorrow. But then according to knowledge updated till date i.e. Monday, 20th March, 2010 following is information regarding few intelligent glasses with their properties and basic uses(but uses can be innumerable as stated before, it all depends upon being intelligent to use our own reflected intelligence, so that it multiplies)
As stated in Wikipedia:
· Electro chromic glass: allows controlling the amount of light and heat passing through. The electro chromic material changes its opacity: it changes between a colored, translucent state (usually blue) and a transparent state. Electro chromic glass provides visibility even in the darkened state and thus preserves visible contact with the outside environment. Development of reflective hydrides, which become reflective rather than absorbing, and thus switch states between transparent and mirror-like. Modified porous nano-crystalline films have enabled the creation of electro chromic display.
· Suspended particle glass: It basically remains opaque and becomes transparent on passing small but constant electrical current.
· Polymer dispersed liquid crystal glass: It is generally milky white in appearance but changes to transparent with applied voltage. The degree of transparency can be controlled by the applied voltage.
· Micro- blinds: Micro-blinds control the amount of light passing through in response to applied voltage.
· Switchable LED glass: combines energy efficient LEDs to create a material for uses such as office partitions, business showcases, or special countertops.
“Information grows intelligence and intelligence further multiplies information”
- by me (Ar. Himanshu Soni)
The intelligent use of glass
“Every successful person is not enlightened, but every enlightened person is successful”
- by Sonu Nigam
I can’t enlighten your souls but may attempt enlightening your brains; a bit with few intelligent uses of glass.
“I can show you the way but you will need to walk on your own”
To show the way I would tell few simple intelligent use of glass in architecture. Architecture is just one field showing intelligent use of glass, there are numerous other fields and applications (again innumerable):
Climatically: It depends upon climate to decide locating glass façade in building. In hot climate it must be placed in north façade to avoid entry of sun’s direct heat and light and utilize maximum indirect and reflected light from north façade. In cold climate the thing stands opposite it is preferred to have glazed façade on south and west side. In composite climate one can make use of variation in tilt of sun’s movement in summers and winters by providing correct shape and size of projections and louvers. These all small and effective things can help a lot in making living conditions inside built environments more comfortable. Its just about understanding nature and its laws and going along with them. In interiors this intelligence melts down to very simple words: Glass as a material must be used to control visibility, semi-visibility and non-visibility of spaces. Also must be used as a material to control nature and quality of light. It may also be used as an acoustic material, if employed intelligently.
The intelligent use of intelligent glass
Now I will call this as the level where one needs to touch the highest level of consciousness to deal with both the intelligence. It is about exercising brain to make 2X2=4 and not dealing it like 2/2=1. Its about using not only one’s intelligence while determining use but also using that reflected intelligence. With so much a big platform one must think beyond the existing lines. For e.g. thinking beyond doesn’t mean thinking of energy; the application of material will save in its life, but thinking one step before and after i.e. how much energy goes into manufacturing of intelligent glass and how much carbon footprints it would leave after ending. If too much goes into manufacturing and knowingly or unknowingly these intelligent glasses are misused then we would hamper rather than harnessing.
This double intelligence must even think beyond rationalism; moving towards the softer aspects of our life our emotions. One must keep in mind human tendencies or tendencies of living forms around before making this intelligent use of intelligent glass. Its not always a formulae to reach to solution, in so much mechanized and computerized world we are losing those small things that mattered. In the mad rush of making every penny worth we are losing the importance of that small glimpse that we get from a small window as compared to a bigger glass façade. Those small beams of lights through small openings covered with colored glasses to make those soul touching patterns and ambiences, that too naturally. It’s a question do we really need so much of sophistication for these small happiness’s existing around us?
“Glass will remain intelligent only till our intelligence”
- by me (Ar. Himanshu Soni)
http://www.glazette.com/30-a-vision-through-glass.html
Tuesday, April 27, 2010
Structuring Urban Fragments
About author:
Sunday, April 18, 2010
Spatial Role Of Glass: Effect Of Glass In Interior Spaces Of Indian Palaces
As of now we are publishing abstract of the article and hope to publish complete article soon.
Glass as a building material through the ages.A History
Architectural background reveals a long period of evolution of glass as a material that catered not only the physical need of enclosure and surface in a space but also imparted visual and spatial experience to it.
It made it possible to erect transparent, open and seemingly weightless buildings and appreciate both the inside and the outside simultaneously by staying in the same place. Traditionally light was introduced in the interior spaces, through openings in solid walls and roof. But with the introduction of glass, light gained a spatial role of dematerialization, taking away solidity of the structure, and dissolving the surfaces through transparent panels and shimmering mosaics. Thus, the dematerialization of architectural spaces engaged both structure and surface, and was physical, spiritual and symbolic.
The dematerialization of architecture for spiritually symbolic reasons was most prominent in the Gothic period, through the Scholastics’ revival of the Greek metaphysics of light.
Transparency is the vital property that gives important character to glass for its diverse performance. The evolution of glass also saw in architecture the development of the word ‘Transparency’ in theoretic terms. Transparency has come to signify more than what is physically non-opaque or able to allow movement of light through it. The word transparency has taken its role in the description of architectural form, as a tool in design, and as an objective method for analyzing architectural layouts. Thus, glass also found its correlation with the form and function of a space.
Glass along with controlling the physical qualities of an interior space also proved to be an expressive, artistic tool which goes beyond the practical demands of daily life. The understanding of two differential aspects calls for an account of how this material became incorporated within the architectural theory and practice, or in words of architect Bruno Taut, how it became endowed with “architectonic quality”, as the ‘The historical accounts, written mostly in the pragmatic framework of technological development assume a consistent linear development in the use of glass and disregard the diversity of interpretations.’[1]
Bruno Taut said, “If we want our culture to rise to a higher level, we are obligated for better or for worse, to change our architecture. And this only becomes possible if we take away the closed character from the rooms in which we live. We can only do that by introducing glass architecture, which lets in the light of the sun, the moon, and the stars.
But if we look towards the Indian context, concept of openness and visual connection to outside can be introduced with regulated flow of light inside the spaces as there is an important requirement to cut down the glare. In the present scenario, where use of glass is inevitable in all building typologies, there is a wide possibility of assimilating the constructional materiality and artistic expression with modern life conditions.
With this premise this study attempts to understand the spatial transformation that glass imparts and find its appropriateness in present context which is important for a versatile material like glass.
[1] Ersoy Ufuk, ‘Seeing through glass: The fictive role of glass in shaping architecture from Joseph Paxton's "Crystal Palace" to Bruno Taut's "Glashaus’, arq (Vol 11), 2007. This dissertation concentrates on the metaphors that Taut and Paxton employed in order to solve the theoretical riddle between this mass-produced material and architectural principles. Deciphering these metaphors, the dissertation reveals that, far from displaying a structural truth, glass appealed to Paxton and Taut by virtue of its fictive attributes.
About Author :
Link to article on Glazzete magazine:
http://www.glazette.com/24-spatial-role-of-glass-effect-of-glass-in-interior-spaces-of-indian-palaces.html
Thursday, April 15, 2010
"Idea of Blog"
Tuesday, April 13, 2010
Narratives in Interior Architecture- Stone Crafts a Narrative Medium
Monday, April 5, 2010
BIONIC ARCHITECTURE- exploring new realms through nature
Initially titled ‘Looking into the future’, which sounded too rhetorical, this paper was an attempt to understand the new theoretical standpoints in architecture. Right from Vitruvius to Serlio, and F.L.Wright (not including the list of architectural theorists) we are aware of architectural theories, and interestingly the inclusion of nature and its ‘symbiotic’ relationship with architecture has been immense. The new architectural paradigm and most talked about is ‘energy and sustainability’. Architectural theories have gone through vast changes and this new paradigm needs to be firstly understood and then probable dissection of things can happen to further analysis these kinds of theoretical standpoints which relate architecture to energy and sustainability through nature. Hence we see a shift in the kind of architectural theories, and the future in architecture is hung with ideas of BIONIC ARCHITECTURE, BIO MIMICRY and etc ( mentioning only to give a fair idea of what is coming up).
note: this is not the full paper (due to word restriction) so in case any doubts please do let know the author obliges for any inconvenience.
What does representation mean in terms of architecture? For me, it is architecture’s physical or carnal quality or to put in another way, the labyrinthine quality of the body. I am reminded of the etching of the imaginary prisons by Piranesi entitled carceri. Their overwhelming power and extraordinary power of sense of space have long remained vivid in my memory. The oneiric and fictional prison of Piranesi, so like the trick pictures of Escher, is precisely what I imagine the maze of the body to be. TADAO ANDO.
Introduction: Nature has always been an inspiration for designers. Through advancements in science and technology; humans have challenged their own intelligence to go as far as possible in building technologies and achieved quite a feat. Architects through decades have been trying to imitate natural forms in built-forms. Bionics is one of the most advanced methodologies in this genre and is now been considered widely.
Bionics is a science of imitating biological (living) forms in the construction of mechanical and technical devices. Bionic architecture is process in design and construction of built-forms whose lines and layouts are borrowed from biological forms present in nature. These designs are in a way an opposition to the regular and rigid rectangular design layouts, in other terms relying more on curved forms of nature and the concept of fractal mathematics. This idea has not only been restricted to the form of the building but to the actual natural processes that living forms undergoes in its life cycle. A new perspective needs to be adopted, so that sustainability can be given a new ground to think on and a whole new dimension needs to be discovered.
From organic architecture to bionic architecture:
“I bring you a new declaration of independence ... an organic architecture means more or less an organic society. Organic ideals of integral building reject rules imposed by exterior aestheticism or mere taste, and so would the people to whom such architecture would belong reject such external impositions upon life as were not in accord with the nature and character of the man who had found his work and the place where he could be happy and useful because of it... beauty seems to have made no sense long at any time. I believe the time has come when beauty must make sense for our time at least... in this modern era art , science , religion – these 3 will unite and be one, unity achieved with organic architecture as center”.[1]
These are some of the apocalyptic phrases in Frank Lloyd Wright’s message to the British architects in 1939. Architect Frank Lloyd Wright not only coined this term but he also had certain fixed set rules and one could not merely ‘bend steel into a flower and call it organic’. According to him organic architecture was the structure like an organism that grows in accord with the law of its own individual existence, with its own specific order in harmony with its own functions and with its environment, like a plant or any other living organism. There was a specific search for a particularity and not just randomly one could buildings with curves as organic.
This was probably the 1st step towards the ‘imitation of natural forms’. But this was bounded with certain criteria’s. What followed was a chaos. A chaos so pre-determined because the idea of such architecture was both accepted and opposed. Where some people thought it was just an outlook to break away from the regular ideas of design, some saw it as an opportunity to move forward, but again it was restricted to design of spaces and the sustainability was not the criteria for such a movement.
Nature & technology:
Nature and technology are one to the mutual benefits of both and natural processes are integral with public consciousness. Technology is meant to make nature “subservient” to be exploited to create an unnecessary consumer need[2]. If nature has built, tested and perfected architectural structures for more than 5 billion years then what could our human –made structures and environment look like if we directly applied this knowledge from nature? What would nature produce if we had to design structures for human beings? If we can assimilate the wisdom of nature’s architecture and apply this wisdom t human-made architecture then would we benefit from this synthesis?
“No human being can deny that the study of nature has made them closer to an unknown and fascinating universe and that things have been profoundly changed by the study. To create as nature creates is to fulfil the birth right of human intelligence and dignity”.[3]
Architecture inspired from nature would definitely mean that a particular built-form would be able to give what nature is giving. Bionic architecture is an attempt to create what nature has created in terms of built-forms. And the process does not stop only there, it has been tried and tested out in various other fields like bio-technology. The idea is to extract the right ingredient from nature to make ‘something’ more adaptable like nature and more flexible. Again one cannot deny the fact that everything that exists in nature decays, but with a certain time line, so it needs to be understood that a building would have its own life cycle, probably through this it would be much more sensitive towards the environment. Architects have been trying out various methods to make a built-form more sustainable. Incorporating new technologies like use of photovoltaic cells and panels have increased in the recent years. But would that make a building ‘sustainable’. It would definitely reduce the amount of load on a building but the question here is on a larger perspective, if one needs to understand the concept of ‘energy and sustainability’.
Everything that exists has structure. Nature has the ability to provide a structure for every element it creates and evolves. Everything has to be adequate and appropriate for its purpose to survive and thrive. It s similar in case of architecture, where the built-forms need to act like a living organism, to understand to react to climatic conditions, adapting to the changing environment and the surrounding environment it evolves in. The question is “can nature teach us to emulate the same processes creating the same flexible behaviour in man-made materials”? According to research a single orchid flower contains more variety and flexibility of structural actions than the most remarkable buildings. [4] The processes of nature is what one would like to understand and incorporate in a building system, then probably a new perception, a new perspective would develop in terms of sustainability. The whole new dimension would perhaps change the lines and layout in which a building design is done. Architects have been trying out methods where nature could be dealt in a way where the building is given more depth. Mere imitation of forms from nature would only mean that it s restricted to a level of aesthetics. “Nature forms patterns. Some are orderly in space but disorderly in time. Some patterns are fractal, exhibiting structures self-similar in scale. Others give rise to steady states and oscillating one…[5]” For example most of the spirals in nature which are termed as gnomonic growth patterns are a result of a progression known as fibonnaci series.
Bionic provides a platform for this learning through and from nature. Form imitation from nature is probably the easiest way in this scenario. However buildings at this level do not aspire to any greater environmental responsibility. It is extremely important to understand the relation between the environment and the building, unless being sensitive towards it; it would not be possible to achieve a balance between the two. Again there should be no compromise in the aesthetic part of the building, and designers should not lose that ‘artistic’ touch in a building design. For example trees are another structural miracle. They collect solar energy using molecular devices, the photosynthetic reaction centres of chloroplasts, and that use of energy to drive molecular machines, which process carbon dioxide and water into the oxygen and molecular building bock that form the whole plant.[6]
Bionics is concerned with the systematic technical implementation and application of the construction, processes and principles of biological systems. For e.g. it s like developing a prototype which is based on nature’s law responding with nature , towards nature and most importantly getting sucked into it as a whole, not making it seem new to the environment yet sustaining in the system. It could call as a system within the system. The concept of bionics could also be based on instrumental approach, making form and function less of a dualism and more of a synergy that aspires to integral design solutions and an alternative model for sustainability. The basic fundamental would always remain constant. What one should be concerned is that nature gives examples of structures created with minimum energy consumption and maximum environmental compatibility. The idea of ‘self-assembly’ comes into the picture, where actually like in nature how an organism assembles ‘itself’ through cell structures, a building is imagined in much more simple way. Like a living body, a building could be broken down in a much simpler way. This is referred as ‘bottom-up’ technique.[7]
The idea of bionics relies on the mapping of biological forms and understanding the structure within them. The concept is simple, involving the mapping down of the entire structural system of a living organism and then a thorough understanding of their forms in the environment they live. But then how does it help architects to design buildings which would be sustainable? The idea here is to imitate living organisms and not their forms only. The details need to be understood in a different perspective altogether. In architecture design if one understands the processes of nature and would directly or indirectly apply this technique in built-forms then it would make much more sensibility.
Architecture today needs sustainable solutions to cope with the existing environment. Growing industries, mass-production, over-population to name a few are now an integral part of a built-environment. In the sense we cannot detach a building just for the sake of aesthetics and forget about the facts. High-tech technologies are incorporated in the building system making it a more complex affair.
Bionic architecture is a feat of hyper-technology. It is the highest and most advanced in terms of architectural design because it takes into account all the various natural forces and human concerns in a way that is ecologically and humanly productive. An evolutionary approach towards design of buildings which allows one to apply principles that have developed in nature over great span of time without reference to past and present stylistic aesthetics. It’s actually a cross-breed between architects and biologist where the first is concerned with spaces and making a building more efficient in terms of use of minimum energy, the latter is trying to find out ways through nature. The fusion of both is what makes ‘bionic’ more interesting and creates an urge of curiosity to understand the various complexities involved. Every species evolved in nature has the ability to sustain and create a mechanism to stay in the eco-system. A designer’s ability to give such attributes to a built-form and or create such an envelope is in itself a challenge to explore limits in design.
Bionic architecture is concerned more with the idea of incorporating the various systems found in a living organism to cope up with the environment, against climate and various others factors. This would be the ‘post-occupancy’ factor in a living organism. Once a living organism has undergone various processes, it s capable of producing a type of mechanism which would avoid things that would affect it. It s the nature which then test, and if an organism survives it s sustainable towards the environment and the two (energy & sustainability) come together when minimum energy is used, thus the two act in synergy.
Architecture is the strongest form of representation in the physical world. So visually appealing and dominating that one cannot deny its presence. Bionic architecture may be one of the ways of environmental architecture. It may be even called as ‘a new evolution’ in architecture. With such complexities being tried to achieve it becomes important to know that how far human intelligence should go far. The complex and unpredictable interaction between different aspects of nature and built-form would always remain, where nature would always have an advantage. Nature has the power to actually flex itself in different ways to cope up with nature itself. It would be very complex issue as to how that could be achieved in architecture[8]?
Conclusion:
In recent times architecture and nature have been together in different ways. This duality in response to the environment has brought changes. Changes so wide, that there have been considerable thoughts on how architecture and the idea of sustainability & energy need to be looked on together. A new humanity is what one s looking for, bionic may not provide 100% solution but it certainly provides a big platform for this type of ideology where nature meets nature in a more matured way. The fusion of technology, material expression, and aesthetics would actually create an exploration and open ways to think more maturely. We need to look back, but not for imitation but in terms of traditions and culture value which have changed in a way to fit in today’s context. Bionic has helped in parametric designs and further explorations are done. It s change so small but on cannot deny the fact that this change is needed. The post industrial phase would be looking and hoping on new technologies which would take this conquest further and not let it down by just making it another movement. What we need to ask is what would be the grounds for objecting if the environmental case were answered democratically and desired?
[1] Hagan,Susannah. “Taking shape-a new contract between architecture & nature”.architectural press.2001.pg141.
[2] F.l.wright , towards organic architecture. Pg 27.faber and faber lmtd.
[3] Tsui,Eugene. “evolutionary architecture-nature as basis for design”. John wily sons. NY Canada.1999.
[4] Ibid.pg.26
[6] Ibid.pg 65
[7] Gleick, james. “chaos-making new science, penguin, London.pg.308.
[8] Thorne,Robert. “towards a social architecture”.. Thames & Hudson. 1987. pg.32
.
References
1. Ramaswamy, sakthivel. “Bio mimicry – an analysis of contemporary bio mimetic
Approaches”. Published thesis, CEPT University. 2007.
2. Gleick, James. “Chaos – a making of a new science”. Penguin publications. London.
3. Tsui, Eugene. “Evolutionary architecture – nature as a basis for design”. John wily & sons.
NY, Canada. 1999.
4. Hagan, Susannah. “Taking shape‐a new contract between architecture & nature”.
Architectural press. 2001.
5. Wright, F.L. “Towards an organic architecture”. Faber & Faber publications.
6. Thorne, Robert. “Towards a social structure”. Thames & Hudson. 1987
7. Wikipedia.org. “self-assembly”