ARCHITECTURE DESIGN STUDIO AIR 2013 MENGDAN YANG
Group member Brian Han & Elsie Zheng Tutor Daniel & Adam
CONTEXT 1
INTRODUCTION
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A.1. ARCHITECTURE AS A DISCOURSE A.2. COMPUTATIONAL ARCHITECTURE A.3. PARAMETRIC MODELLING A.4. ALGORITHMIC EXPLORATION A.5. CONCLUSION A.6. LEARNING OUTCOMES REFERENCE
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B.1. DESIGN FOCUS B.2. CASE STUDY 1.0 B.3. CASE STUDY 2.0 B.4. TECHNIQUE: DEVELOPMENT B.5. TECHNIQUE: PROTOTYPES B.6. TECHNIQUE PROPOSAL B.7. LEARNING OBJECTIVES AND OUTCOMES REFERENCE
3 PART A. CASE FOR INNOVATION
23 PART B. DESIGN APPROACH
INTRODUCTION
Hello everyone, my name is Mengdan Yang, also be called as Meg. I am an international student from South of China and I went to Ivanhoe Girls Grammar School in Melbourne for two years before come to university. Currently, this is my third year study of bachelor of Environments and I am majoring in architecture. I think architecture is an interesting but challenging courses as it is always combining with different parts of knowledge to finalize the creative and complex outcome.
For digital programming, I have used Rhino in my first year study in Virtual Environ-
ments. I found it is very hard during the design process, because I was unfamiliar with the software. It was more like a tool rather than a design program for me. However the final outcome is almost successful, it also gave me a chance to realize how digital design can help us achieve from a design concept to a real physical project. This was just a simple start of my digital study, the aim of doing design studio air will be developing the technical skill of using Rhino by learning Grasshopper (the algorithm editor integrated with Rhino),in the meantime to help me understand digital and parametric architecture further in depth.
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MY PREVIOUS WORK
THE BODYSPACE PROJECT VIRTUAL ENVIRONMENT 2011
The brief of this project is to
design a complex geometrical structure which will be fabricated using paper and can be worn on our body. Overall the final model is successful, even though there can be some improvement of model connecting. The outcome of this project is not just the model, but the ability of thinking and creating by practices. Before doing this course, I cannot think to make a lantern based on personal understanding of a natural process. The model looks simple, but the creating process is complex and time consuming. I think it is same for all design and architecture work, the truth is the more time we spend will give us a more satisfied outcome.
It is also an amazing experience to watch every-
one wearing their lantern on Parade at the end. It is exciting that everyone all has different outcome based on a simple brief. I did not known what I can achieve at the end, at the start, it was all about ideas and thinking. Than the concept becomes more complex and require us to transfer the design ideas into a real project. This process included modeling,digitizing and fabrication. This complex process require us to understand different discipline knowledge. In today’s architecture industry, having a new idea is not good enough to achieve an amazing project, the final outcome will be effected by modeling process, digital technique and construction process.
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PART A. CASE FOR INNOVATION
A.1. ARCHITECTURE AS A DISCOURSE
Much of what we know of institutions, the distribution of power, social relations, cultural values, and everyday life is mediated by the built environment. Dutton, Thomas A. and Lian Hurst Mann, eds (1996). Reconstructing Architecture: Critical Discourses and Social Practices (Minneapolis: University of Minnesota Press), p. 1
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ARCHITECTURE AS DISCOURSE
In order to build the basis of our argument for an architectural solution for the Gateway project,
we need to firstly understand the concept of architecture. What is architecture? The definition can be various. The most familiar definition will be described architecture as buildings and physical structure or a piece of art and science of designing. However, these definitions limit the meaning of architecture by focusing on the temporary external appearance of the building and ignoring the ongoing communication process which architecture has to achieve engaged with its surrounding environment, users and everyone participated over long period of time.
In Richard Williams’s article ‘Architecture and Visual Culture’ he claims that architecture as art
is in many respects the default mode of architecture writing. Instead of seeing architecture as some individuals’ personal art work, we are more likely to agree that is a uniquely compromised art. The reason can be - It existing because a client allows it to exist. - The client determines the function of a project and its specification, location and cost. - The architect must work within the limitation of a location. - Work with other professional: engineer, quantity surveyors, building contractor etc. - The idea of authorship in architecture is highly complex. - They are practices that involve social, commercial network and institutions.
Overall, architecture needs to be analysed as discourse , which everyone can be participated with. In the other hand, the consumption of architecture can be based on the understanding of it as sign and its spatial experience. Therefor it will be a better idea to consider architecture as a network of practices and debates about the built environment rather than just focusing on one single aspect such as material, structure or design concept.
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PRECEDENT 1
SANAA : DIOR IN OMOTESAN
This building is located in Omotesando, along with Ginza. It is the most important commercial areas in Tokyo constellation of the worlds’ most famous fashion brands. There are many notable works by major Japanese Buidling by Fumihiko Maki and Prada by Herzog and DeMeuron.
According to the special condition of the site, build a functional building will not meet the client’s needs. Ka
and he wants to sell as much Dior as possible”, this is the basic requirement by the client. Even though the ar consider it first and try to achieve it in their own way. This shows the difference between architecture to othe art. Based on these, Sejima come out the design idea of separating the exterior and interior. The exterior is v want to buy pretty goods and feels themselves special, behind the beautiful wall will be the Dior Company’s conflict between their appearance and intention.
Similar to other projects the SANAA office has done, the proposal for this Dior building is minimalist and simpl
elements such as glass to keep the structure looks simple and to allow the interior space be involved within t the Dior building creates a feeling of visual interaction in different degree with the interior of the building by a translucent acrylic coating is placed behind the glass to create a beautiful designable façade according of different opacity of acrylic at each level, the lighting effects seen from outside is varies. Especially at nigh clothing like a beautiful girl. This façade design is according to the architectural principles of SANAA, howev by attracting their customer walking into the store.
I have been to this place two years ago, I feel like this building is a beautiful girl stand along the street and is
believe their customer will feel same as me, and feel like to walk into the store and become special like this ‘ design purpose by showing their design concept as well as meeting their client’s requirement. I think it is a gr
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NDO, TOKYO 2003
o, which dedicated to the fashion and housing a and international architecture firms. Such as Spiral
azuyo Sejima says “Mr. Amault is a very rich man, rchitects are not so interested in it, they have to er art, again it is more like a uniquely compromised very beautiful and attractive to their buyers who s intention. Here, the architects want to keep some
le. In her design, Sejima likes to use clear modernist the outside world. Based on a conceptual “skin”, using prism of glass and metal. Additionally, g to the architectural principle of SANNA. Because ht, the building looks like wearing thin lightweight ver I think it also help to achieve the client’s intention
s the highlight of the street with its shining ‘skin’. I ‘Pretty girl’ (Dior store). SANNA office achieves their reat example of architecture as discourse.
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PRECEDENT 2
Frank Lloyd Wright :Solomon R. Gugge
Solomon R. Guggenheim museum opened to the public on 1959 and it was designed by Frank Lloyd Wrigh
building to house the Museum of Non-objective Painting, the director of the museum instructed Wright “I wa
This masterpiece was recognized as an architectural landmark immediately as it opened after six month of
Museum can be regard as the most important building of Wright’s late career. As required by the director o to modernism under Wright’s design. It is the unique architecture of space, with its spiral ramp riding to a do a unique forum for the presentation of contemporary art. In the words of Paul Goldberger, “Wright’s buildin architect design a highly expressive, intensely personal museum. In this sense almost every museum of our t
However, regarding to the financial reason, Wright’s proposed ten- story tower behind the smaller rotunda
ture as discourse mentioned before, architecture is an ongoing communication process, if the users canno than change need to be made. In 1990, the Wright building was closed to the public to enable the expans Siegel & Associates. They converted the storage and office into galleries, and improved the exbition capab Wright’s original design. The tower's simple facade and grid pattern highlight Wright's unique spiral design a scape behind the museum. It is now continue to work as a main museum and landmark building in the cen
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enheim Museum 1959
ht. In 1943, Weight was commissioned to design a ant a temple of spirit, a monument!”
f Weight’s death. The Solomon R. Guggenheim of the museum, this museum becomes a monument omed skylight, continues to thrill visitors and provide ng made it socially and culturally acceptable for an time is a child of the Guggenheim”
a went unrealized. Refer to the concept of architecot value them in architect’s original design purpose, sion and a major interior restoration by Gwathmey bilities of the museum without detracting from and serves as a backdrop to the rising urban landnter of New York City.
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PART A. CASE FOR INNOVATION
A.2. COMPUATIONAL ARCHITECTURE
“ The dominant mode of utilizing computers in architecture today is that of COMPUTERIZATION; ENTITies or processes that are already conceptualized in the designer’s mind are entered, manipulated, or stored on a computer system. In contrast, COMPUTATION or COMPUTING, as a computer-based design tool, is generally limited.” Terzidis, Kostas(2006). Algorithmic Architecture(Bosten, MA:Elsevier),P.xi
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COMUTATIONAL ARCHITECTURE How computer has engaged within the revolution of design process?How does computer affect the design process? What are the going and incoming changes within design and construction industries? How does computation impact on the range of conceivable and achievable geometries? What does computer contribute to evidence – and performance- oriented designing? What unique opportunities and innovations it presents and how does these concepts relate to preceding architecture theory? Problem analysis plays an important role in the process of design. It allows us to un-
cover the roots causes, which can help devise the means to solve the problem. However, there is often limited information contained to solve the problem. At this point, the designer need to make difficult tradeoffs between multiple and conflicting goals, and then guess whose outcome cannot be reliably predicted. Relying on intuition and creativity will help to overcome these difficulties. But unlike art, architecture design is an activity that deals with externally imposed constrains which can include site condition, climate, cost, client requirement. These require architecture to conclude the design process by both analysis the problem and be creative at the same time.
Computers as a sign of modernism are effective analytical engines, which can help
designer to improve the efficiency of design process by analyzing problem in a fast and accurate way. However they are machine, they lack the creative abilities and intuition. Hence the evolution of design process will be making human and computer work together as a powerful symbiotic design system, while computer can contribute their superb rational and search abilities and human can contribute all the creativity and intuition needed to find out the most suitable solution of the design.
The evolution of architecture design process is related to digital information revolution
which has a similar scale and influence as the industrial revolution happened before. Using computer during the design process is like share the information between human and computer. It is can be seen as a communication process. However, the challenge will be the difficulties of communicate information from human to computer. In order to deal with this problem, the computational systems has developed to provide different level of assistance to help human design by taking care different part of the design process. For example, if the system was ranged by drafting and modeling, the role of computer will be limited in drawing lines and other geometrical entities. (Such as the different strength of Rhino and Auto CAD) These different types of the system help designer in different area and ways, it is useful to achieve different outcome. Again, the role of communication will become more important between computer and human and also human to human to allow the design information be understood and transferred by everyone participated.
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PRECEDENT 3
Frank Gehry :Guggenheim Museum(1
Frank Gehry’s Guggenheium Museum in Bilbao is described as the most known example which captures the
to the industry revolution, the new information age is challenging not only how we design building but also h
“In the conceptual realm, computational, digital architecture of topological, non-euclidean geometric spa
rithms, are supplanting technological architecture.” Since the appearance of computer aided design, whic more professional and accurate way, the technologies have started to have an impact on building design a tect to produce a more complex form and also produce construction drawing into a large scale with details require the architect’s professional knowledge about structure and material. By using this program, architect the final design will become more practical toward the construction process.
As CAD programs made the construction drawing process more accurate and simple to approach, it allow
design which can be located at the required space and engaged with its surrounding environments and pe tionized by collaboration with computer numerical control machines (CNCS). Using Rhino with plug- in editor CNC. This allows the architect design the forms by calculating based on construction efficiency.
The Guggenheim Museum in Bibao is the first implement of this system. After winning the commission with the
to find the way of making the design into a reality. After they realized the existing architecture design progra powerful software(CATIA) which is designed for the airplane and automotive industry. Except the heavy dut very successful based on the more efficient construction way and less building cost.
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1997), Bilbo, Spain 1997
e zeitgeist of the digital information revolution. Similar how we manufacture and construct them.
ace, kinetic and dynamic systems, and genetic algoch was used to produce the construction drawing in a and construction practices. This program allow archis. This is not only benefit to the design process, it also t can analysis and design at the same time, hence
w the designer to build up a more complex geometric eople participated. Architecture also has been revolur Grasshopper is architects’ typically way to design for
eir curvy model, Frank Gehry and his partner started am may not suffice at this point, they turned to more ty structure issue of the facade, the final outcome is
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PRECEDENT 4 ARCHITECT FUTURE SYSTEM: LORD’S MEDIA
Architecture as a new industry been revolutionized by the digital technology in its design process, it is impo to adopt of innovative technologies. As described by Kolarevic (2003) that buildings and ships are similar in more to learn from the shipbuilding industry. For example, Frank Gehry’s Guggenheim Museum will not be a industry regarding to the its heavy structure issue. Another good example of architect made creative use o project- The Natwest Media Centre at the lord’s Cricket Ground in London. “It was manufactured in a sma ed in segments for assembly at the building’s site. The shipbuilder’s expertise in making aluminum yacht hul first semi-monocoque building structure from aluminum.” Today, the manufactured using digitally driven is used in various areas. From the construction process of Th ings have the same potential to be digitally conceived and produce. However, there are also disadvantag for designer, this may limit the creativity of architecture design by creating forms based on the software. In scripting can provides unique opportunity for innovation to enable the designer to customize the software ing. Relate to the Gate Way project, using of Grasshopper plunged in Rhino will give us more opportunity to process.
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CENTRE, LONDON,UK 1999
ortant to learn from other profound industries in order n many ways, architects and builders have much achieved without the local steel and shipbuilding of shipbuilder’s expertise will be office Future System’s all shipyard in Cornwall, England, and then transportlls was essential in designing and manufacturing the
he Natwest Media Centre, we can define that buildge of using software that are mainly be programmed n Mark Burry’s book Scripting Cultures, he suggesst that around their own predilections and modes of worko control and develop our design during our design
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PART A. CASE FOR INNOVATION
A.3. PARAMETRIC MODELLING
“Post- modernism and deconstructiovism were mere transitional episodes” and parametricism will be “the great new style after modernism” Schumacher, Partrik. 2010. “The Parametric Epoth: Let the style Wars begin.” Architecture’s Journal 231(16):41-45.
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PARAMETRIC MODELLING Parametric modeling represents change in architecture design process. In an exclusive text for the AJ, Patrik Schumacher of Zaha Hadid Architects argues that the unified style of architecture for the 21st century will be parametricism.
What is Parametric modeling?
Its ‘ set of equations that express a set of quantities as explicit function of a number of independent variables, known as ‘ parameters’ Weisstein 2003,2150
Negative principle
-Avoid rigid form(lack of malleability) -Avoid simple repetition( lack of variety) -Avoid rigid functional stereotypes -Avoid segregative function zoning
Positive principle
-All form must be soft -All system must be differentiated and interdependent -All functions are parametric activity scenarios -All activities communicate with each other Parametric modeling introduces a fundamental change: “ Marks”, that is, parts of a design, relate and change together in a coordinated way. No longer must designers simply add and erase. They now add, erase and repair. (Woodbury 2010) To achieve this, it requires designer to consider the relationship between each elements, and regarding them as a whole system.
Architecture is not only about designing and constructing a building for the clients, it is need to be regarded as a system of ongoing communication process. This can be the communication between architect and client, communication between users and building even the communication between designer and computer. These results of these communications will influence the outcome of the project while they will help designer to make a further decision during the design process. Refer to the Gate Way Project, I believe that by using of parametric modeling under the concept of architecture as a discourse will produce a notable project. First, understanding of architecture will be contribute to the design idea to this project, then we need to analysis the site and brief to come out a design concept. Then the important part will be put the idea into digital software to find the most suitable solution to this project based on understanding the relationship between each elements. 16
PRECEDENT 5
ZAHA HADIA: BAKO FACTORY, DOWNTOWN BE
Zaha Hadid is one of the pioneer of using parametric design. From her design of Bako factory in Serbia
principle involved in. The overall soft surface is continued around the site. It maximizes the malleability o ture provides a space for people to encounter and allow each function and activities can communica lenge of this project will be the construction process, as the size of the building is much larger than the of manufactory product and construction practice to achieve the final construction.
Based on using parametric modeling, her design are distinctively futuristic, which is characterized by th
structure� with “ multiple perspective points and fragmented geometry to evoke the chaos of modern
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ELGRADE, SERBIA UNBUILT
a, we can clearly see the parametric modeling of the structure and fit it into the site. This strucation in this whole structure. However, the chalNatwest Media Centre, it will require a high level
he “ powerful, curving forms of her elongated n life� (Zaha Hadid,2007)
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PRECEDENT 6
HERZOG & DE MEURON: CHINA’S NATIONAL
The Beijing National Stadium is another example of using parametric modeling. Construction began on the B was finished in early 2008.As the stadium was designed for use throughout the 2008 Summer Olymocs and Pa for this very important public stadium. The brief is to design a stadium that was “porous” while also being “a c team wanted to achieve an optimum balance between making sure every spectator had a nice view and for the structure is to get everyone close to the main venue, this rise the task of accurate calculation. In order to achieve the optimum design, parametric design is used to work out the sightlines, the bowl geom condition, seismic studies and the design of the façade. To make sure the web of twisting steel sections can cated calculation is engaged by using the software. The random looking ‘nest’ is not simple as it be looked as, it following the rules of geometry and contains 36 k benefit from parametric calculation. AS both the example of parametric design, Guggenheim Museum designed by Frank Gehry has more heavy tional Stadium. This also indicates the innovation ways of making space and sustainability approach.
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L STADIUM, BEIJING, CHINA
Beijing National Stadium on 23 December 2003 and aralympics, China wanted to have something new collective building, a public vessel�. The design also creating a good atmosphere. They challenge
metry, natural ventilation to keep the grass in good be fitted together to follow the surface, a compli-
km of unwrapped steel. These outcomes are all
y structure and façade compared to Beijing Na-
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A.4. ALGORITHMIC EXPLORATION
Here are two simple example of my algorithmic exploration, they are based on points, lines and curve. By doing this, I understood the essential feature of an algorithm is that it is made up of a finite set of rules or operations that are unambiguous and simple to follow. By connecting each elements in Grasshopper and defined them in number slide, I understand the concept of definite and effective. According to term of effective, I found it can be both advantage and disadvantage during the design process. When there are many command going on, it will be difficulties to find the problem and make change. At this stage, I think I do not have enough knowledge to deal with the technical problems. And I need to learn more and analysis the relationship between each algorithmic elements. Otherwise, the outcome will not represent the design ideas.
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A.5. CONCLUSION
Architecture is not only about designing and constructing a building for the clients, it is need to be regarded as a system of ongoing communication process. This can be the communication between architect and client, communication between users and building even the communication between designer and computer. These results of these communications will influence the outcome of the project while they will help designer to make a further decision during the design process. Refer to the Gate Way Project, I believe that by using of parametric modeling under the concept of architecture as a discourse will produce a notable project. First, understanding of architecture will be contribute to the design idea to this project, then we need to analysis the site and brief to come out a design concept. Then the important part will be put the idea into digital software to find the most suitable solution to this project based on understanding the relationship between each elements.
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A.6. LEARNING OUTCOME
-In steading of seeing architecture as art, we are more likely to agree it is a uniquely compromised art which need to engage with everyone participated in. -When use computer to design a project, it is important to understand the difference between computerization and computation. We need to ensure we use computerization to develop our design while computation will limit our idea. -The evolution of design process with computer will be making human and computer work together as a powerful symbiotic design system, while computer can contribute their superb rational and search abilities and human can contribute all the creativity and intuition needed to find out the most suitable solution of the design. -Parametric design can help to calculate the complex part of a geometric shape to allow it been achieved. -By design with computer, it is a good idea to learn from other industry such as shipbuilding which are profound adapted the innovation of technologies.
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REFERENCE Anthony Askew, An Introduction to Parametric Design, uk. Accessed on 4 April 2013 from:http://anthonyaskew.wordpress.com/2012/02/29/an-introduction-toparametric-design/ Burry, Mark (2011). Scripting Cultures: Architectural Design and Programming (Chichester: Wiley), pp. 8 - 71. Definition of "algorithm" in Wilson, Robert A. and Frank C. Keil eds(1999) in The Mit Encyclopedia of Cognitive Science (London: The MIT Press) Yehuda E. Guggenenheim, TheFrank Lloyd Wright Building, New York. Accessed on 3 April 2013 from http://www.guggenheim.org/new-york/about/frank-lloyd-wrightbuilding Kalay, Architecture's New Media : Principles, Theories, and Methods of Computer-Aided Design (Cambridge, Mass.: MIT Press, 2004), pp. 5 – 25. Kolarevic, Branko, Architecture in the Digital Age: Design and Manufacturing (New York; London: Spon Press, 2003), pp. 28 – 62. My Architecture Moleskine, Sanaa/ Kumilo Inui: Dior in Tokyo, Accessed on 4 April 2013 http://architecturalmoleskine.blogspot.com.au/2011/11/sanaa-kumiko-inui-dior-in-tokyo.html National Stadium ‘ Bird’s Nest” architecture, designbuild, Accessed on 4 April 2013 from: http://www.designbuild-network.com/projects/national_stadium/ Patrik Schumacher, 'Introduction : Architecture as Autopoietic System', in The Autopoiesis of Architecture (Chichester: J. Wiley, 2011), pp. 1 - 28. Richard Williams, 'Architecture and Visual Culture', in Exploring Visual Culture : Definitions, Concepts, Contexts, ed. by Matthew Rampley (Edinburgh: Edinburgh University Press, 2005), pp. 102 - 116. Woodbury, Robert F. and Andrew L. Burrow (2006). 'Whither design space?', Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 20 , 2, pp. 63-82. Woodbury, Robert (2010). Elements of Parametric Design (London: Routledge) pp. 7-48.
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PART B. DESIGN APPROACH
B.1.
DESIGN FOCUS
The architectural profession is rapidly embracing digital design technologies developed and applied in the framework of biologically inspired processes. Put simply, nature is the largest laboratory that ever existed and ever will. While biomimicry does not exclude emulating form, we are interested in the processes and systems in which all design resides. Michael Fox (2009). Interactive Architecture(Princeton Architectural Pressosten)
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RESEARCH STREAM: BIOMIMICRY
As ‘nature is the largest laboratory that ever existed and ever will’. Our group wants to
use biomimicry as our design approach to explore our design idea of Gate Way Project. Based on the concept of Architecture as Discourse, we would like to design an interactive architecture, ‘a continual and constructive information exchange. As people interact with architecture, they should not thought of as “users” but instead as “participant”. (Michael Fox 2009) project which will inspire and enrich the municipality in a long time period. “The proposed site for the Western Gateway offers a high exposure location to those entering the urban precinct of the municipality, as well as to those travelling along the freeway.” Under the design approach of biomimicry, we have researched the network system of biome, we find out network is an interesting and important system which are everywhere; it can be intracellular with our human body or in ecosystems or within a city, it can also be the social network of our human society. From the idea of network, we would like to make our Gate way Project to show a network system to highlight the significant growth of Wyndham city as part of social network in Victoria. Back to a smaller scale and original points, our design inspiration will be taken from the network system of cell, while they have the same similarity with structure forming of fractal. they both have to be networked together in some optimal way for the system to function, to adapt to grow, to mitigate and to be long term resilient.(Geoffrey West) Our design will show the complexity of the system including the self repeating similarity and emergency system to show the difference. The growth of cell network will represent the growth of Wyndham City.
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PRECEDENT 7
CANOPY BY UNITED V
Brief: Canopy is the latest installation work form United Visual Artists commissioned by Cadillac Fairview, Lanterra Developments & Maple Leaf Sports. It is a 90-metre long light sculpture spanning the front facade of the building, using mass production and precise fabrication. Materials : Powder coated steel, anodised aluminium, injection moulded polycarbonate, LED, Code Dimensions: 90 metres x 3 metres Inspired by • Experience of walking through the dappled light of a forest. • Form (Thousands of identical modules): abstracted from the geometry of leaves. Performance: During the day, apertures in the modules filter natural light to the street below. After dusk, particles of artificial light are born, navigate through the grid and die, their survival determined by regions of energy sweeping across the structure. Outcome: Canopy as an example of digital design inspired by biological experience and form, evokes and reflects nature by its structure pattern and atmosphere it created at the site.
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VISUAL ARTISTS [W]e can expect that [nature] will choose to create at least some complex forms not by laborious piece-by-piece construction but by harnessing some of the organisational and pattern-forming phenomena we see in the non-living world. Evolution, via genetics, can exploit, tame and tune such phenomena; but it does not necessarily generate them. If this is so, we can expect to see similarities in the forms and patterns of living and purely inorganic systems, and to be able to explain them both in the same manner. Philip Ball, Nature’s Patterns – Shapes, Oxford University Press (Oxford), 2009, p. 17
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PRECEDENT 8
THE RESEARCH PAVILION BY IC
Brief: This Research Pavilion is constructed with 60 kilometres of carbon and glass fibre filaments, which winded b programmed robot.
Material: Their research of lobster’s exoskeleton forwards them to design a structure that could be made from resins rated glass and carbon fibres laid down by a robot. The glass fibres mainly serve as the formwork for the la while the stiffer carbon fibres are responsible for the load transfer and rigidity. Dimension: 8 metres across, 3 and 1/2 metres tall, 4mm thick
Inspired by: lobster’s exoskeleton The structure of the pavilion was based on their research into the complex layers and load-bearing efficie of a lobster’s exoskeleton, which is made up of layers of chitin a derivative of glcose embedded in a prote matrix. Performance: As a benefit of the structure researching, the Research Pavilion provides a maximum internal space by a shell skin. This was achieved by removing the steel frame after robot’s construction process.
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CD AND ITKE
The logics of generative computational systems that integrate material, form and performance in the design process offer ways of proces ing the flow of structural forces and interaction with environmental infl ences on a material construct. Menges, Achim (2012). “Material Computation: Higher Integration in Morphophonemic Design�, Architectural Design, 82, 2, pp. 14-21, p. 20
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PART B. DESIGN APPROACH
B. 2. CASE STUDY 1.0
CASE STUDY 1.0 THE MORNING LINE
From our Case study 1 -The Morning Line, a gesture, a holo-tectonic system. We explode that
the geometry and expression of the design project need to be united. In the ‘The Morning Line’ project, infinitely self-scaling is used to change the unites of the modular around a fixed ratio, the module then can expand and contract in any size or direction. This project also is an example of interactive system, while each module is interactive in multiple ways. The content grows and adapts as the structure changes both physically and in information depth over time. All components are interchangeable, demountable, portable and recyclable. (Matthew Ritchie)
Architecture is an inherently destructive act. It’s the very physical breakdown of materials into
smaller components that are standardized in order to recompose into new stable structures. Computation is also destructive, it breaks things down into language, an abstract and codified system to build and rebuild from the smallest components—ones and zeroes. Re-composition can become automated. (Aranda\Lasch)
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by Matthew Ritchie with Aranda\Lasch and Arup AGU Commissioned by Thyssen Bonemisza Art Contemporary Seville, Spain, 2008
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UNEXPECTED EXPLORATION MATRIX
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Morning Line presents the idea of by using different arrangements or combinations of base geometry to provide the differrent experiment space for the performance. In this exploration, we have created different space by moving and connecting single elements in a different way. The image above shows bridge structures which consist of regular geometry produced by scale ,explode and trim from a pyramid. This outcome expresses the main idea of The Morning line project by destructing structure into small components.
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THE MORNING LINE EXTEND
In this case stu another exper geometry. In this explorat •create the py •Set up the ca •Identifying th •Adding the sa •Export the cu to construct a •Apply the sam
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The structure p nection to the expected to h
udy, we have explored an extended result from the project Morning Line. The trial version shown above is rimenting of fractal geometries by the application of making recursive system of tetrahedrons in the base
tion, we used a perfect pyramid as our base geometry. The step is listed below: yramid structure on Grasshopper (adding polygons command) alculation in the expression mode and make each side pyramid has equal length he points at the end in order to scale the same geometry to each ends ame concept of pyramid to each face of original pyramid. urves for original geometry and analyses the middle points of each sides and centers of each faces in order four half side pyramid onto the plane. me tetrahedron patterns into the structure.
provide two contrasting spaces as a gateway arc. On one end, it is higher and larger space with strong cone ground while the other end of arc has relatively compressed space with a point support by the ground. It is have different feelin of space when entering two different space.
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PART B. DESIGN APPROACH
B. 3. CASE STUDY 2.0
CASE STUDY 2.0 ZA 11 PAVILLION
Our case study 2 ZA 11 is 1:1 scale the flagship pavilion for ZA 11 Speaking archi-
tecture event which designed and fabricated by student located in Cluj, Romania. The objective of the project is to attract passers to the event as well as emerged to be a significant urban attractor to engage with the local society. This is also the objective we want to achieve for our Gate Way Project. However, ZA 11 is focused on slow movement while The Gate Way Project is mainly used to attract participates in a high speed and large scale environment. The highlight and successful point of ZA 11 is that it provides a flexible and comfortable space for users to hold various social events and activities rather than only be a temporary shelter. As this project is done by student from design process to its fabrication, its environmental friendly and low budget feature also make it more successful as a good example of architectural experiment of parametric design.
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PARAMATRIC DIAGRAM BY DESINER
As showed above, this project is achieved by advanced use of parametric
design technique; the idea is to use center point to attract the hexagons on the geometry surface to extrude into the center of the object. Under the controlling from exact geometry generation to piece generation, a flexible internal events space is created by assembly logic and actual fabrication. On the right, the matrix shows different exploration outcome based on subdividing lines and hexagons to the center point of the geometry to create free- form ring shape. As the center point of the geometry is also the load bearing point of this structure, it allows the internal space can be created by self- balancing the force coming out from the structure.
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OUTCOME
This image above shows the outcome of development based on ZA 11 project. It is similar to their original design except the connecting methods used. For the further development, we would like to create more attract point instead of one at the center. This will create a more complex form as well as show the similarity based on focusing on several attractor in a network system structure.
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PART B. DESIGN APPROACH
B. 4.
TECHNIQUE : DEVELOPMENT
TECHNIQUE : DEVELOPMENT 1 In this exploration, the main approach is towards the extrusion of certain patterns on the surface and producing the different result in extrusions by definition of point attractor which it could be a development towards our ideas of generation or the arrangement of molecule structure. Our precedent is studio DLA’s explorations which usd point attractor as a tool to create variations in three aspects, scale of base pattern and overall performance of the texture of design project.
So in terms of doing that, we set up the exploration on two areas, firstly creating variation on base plane by using the point attractor definition. By doing that, we used hexagon structures as our base geometries for the exploration. We were trying to create a hexagon field where point attractors could be placed in and introduce some properties such as points that have an effect of suction on the structural field. By doing that, we tried to filter the lines that less than certain distance to between the vertices of structures and the attractor point. It is like creating a field of influence with certain affective radius. And we used two points as demonstration to create such affects which bring out the results as shown on the image above. On the right, the matrix shows different result by moving the attract point and changing object height.
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TECHNIQUE : DEVELOPMENT 2
The second stage of our development is to find out the basic elements for our further design of Gate Way Project. Under the research stream of biomimicry , we would like to show the growth process of cell and also the network system achieved by the connection. At this stage, we create six points based on a hexagon, and then create surface from the center point to the edge. This process is can represent the growth of cells as from one point to generate the connection to create a network system. We also used curve attractor here to make difference to show the emergent system with cell system to show the complexity as well as create an eye attractive shape. The matrix showed on right is the design process of trying creating different surface and attractor curve to create the basic form of our design.
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PART B. DESIGN APPROACH
B.5.
TECHNIQUE : PROTOTYPES
MATERIALISATION
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FABRICATION AND ASSEMBLY
- CASE STUDY 1
For our fabrication process, we tired two different ways in our case
tabs around the unrolled surface edge, another one is create conn a gap between and connect them together. After the experiment, a more complex form compare to connecting them by creating tab seems more stronger than the tab one, this may because tab is only multiple and through each single surface.
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1
study to connect each element. One is create nector between each piece of surface by leave we found that using connection will produce bs. And also model produce by connector is y one liner connection while connector can be
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FABRICATION AND ASSEMBLY - TECHNICAL DEV
For the experiment of our technical development model, we also tried use two different material to buil
on the original structure, as three surface split to the middle point, this model is produced by using black er one is produced using cardboard. However, both of these two experiments faced connecting proble frame to support the surface. And as the middle point of the structure is very tiny, this make the fabricat more difficult and complex than we expected.
By making different model using different material, we find out that each material has its advantage an
ent performance. Such as plywood is good bending, plaster is good to create a clear surface while car with but weak in supporting the structure load. For our further development, it will be necessary to consid during the design at all the time, we may still need to do more experiment on different material and con ing on the major project performance we want to achieve at the end.
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VELOPMENT
ld our model. One is based k and white Perspex. Anothem as there is no structure tion and assembly process
nd disadvantage at differrdboard is easy to control der the fabrication process nnecting methods depend-
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PART B. DESIGN APPROACH
B.6.
TECHNIQUE : PROPOSAL
DESIGN PROPOSAL
The outcome we came out after the development is basically combination of de-
velopment 1 and development 2. It represents the idea of growth of Wyndham City by exploring cells growth as a network system. From this model, we can easily image cells growth and split into two and continue grown as a network system. Each hexagon represents each cell which grows from a point then develops to several line to generate a surface. The hollow surface of the elements is also another important idea to show the durable of nature system as a network. We want to achieve a design based on Bomimicry not only the nature form but also how nature existing and its performance in a long time period. Hence we use the hollow surface to allow the nature light come down during the day, the change of shadow pattern will create a sense of feeling dynamic in a day time as well as durable in a long term.
However, this model is not the most successful outcome as its appearance is lacking
of volume and structure support. For our next step, we will continue to push our design argument into a more specific way. Based on the development techniques of case study and research on the cell system, the further development will be engaged with actual site to find the best solution for The Gate Way project.
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PART B. DESIGN APPROACH
B.7.
LEARNING OBJECTIVES AND OUTCOME
LEARNING O
At this stage of our project, we have developed different outcome through t
on the feedback and presentation last week, we find that our design argume to finalise our outcome. This let us rethink about our concept and research st back to our initial design technique and ideas from case study and develop age) For the next step of our design, we will continue develop follow the cell a more structural form rather than a surface for the Gate Way Project. Howev will also keep the feature of complexity and durable of network system to en local society.
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OBJECTIVES AND OUTCOME
the design process. Based ent is not strong enough tream. We decide to go pment. (Shown on the iml growth idea and create ver, the new development ngage with the site and
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reference Albert-László Barabási, To Understand Is To Perceive Patterns, Accessed on 23 April 2013 from http://vimeo.com/34182381 Canopy by United Visual Artist, Design Playgrounds, Accessed on 23 April 2013 from http://designplaygrounds.com/deviants/canopy-by-by-united-visual-artists/ Dimitrie Stefanescu, Patrick Bedarf, Bogdan Hambasan,ZA11 Pavilion, Archiable, Accessed on 6 May 2013 from http://www.archiable.com/201107/110724_za11pavilion.html Emilie Chalcraft, Research Pavillion by ICD and ITKE, Accessed on 8 May 2013 from http://www.dezeen.com/2013/03/05/research-pavilion-by-icd-and-itke/ Generative Stochastic, Subset System, Accessed on 1 May 2013 from http://subsetsystem.blogspot.com.au/2010_11_01_archive.html Geoffrey WEST on The sameness of organisms, cities, and corporations, Accessed on 8 May 2013 from blog.ted.com/2011/07/26/qa-with-geoffrey-west/ Menges, Achim (2012). “Material Computation: Higher Integration in Morphophonemic Design”, Architectural Design, 82, 2, pp. 14-21, p. 20 Michael Fox and Miles Kemp, Overview, Interactive Architecture, Princeton Architectural Press Accessed on 23 April 2013 from http://www.interactive-architecture. com/ Michael Fox (2009). Interactive Architecture(Princeton Architectural Pressosten) Philip Ball, Nature’s Patterns – Shapes, Oxford University Press (Oxford), 2009, p. 17 The morning line by matthew ritchie with arandalash and arup, Designboom, Accessed on 8 May 2013 from http://www.designboom.com/art/the-morning-lineby-matthew-ritchie-with-aranda-lasch-and-arup/ The Morning Line, TAB21, Accessed on 23 April 2013 from http://www.tba21.org/pa vilions/103?category=pavilions
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