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CONCEPTUALISATION 17
18 CONCEPTUALISATION
HTTP://WWW.CHRISTOPH-HERMANN.COM/PARAMETRIC-ARCHITECTURES/PARAMETRIC-ARCHITECTURE-PAVILION/
CONCEPTUALISATION 19
PART B
HTTP://WWW.CHRISTOPH-HERMANN.COM/PARAMETRIC-ARCHITECTURES/PARAMETRIC-ARCHITECTURE-PAVILION/
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Biomimicry is an interesting and broad area to be explored. The idea of biomimicry has been used multi-disciplinarily. My first precedent is the ICD/ITKE Research Pavilion. The project developers were inspired by the skeleton structure of the sea urchin. The main material is plywoods and they were joint together just like the way that the sea urchin’s shell plates notch into one another. This biomimicry design provided the project a durable and stable performance.
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Biomimicry is an interesting and broad area to be explored. The idea of biomimicry has been used multi-disciplinarily. My first precedent is the ICD/ITKE Research Pavilion. The project developers were inspired by the skeleton structure of the sea urchin. The main material is plywoods and they were joint together just like the way that the sea urchin’s shell plates notch into one another. This biomimicry design provided the project a durable and stable performance.
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SPANISH PAVILION, AICHI, JAPAN, 2005
HTTP://WWW.STYLEPARK.COM/DB-IMAGES/CMS/CERAMICA_CUMELLA/IMG/P299004_2200_1515-2.JPG
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SPANISH PAVILION, AICHI, JAPAN, 2005
The second precedent is the Spanish Pavilion built for the 2005 EXPO in Aichi, Japan. The project is obviously a imitation of the structure of honeycombs. The hexagons on the exterior walls provided some of the characteristics of honeycombs, for instance, light-weight, solidity. But this project more likely mirrored the appearance of the honeycomb instead of using its properties.
HTTP://WWW.STYLEPARK.COM/DB-IMAGES/CMS/CERAMICA_CUMELLA/IMG/P299004_2200_1515-2.JPG
24 CONCEPTUALISATION
These two research areas could provide me a flexible choice of development. The geologic environment of the
Merri Creek is very complex, therefore, I might need to develop a flexible structure with the capability to follow the
trend of the creek. I still got some inspiration from the Seville Metropol, the organic form of the structure may be
one of the solutions to my project. However, there are still few points need to be fixed. First of all, the migration
of the aquatic organisms. The first priority of my design will be minimum the impact to the current ecosystem.
HTTP://UPLOAD.WIKIMEDIA.ORG/WIKIPEDIA/COMMONS/6/69/ESPACIO_PARASOL_SEVILLA.JPG
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These two research areas could provide me a flexible choice of development. The geologic environment of the
Merri Creek is very complex, therefore, I might need to develop a flexible structure with the capability to follow the
trend of the creek. I still got some inspiration from the Seville Metropol, the organic form of the structure may be
one of the solutions to my project. However, there are still few points need to be fixed. First of all, the migration
of the aquatic organisms. The first priority of my design will be minimum the impact to the current ecosystem.
HTTP://UPLOAD.WIKIMEDIA.ORG/WIKIPEDIA/COMMONS/6/69/ESPACIO_PARASOL_SEVILLA.JPG
26 CONCEPTUALISATION
CONCEPTUALISATION 27
PART B
02CASE STUDY 1.0
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SHAPES CULLINGGR
IDTR
IANGU
LAR
RADI
ALHE
XAGO
NOFFSETS
CONCEPTUALISATION 29
OFFSETS RANDOMIZING
(0.4,0.2)(0.8,0.8)(0.4,0.3)
(0.8,-0.2)
(0.1,0.5)(0.1,0.2)(0.1,0.2)(1.0,0.5)
(0.6,-0.5)(0.1,1.0)
(0.5,-0.5)(0.6,0.4)
(-0.3,0.4)(0.2,0.3)(0.4,0.2)(0.6,0.2)
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The basic purpose of this design is to filter the water of Merri Creek. And the pattern of the Spanish Pavilion is reticular and very suitable for stopping pollutant in the water.
By changing the inner patterns, the size of the inner ‘hole’ seems to be varied. And the randomly distributed holes may help to catch the rubbish while not disrupt the water flow.
CONCEPTUALISATION 31
The rectangular grid is more likely to applied to the most common strainers. It’s simple but yet effective.
The variation of the size of the holes enables this web-system deal with pollutants in different shapes. And this web may help to classify rubbish based on sizes.
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CONCEPTUALISATION 33
PART B
03CASE STUDY 2.0
34 CONCEPTUALISATION
HTTP://ASSETS.NYDAILYNEWS.COM/POLOPOLY_FS/1.60950!/IMG/HTTPIMAGE/IMAGE.JPG_GEN/DERIVATIVES/GALLERY_1200/GAL-OLYMPICS3-JPG.JPG
CONCEPTUALISATION 35
As the most important and representative architecture of the 2008 Beijing Olympic Games, the bird nest is more than just a stadium. The design of the Bird’s Nest need to meet several design objectives. For instance: large visitors capacity, fill the gaps between the frames (especially the roof), etc. There are semitransparent aerated film to control the sunlight and collect rainwater.
The warping structure of the stadium is remarkably expressive. But the whole stadium won’t be achieved if the interior supports are not well-designed. And the supports actually fused together with the outer frames and together created the interlaced huge bird’s nest.
BIOMIMICRY& STRUCTUREBIRD’S NEST, BEIJING
HTTP://ASSETS.NYDAILYNEWS.COM/POLOPOLY_FS/1.60950!/IMG/HTTPIMAGE/IMAGE.JPG_GEN/DERIVATIVES/GALLERY_1200/GAL-OLYMPICS3-JPG.JPG
36 CONCEPTUALISATION
Start by defining a central points in GH. Then generate the points based on the central point to create the route of the base curve.
Base curve is set and the curves for the roof and shade are the transformation of the base curve.
Generate the facade by lofting the three curves.
Using geodesic to generate curves through the points on the facade.
1.
2.
3.
4.
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Based on a defined bounding box, I used Pop3D to generate random points in the enclosure.
Using volume to calculate the central point of the geometry. And create line between the centre and the random points generated in phase 5.
Project the lines onto the lofted surface to simulate the steel frame.
Using pipe to create volume for the frame.
5.
6.
7.
8.
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CONCEPTUALISATION 39
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CREATE POINTS FOR THE BASE
PROJECT THE LINES DIRECTLY ONTO THE SURFACE
CREATE BASE CURVE THROUGH THE POINTS
LINK THESE POINTS WITH THE CENTRAL POINT OF THE GEOMETRY
GENERATE THE CURVES FOR ROOF AND OVERHANG
CONCEPTUALISATION 41
LINK THESE POINTS WITH THE CENTRAL POINT OF THE GEOMETRY
GENERATE THE CURVES FOR ROOF AND OVERHANG
GENERATE RANDOM POINTS WITHIN THE 3D SPACE
CREATE SURFACE BY LOFTING THE THREE CURVES
DEFINE A 3D BOUNDARY WHICH INCLUDE THE WHOLE GEOMETRY
42 CONCEPTUALISATION
CONCEPTUALISATION 43
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CONCEPTUALISATION 45
PART B
04TECHNIQUE: DEVELOPMENT
46 CONCEPTUALISATION
The shape of the matters a lot. To design a water filter for a small creek a floating structure could help to stop the rubbishes on the water rather than trapping the aquatic creatures. Therefore, the original high-dense web structure might not suitable for such expectation.
VORONOI #1
VORONOI #2
VORONOI #3
VORONOI & SURFACE
CONCEPTUALISATION 47
This three iterations used some more regular structure (hexagonal, diagrid and grid) to form the web. The regular web structure can be fabricated easier and looked uniformly when deploying several of them.
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HEXAGONAL PANELLING
DIAMOND PANELLING
RANDOM SQUARE PANELLING
SQUARE PANELLING
ADJUSTED HEXAGONAL PANELLING
ADJUSTED RANDOM PANELLING
ADJUSTED SQUARE PANELLING #1
ADJUSTED SQUARE PANELLING #2
CONCEPTUALISATION 49
Continuing developing the reticular structure, offsets were used in these three iterations. They were used in order to create holes between the nets which allow the water flows through.
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These two iterations were tending to discover the possibilities of creating a multi-layer structure. The multi-layer structure will let the filter be able to filtrate pollutant in different sizes. To achieve this, the density of each layer is designed to be different.
CONCEPTUALISATION 51
By using culling, I generated several different patterns for the design. The culling tool was actually very helpful to my project which enables me to create some pattern with certain purpose.
52 CONCEPTUALISATION
After culling several patterns, the tornado shape draws my attention. Since when the water pass through a tornado structure and the water-flow will spin which may help to keep the pollutants inside the filter.
CONCEPTUALISATION 53
VORONOI #1
VORONOI #2
VORONOI #3
VORONOI & SURFACE
By creating voronois onto the inlet and outlet, I actually created a cavity inside the structure which might be useful for collecting the rubbishes.
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VORONOI EXTRUDE-BOTTOM
VORONOI EXTRUDE-MIDDLE
VORONOI EXTRUDE-TOP
COMBINED VORONOI EXTRUDE
BASE SURFACE #2
NEW DIAMOND PATTERNING #1
NEW DIAMOND PATTERNING #2
NEW DIAMOND PATTERNING #3
CONCEPTUALISATION 55
NEW DIAMOND PATTERNING #4
NEW TRIANGULAR PATTERNING #1
NEW TRIANGULAR PATTERNING #4
NEW TRIANGULAR PATTERNING #2
NEW TRIANGULAR PATTERNING #3
NEW GRID PATTERNING #1
NEW GRID PATTERNING #2
NEW DIAGRID PATTERNING #1
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NEW BRACED GRID PATTERNING #1
NEW BRACED GRID PATTERNING #2
COMBINED GRID
These iterations are intended to develop an alternative shape of the filter and discover the feasibility of the shape. The outcomes are very unexpected. These iterations are in a fair-shaped form. And these iterations may help to achieve new capabilities for my design.
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PART B
05TECHNIQUE: PROTOTYPES
60 CONCEPTUALISATION
The first model is based on the triangular grids I generated at a relatively early stage. It is a fluctuant structure with multiple triangular frames. Unfortunately, the 3D printer was not able to print the exact structure of the iteration due to some parts of the digital model was too mixed up. It missed several edges of the triangles. But this failure has prevented me from making similar mistakes again. Also, this model gave me the first impression of my original design and helped me to improve it in the subsequent designs.
CONCEPTUALISATION 61
The second model was in order to testing the possibility of a waterwheel-like structure. This design was intend to let the structure keep spinning in the water to create a uncommon water filter. The current concern is that will this spin affect the life of fishes, and will this spin lose the litter which was caught by it.
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The third model was 3D-printed as well. It was based on the hexagon grid structure created by Grasshopper. After reducing the number of the frame, and shrink the size of the superstructure. The model was successful printed, much better than the first model. The centre of this structure is hollow and with the gaps formed by the frame, water could actually flow through this mode just like a small sprinkler. I think this is one of the most important step of my project development. Within this model, it helps me discovered several design potentials but also some problems, especially fabrication. By using 3D printer, the definition of those printers is not enough for my design. Therefore, I’m now working on how actually could I fabricate this structure. Momentarily, I’m testing the possibility of building it by laser cutter and wires.
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PART B
06TECHNIQUE: PROPOSAL
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This diagram shows the early stage development of design ideas. 1. A single layer floating structure which can only catch bottles (or large litter). 2. A multi-layer structure which makes it possible to deal with litter of different sizes within a single unit.3. Several units spanning over the water surface to achieve a larger filtration area.4. Minimize the influence to the aquatic organics.
1
3 4
2
CONCEPTUALISATION 67
The blue areas show the possible deploying area of the units. My possible approach is to anchoring the structure onto the bank or create a bridge structure to actually support itself across the water. To me, I prefer using the anchor in order to achieve a disengaged deployment and uninstallation.
Source: Haoyu Liu
68 CONCEPTUALISATION
Flooding is one of the major problems this project might facing. As Merri Creek is the primary outlet of the stromwater in Melbourne.1 Therefore, the water level is highly related to the precipitation of the area. If my project is designed to be floating on a normal water level, they will be fully submerged during a flood. And moreover, they might be shifted or even be washed away.
Source: http://www.au123.com/home/u/cms/www/201306/01113913nq9w.jpg
CONCEPTUALISATION 69
The first approach is adjusting the water flow speed to achieve the balance of the unit in flood. The upper opening is larger than the nether one. And while the water flow is faster through the upper structure, the hydraulic pressure will press the unit downward. And with the anchors on the bank, the unit will be able to survive a flood.
The second way was add another anchor to the creek bed. This method is more reliable than the first approach, but it will increase the effects onto the aquatic creatures.
1. Merri Creek Management Committe, Merri Creek and Environs Strategy 2009– 2014, 1st edn (Melbourne: Merri Creek Management Committee, 2009), p. 120-124.
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PART B
07LEARNING OBJECTIVES AND OUTCOMES
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The core of the undergraduate design sequence is the development of both design thinking and dexterity with tools.2 ”“
CONCEPTUALISATION 73
The learning process of this subject is not very smooth at the start due to the lack of the essential techniques of Grasshopper. Indeed, it was hard to become familiar with a brand new tool, but the outcomes of Grasshopper fascinated me and they became the motivation for me to learning this great tool. By studying this tool, I started to realise the actual potential of this tool. Every time when I tried a new definition in Grasshopper, the outcomes are so different and unexpected.
Except the Grasshopper skills, this subject has taught me some new perspectives of thinking, especially to think critically and parametrically. Apart from focusing on the appearance, the performance of the design is also crucial. Also, as the foundation of architecture, the site, the users, the stakeholders and so much more is what we need to consider during the design process.
From Grasshopper, I can see the future of architecture. It has great potential and great prospect. Parametric design tools can help architects much more than what they are capable now. Therefore, I’m glad to learn these tools in such a practical subject, and I’m quite confident to the future of parametric design.
2.University Of Melbourne, Studio Air Course Reader, 1st edn (Melbourne: University of Melbourne, 2014), p. 4.
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PART B
08APPENDIX-1
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CONCEPTUALISATION 77
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CONCEPTUALISATION 79
BIRD’S NEST BY RHINO&GH
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CONCEPTUALISATION 81ITERATIONS FROM CASE STUDY2.0
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CONCEPTUALISATION 83
PART B
08APPENDIX-2
84 CONCEPTUALISATION
REFERENCE LIST-1Merri Creek Management Committe, Merri Creek and Environs Strategy 2009– 2014, 1st edn (Melbourne: Merri Creek Management Committee, 2009), p. 120-124.
University of Melbourne, Studio Air Course Reader, 1st edn (Melbourne: University of Melbourne, 2014), p. 4.
CONCEPTUALISATION 85
REFERENCE LIST-2http://www.christoph-hermann.com/parametric-architectures/parametric-architecture-pavilion/http://benbusch.info/site/wp-content/uploads/2013/12/perspective-interior.jpghttp://www.stylepark.com/db-images/cms/ceramica_cumella/img/p299004_2200_1515-2.jpghttp://upload.wikimedia.org/wikipedia/commons/6/69/Espacio_Parasol_Sevilla.jpghttp://assets.nydailynews.com/polopoly_fs/1.60950!/img/httpImage/image.jpg_gen/derivatives/gallery_1200/gal-olympics3-jpg.jpghttp://www.au123.com/home/u/cms/www/201306/01113913nq9w.jpg