AFTER TYPE 4 Game Guides
“This is an offering to nature”
COEXIST ISLAND
COEXIST ISLAND SITE 7 Coexist island is a station used for migratory birds’ stopover as well as a bridge for human to observe birds in their natural habitat. It also responded to the East Asian-Australian Flyway Partnership (EAAFP), which aims to preserve migratory waterbirds and their habitats, considering both people and biodiversity of the East Asian-Australasian Flyway, connecting, and bonding people with migratory birds and qualities of nature. The concept provides a new temporary migration stop and transferring to a new designated nature preserve for migratory birds during their long-distance flights as the existing grounds are eventually eroded by the time of 2030. This project ‘embraces’ nature as the centre of education and recreation as it situates on the outfall of the water treatment plant site, the substances expelled at the outfall are edible and very much liked for the animals on-site, like birds and fishes. Thus, a suitable location for a nature-preservation aimed project to take place. The project reimagines the island as an experience and designs a series of structures blended with complex and organic attitudes that would together foster vibrantly educational, community and natural spaces, resulting in another natural habitat for migratory birds and animals in Australia that also allows soft human interactions (bonding with animals and nature). The project creates a diverse landscape with numerous pathways, viewing platforms and destinations, fostering numerous activities. The scale of the organic structure’s interiors brings the exterior tendencies of landscapes inside, blurring the boundary between “inside and outside” spatially and formally. In this “vast interior”, nature is identified not with simply the occasional active presence of greenery or biomorphic form but with boundless, expansive space. The shift here is not only experiential, but social as well. The qualities associated with public, urban spaces, freedom of collective assembling and individual journeys are brought inside. The programmatic openness of landscape is conveyed in an architectural framework. Responding to the project aim, the island promotes coexistence between human and nature, emphasising the harmony, as humans are regarded as part of the natural world, and infrastructure is no longer limited by boundaries and size, there is no gap nor line of separation between humans and animals and nature. The natural environment should be optimized through the combination with the infrastructural elements. Here on site, we define education as a mode of asserting bonding between one and another, treating others with respect and equality (animals included), as well as a process of experimentation, discovery and learning more of the nature (via the programs). Different from the traditional teaching spaces in the past, this is an open, informal study area, providing better spaces supporting new pedagogies and environmental conditions for learning. By forming a sustainable environment that adapts to changing needs, the processes of engaging with onsite activities and experiencing the island’s offerings, it can create a strong sense of belonging, and is also able to engender civic pride, nature awareness and well-being. In this context, as an island composed of human’s offerings and nature’s offerings, it finds its place on the site as a gift to the future of preservation.
DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
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DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
FINAL
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DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
FINAL
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DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
FINAL
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DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
FINAL
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DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
FINAL
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DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
FINAL
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DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
FINAL
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DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
KEY
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DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
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DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
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DIAGRAMS AND DESIGN PROCESS OF THE FINAL PROPOSITION
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DIAGRAMS & DESIGN PROCESS
Coexist PROPOSITION:
Partial linear relationship is used to increase the cohesion between components and meet the requirements of adjacency. From the perspective of the architectural volume, the spatial quality relationship is stretched by constructing towering and sharp architectural lines, so as to weaken the way of organization and composition logic from the human perspective as much as possible. The use of each component highlight is located in the central city public area, which is the basic condition for sharing and participation, and is expanded in sequence to encourage and participate by walking. make agitate to the context. The architecture consists of a series of structure components to explore different architecture scales. In addition to the original collective memory, we need a space to preserve the collective memory, in order to generate a new spatial memory to express the recognition of life. This is about ACKNOWLEDGEMENT, celebration. It is also an act of salvation We are trying to seek through a series of spatial interventions and behavioral interventions to guess whether people’s perception of their own behavior or psychology will change? This form of arrangement provides a framework for a better understanding of the ecological environment, and at the same time responds and calls for a positive response to the ecological environment, trying to influence and judge the truth of the facts by setting up different mechanisms.
Island
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DIAGRAMS & DESIGN PROCESS
Axonometric Diagram V1
DIAGRAMS & DESIGN PROCESS
Axonometric Diagram V1
KEY VIEWS
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PRECEDENT
Lens
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The
Ideas Rheotomic Surfaces Optimize the space through generated surfaces with some unique geometric properties making them particularly well suited for architectural use. Increasing the usable surface areas.
Biomorphic Architecture Very inhibited and free decisions of curves and demonstrated the nature’s pure and restraint-less features.
Multiple functions The transforming surface can combine the multiple functions such as waterproof, lighting and agricultural planting.
Landscape Topography The landscape creates opportunities for different views and creates numerous paths within the park while also fostering biodiversity.
DIAGRAMS & DESIGN PROCESS
Coexist PROPOSITION:
Our design embodies new opportunities to meet, connect and celebrate, organically embedded spaces that allow people to participate at any level they choose. AS We can see through the top view that the edge of the city is defined by the collision of organic lines and straight lines, thereby generating more interactive space to find a new image in the city, by creating more conditions to fit for purpose and adaptable to changing needs. Use the semi-naked urban structure to reveal and imply the urgency of resources. At the same time, we still accept all life in a way of tribute. The flowing curve structure is generated in a crawling way, which is also a response to rising sea levels, WEARING A “MEMBRANE’ and reveal a continually changing expression. The surface can combine the multiple functions such as waterproof, lighting or agricultural planting. Consider the site as a heritage, set up a series of Infrastructure & facilitate to bring new opportunities to meet, and enhance the interaction between humans and animals, land and sea through the active participation of humans, thereby enhancing mutual relations Intimacy and trust. This is about the meaning of education. Here, we define education as a mode of getting along with each other with respect and equality. By forming a sustainable environment to adapt to changing needs, engaging and create a strong sense of placeable to engender civic pride and well-being in an inclusive community. Different from the traditional teaching space in the past, this is an unformal study area, provide better spaces supporting new pedagogies and environmental conditions for learning.
Island
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DIAGRAMS & DESIGN PROCESS
Axonometric Diagram V2
DIAGRAMS & DESIGN PROCESS
Axonometric Diagram V2
KEY VIEWS
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ARCHITECTURAL DRAWINGS EXHIBITING IDEAS
Architectural Drawings
ARCHITECTURAL DRAWINGS EXHIBITING IDEAS
Architectural Drawings
ARCHITECTURAL DRAWINGS EXHIBITING IDEAS
Architectural Drawings
ARCHITECTURAL DRAWINGS EXHIBITING IDEAS
Architectural Drawings
ARCHITECTURAL DRAWINGS EXHIBITING IDEAS
Architectural Drawings
STRUCTURE COMPONENT
Architectural Blockouts
STRUCTURE COMPONENT
Architectural Blockouts
PROGRAMMATIC ARRANGEMENT
Architectural Programme
PROGRAMMATIC ARRANGEMENT
Architectural Programme
PROGRAMMATIC ARRANGEMENT
Merging
Results
KEY VIEWS
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V3
DIAGRAMS & DESIGN PROCESS
Axonometric Diagram V3
DIAGRAMS & DESIGN PROCESS
Axonometric Diagram V3
DIAGRAMS & DESIGN PROCESS
Axonometric Diagram V3
DIAGRAMS & DESIGN PROCESS
Axonometric Diagram V3
DIAGRAMS & DESIGN PROCESS
Axonometric Diagram V3
DIAGRAMS & DESIGN PROCESS
Coexist
Island
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ARCHITECTURAL DRAWINGS EXHIBITING IDEAS
Architectural Drawings
ARCHITECTURAL DRAWINGS EXHIBITING IDEAS
Architectural Drawings
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HANLIN WANG
STATE TYPE OF EXPLORATION: INDIVIDUAL (A,B,C,D), ECOLOGIES 1, ECOLOGIES 2, ECOLOGIES 3
THE INFESTED INTERIOR The architecture is a focus on the infestation of interior elements on the exterior... By using the system it is able to create consistent folded, repetitions of the interior elements on the exterior. PAPER FOLDING SYSTEM: 1. Split the data into three groups, (1,2), (4,8), (16,32,64) 2. Find the average of each respective groups, 1.5, 6, 37 3. Stretched pillar/ornament form thickness (initial 2000mm) by 150%, 600% and 3700% in respective groups. (5000, 14,000 76,000). 4. Determine the rounded Average = 18. Multiply it by the original ornament thickness 2000mm. 5. Add the result of 2000x18 to each group’s increased thickness. 6. Thus, the result: 41,000; 50,000; 112,000. 7. Find total outcome of folds, 21. Find range of number of sheets, 63. 8. 63% of stretched column shall fold. 9. Grouping (1,2,4) (4,8,16) (16,32,64) to determine folding angles 7, 28, 112 for respective short to long ornamental columns.
HANLIN WANG
STATE TYPE OF EXPLORATION: INDIVIDUAL (A,B,C,D), ECOLOGIES 1, ECOLOGIES 2, ECOLOGIES 3
STACKING THE ROOMS To create a Megaform landscape architecture with a long-term stability, befitting the site’s existing presence, that which will assist in demonstrating a variety of cultures and for didactic and infrastructural purposes. By using the typological behaviour of the stacking of volumetric form and mass, the outcome demonstrates a series of new stackings and new intersections and spatial relationships between each structural components. PAPER FOLDING SYSTEM: 1. Using the table, split the god into 7 segments: 0,1,2,3,4,5,6 2. Find length of god, 9127. 3. 9127/7=1304(rounded) for individual segment length. 4. Odd number segments are subtracted, whilst even number segments are kept. 5. Split the thickness data into 4 groups, (1,2), (4,8), (16,32), (64) and add each group’s values. 6. (3), (12), (48), (64) -> 30, 120, 480, 640 rotate each level according to this for levels 1,2,3,4. Even numbers remain positive whilst odds turn negative. (3) = (-3), thus -30. 7. Split number of folds into 4 groups with 0, (0,0), (0,2), (0,4) (0,6) find range of each group, which is 0, 2, 4, 6. Reverse and assign to each floor. 6 to 1, 4 to 2, 2 to 3, 0 to 4. 8. Multiply by 1000 to result in 6000, 4000, 2000, 0. Stretch the floors 1,2,3,4 by these numbers respectively in x and y-axis directions. 9. Find the average of folds: 3 10. Move the rotated duplicates towards left in 3 metres 11. Repeat steps 5-10 and move towards right in 3 metres 12. Using the Range found from sheet thickness, 63, rotate the stretched
XUANRU(Elio), LIU
OPTIMIZE PROPOSITION: Optimize the space through the Oblique architecture to expand the use of physical space and promote more accessibility. GENERIC OPERATIVE DIAGRAM: Extracting precedents for the expression of Oblique architecture to promote the exploration of the possibility of creating new spatial forms and conditions, detecting and exploring the conditions around tilting through different scales, and also paying attention to the relationship between budding and development in the urban structural framework. JUDGE & SPECULATE: The operating principles attempt to give the architecture a revelatory and provocative role. Detect and explore the conditions around the tilt through different scales to create a new geometric order, discover a new kind of freedom, let imbalance become the driving force to generate activity. At the same time, through the perception of the urban environment, through the existence of human beings And actions, they activate ways of reinterpreting the relationships and principles of architectural space. RULES SET: 1. The three main components of GOD correspond to Au: PVP (K-30), Au: PVP (K-60), Au: PVP (K-90) 2. Calculate proportionally and apply the Colloid (kao lou A de) size data to the three Au: PVP finds the data nodes respectively 3. Use Core size data to rotate the components separately 4. Duplicate components are based on the data intersection of Au: PVP (K-30), Au: PVP (K-60), Au: PVP (K-90) 5. Move on the Z axis according to the intersection data 6. Combine data
SPATIAL STRATEGIES INDIVIDUAL EXPLORATION A
SPACE
XUANRU(Elio), LIU
COLLECTIVE PROPOSITION: To create a Megaform landscape architecture with a long-term stability, befitting the site’s geographic qualities, that which will assist in demonstrating local cultures and for didactic and infrastructural purposes. GENERIC OPERATIVE DIAGRAM: Consideration of megastructural interventions in relation to existing urban fabric, suggest the public skeletons without boundaries. The result is an infrastructure of meaning, where architecture and infrastructure interplay to orchestrate the city. JUDGE & SPECULATE: Megaform not necessary to be megastructure but fulfils multiple roles in the urban form. In this notion a road can become a corridor. a building can take the role of a public square. Architecture could be emerge from infrastructure. This activates both building and street as spatial agents within the city. Roads and buildings are no longer static objects in the urban form. but active mediators in the city, which is integrated as much as possible with the site on which it sits. At times this topographic character may be so dominant as to become a virtual landscape in itself. RULES SET: 1. Extract the communication characteristics of nerve cells in the Golgi structure. Think of GOD as a The Golgi apparatus is made up of four cisternae. 2. The three city structures in the collective form correspond to Cargo, Vrg4 and Sec7 respectively. 3. Operate GOD corresponding to the data of diagram BCEF and form four cisternae respectively. 4. Regard Normalized fluorescence intensity and Time as the main factors affecting the operation of cisternae. 5. Extract the highest point of the value Time to rotate Cargo, Vrg4 and Sec7 on the X.Y axis. 6. Extract the highest point of the value NFI and move Cargo, Vrg4 and Sec7 on the Z coordinate axis respectively. 7. Combine four cisternae as the basic condition to form a complete Golgi apparatus
FORM SIMULATION INDIVIDUAL EXPLORATION B
FORM
HANLIN (Henry), WANG
EASTER
EGGS
CREATIVITY NEVER MAKES DAMAGE !!!
XUANRU (Elio), LIU
EASTER
EGGS
YOU HAPPY ?! WE HAPPY !!!
“May we live in a world of harmony”