Digital Design -June 2018
ARCH20004
Digital Design - Portfolio Semester 1, 2018 Xinyue Ivy Lin
904905 Jun Han Foong + Studio 14
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REFLECTION: Once I traveled into the Harbin and visited the Harbin Opera House. I have been
astonished at the extremely exaggerated design style which gives me an extremely strong visual effect. And then we learned that is the parametric design. Parameter design is a process based on algorithm thinking. It expresses parameters and rules, defines code, and clarifies the relationship between design intent and design response. The subject Digital design is precisely what examine rule base thinking in modeling and fabrication through parametric design software. In this subject, we have learned some new parametric design software, such as the Grasshopper and the Unreal Engine. Parameterization goes far beyond the form itself. Digital technology has changed the way architects think about design. Algorithms are the core of parametric design, and they contain more than just architectural form. This is the big trend of architecture industry future. Moreover, my major is landscape architecture, and learn how to make the parametric design flow into the landscape architecture design is my direction for me. And Digital Design have provided a stepping-stone to this target. SELF-ASSESSMENT:
EDUCATION: 2017 - current
Bachelor of Design
Skills:
in Unimelb
Rhino Grasshopper
2014 - graduated Haileybury College
Unreal Photoshop Illustrator Indesign Fabrication add more ++
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Email: xinyuel7@student.unimelb.edu.au
会 社 名
CONTENT :
In
Digital design, we have learned how to use rule-based thinking in digital design through modeling and manufacturing processes. In digital design, the ability to develop these ideas through contemporary abstractions, assessments, formulas, and information transfer techniques is essential. This subject has focus on developing forms and design content, using digital and physical modeling as iteration, evolution, and generation techniques. ク ラ イ ア ン ト 名
M1 - Diagramming Design Precendent
M2 - Generating Ideas Through Process
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M3 - Queen Victoria Garden Pavilion
M1 - Diagramming Design Precendent Bad hair - AA Pavilion
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Diagramming Design Precedent
Bad Hair Pavilion is award-winning works of Margaret Dewhurst.
The whole structure of Bad Hair Pavilion has four layers. The most difficult layer is the first one , it have been rotated and bend. The second and third layers has similar structure while different height and rotation angle. Meanwhile the top layer provide the maximal activity space. The pierced design decided the sunlight can be permeate, which indicates it don’t have the shelter function, while it more like to provide a rest area for people. The pavilion’s size and its shape provide a enough talking space and relax area to resident. People are always sit or lay on the button of the pavilion. Those corner is the most popular space. Those people has their own ways to treat this pavilion. Which has been suit the Hertzberger’s article The Habitable Space Between Things.
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Threshold and Circulation
Threshold of the Bad Hair
Circulation of the Bad Hair
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M2 - Generating Ideas Through Process Task one
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Design Matrix Lofts
1.2
1.3
{200,-136,149}
{200,62,149} {-150,-3,149}
{0,134,137}
{200,471,149}
{200,46,149} {350,99,149}
{350,-136,149}
{200,134,38} {-150.,44,40 }
{200,-14,62}
{350,441,149}
{350,-14,119}
{200,440,-1} {200,210,-1}
{0,67,-1}
{290,531,149}
{200,531,74}
{0,96,149}
{93,35,74}
1.4
{200,-60,149}
{-150,75.,149 }
{350,-61,-1} {350,-136,-1}
{350,88,-1} {350,67,-1}
{93,35,74}
{290,381,-1}
{350,471,-1}
{350,211,-1}
Paneling Grid & Attractor Point Paneling
{Index Selection}
{Index Selection}
{Index Selection}
{Index Selection}
2.1
2.2
2.3
2.4
{Attractor Point Location}
{Attractor Point Location}
{Attractor Point Location}
{Index Selection}
3.1
3.2
3.3
3.4
+
+
+
+
The first two are parallel surfaces ( in lofts). And the last two are correspondent surface. After the baking surfaces one in grasshopper , I have used the pointson in rhino. The first one is the final surface I had chosen. One of the panel have chosen both the 2D and 3d panels. This surfaces has joined three different panels, one is the 2D which has been hollow out by two tangles, one is normal 3D panels, and the other is based on the later one which differ by the waverbird. Another is the 3D surfaces, it’s just made by the one panel. But I try to create the feeling of continuous. The whole 8 surfaces looks like a group. Moreover, the panel had been made by the waverbird.
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Surface and Waffle +
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--Solid panels to create the continous feeling which shows the whole sturcture is a group. By using the waverbirds that interest through light and shadow.
By this surface, I have chosen both the 2D and 3d panels. This surfaces has joined three different panels, one is the 2D which has been hollow out by two tangles, one is normal 3D panels, and the other is based on the later one which differ by the waverbird.
The whole is the similar size which in order to create the feeling as group.
A hollow waffle structure allows for the creation of an interior volume.
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Computation Workflow
The first one is using the grasshopper to create as more as possible the surface, and the following is my final four surface I have chosen.
By using the grasshopper and the waverbird we can create panels as soon as possible. More possibilities of design and faster than only use rhino.
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The waffle structure are based on the basic surface.
Laser Cutting
The biggest problem is my 3-D panels. Which is too complex to ptunrollsufaces one by one. While when unroll those panels one by one, there are still some cure has been overlap. While by learn some rhino video in youtube . I figure it out by using solidpton to drag the overlap part .
The Detail of Panel
The detail study of the panels. This first one could show the shadow relationship in the model and shows how it create the feeling of the continuous.
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M2 - Generating Ideas Through Process
Task two
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Design Matrix Grid Manipulation
1.2
1.3
1.4
{23,643,136}
{-3,-465,114}
{-275,123,86} {196,-1144,-42}
{-416,88,0 }
{87,638,0} {194,-361,0} {342,-1324,53}
Sphere Dostribution
{Curve Attractor}
{Curve Attractor}
{Curve Attractor}
{Curve Attractor}
2.1
2.2
2.3
2.4
{Point Attractor}
{Point Attractor}
{Point Attractor}
Sphere Transformation
3.1
3.2
3.3
{Consistant Scaling}
{Consistant Scaling}
{Consistant Scaling}
{Point Attractor}
3.4
{Consistant Scaling}
By selecting the final model from consistent scaling 2, which shape shows different shape on every surface. By selection, it can be creating different +
type of the shape. The surface which showed on the sideward shows the two different type of the polygon. The surface on bottom shows the panel one of the rectangle and another is the octagon which has been combine two rectangles. And the other side are made by a three same shape.
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Solid And Vold Where the intersecting geometry interacts with the surface envelope creates a lighter more open space. With the booleandifference command contained mostly within the original shape the cube and by cutting the form, that result in the `` form.
By cutting and chose the cut surface that create different shape in the module.
The solids left behind can also be interpreted as space. If we invert the positive and negative space it creates a stretched/ pinched network of spaces.
In every different side, the shape has present the different shape.
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Computation Workflow
Plan A : Some structure have been overlap.
Plan B : Small shape all inside the boundary and everyone is seprate.
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Plan C: Small piece while some are out of the boundary.
Task 2 3D Printing
Isomatric of the 3D model.
By selecting the final model from consistent scaling 2, which shape shows different shape on every surface. By selection, it can be creating different type of the shape. The surface which showed on the sideward shows the two different type of the polygon. The surface on bot-tom shows the panel one of the rectangle and another is the octagon which has been combine two rectangles. And the other side are made by a three same shape.
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Show different view from last one.
M3 - Queen Victoria Garden Pavilion Garden Pavilion
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M3 - Queen Victoria Garden Pavilion
Isometric
This is the voronori structure around the pavilion. It has create the protective screen around the site and this structure also creates special thresholds between inside and out side.
The threshold at the top of the pavilion, more like to create the “ sky window� to lessen the wight feeling and have an effort to broaden view.
Xinyue Ivy Lin - 904905
The structure of the whole pavilion creates a flow in the top and bring out the feeling of spiral.
The special voronori structure touch the ground will create unique sub-entrances for this pavilion. Make the whole pavilion more free.
At the lowest point of the pavilion is the exit. The entire flow around top have create flowing freely line.
This is the main entrance of the pavilion. The highest point of the whole architecture could create a great vehemence.
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Design Iteration
The panel around this direction have a flow of progress, the one has the expand shape compare to the last. which remind me to create a floe like spiral.
To keep the flow while rubbing down the edges of the model two and make ir became a smooth shape. And this two are some example.
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To create the basic flow of the model, and the whole module follow it.
Computational Process
By using the array commend to create the rotate flow.
To change the basic shape to create as more as possible structure.
Similar structure as the array to produce the insfrastureucture in the site, same as the chair or bench.
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Computational Process
This GH progress is creating the vironoi structure. By using it as the basic sturcture, I have create my pavilion.
Showing how the how site use the vorinoi sturcture.
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Fabrication process
The 1 ďźš 25 model have chosen the part as the exit. Not only the main structure, it also include a support. The reason I chosen the part is it have been show the voronoi sturcture.
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M3 Renders
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1ďźš50 Model
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This model cut from the entrance. Compared with the 1: 25 model, it could show more detailed about the panels. That's the reason why I print another 3D model for Queen Victoria Garden Pavilion
1ďźš25 Model
This model cut from the exit. For this model, I have added some human figures to show how people take action in the pavilion. This model could show beautiful shadows.
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360 Image Output
Digital Design Semester 1, 2018 31