Download - Portfolio chan po lun
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CONTENT
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MOTEL/SIG HEADQUARTERS00
CONCEPT
STRUCTURE-FACADE PHYSICAL MODEL
G/FSITE
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BEDROOM LAYOUTS SECTION
6
Noise diffusion is a tactic to minimise the noise level by spreading its intensity through different depths of voids.
My cells open up at the eye level of the drivers who are driving across the bridge to have a less restricted view to the surroundings.
Solar glare can be a problem to drivers. Cells which face the sun decrease in size.
Areas to pay attention to mediate are the 2 ends of the bridge where beneath are the merri creek trail. My cells will populate this area. Cells open up towards the north and south for views.
Sun glare comes from the north and is the direction where cells close up. Adding the considering that the bridge is different in direction, meaning the bridges are unidirectional and opposite in direction as well. The areas to protect against glare highlighted in the diagram to the left.
Noise diffusing by surface of different depths Surface with no noise diffusion
Views at eye level of drivers
Sun glare problem to drivers
Areas to protect against noise Bigger openings at areas of views
Angles requiring glare protection Areas requiring glare protection acc. to traffic direction
Smaller openings to reduce glare
Better views with bigger openings
Trail
Trail
Mer
ri C
reek
Eastern
Highway
Walkway
s
Pedes
drian
Cell Diagrams
Noise diffusion is a tactic to minimise the noise level by spreading its intensity through different depths of voids.
My cells open up at the eye level of the drivers who are driving across the bridge to have a less restricted view to the surroundings.
Solar glare can be a problem to drivers. Cells which face the sun decrease in size.
Areas to pay attention to mediate are the 2 ends of the bridge where beneath are the merri creek trail. My cells will populate this area. Cells open up towards the north and south for views.
Sun glare comes from the north and is the direction where cells close up. Adding the considering that the bridge is different in direction, meaning the bridges are unidirectional and opposite in direction as well. The areas to protect against glare highlighted in the diagram to the left.
Noise diffusing by surface of different depths Surface with no noise diffusion
Views at eye level of drivers
Sun glare problem to drivers
Areas to protect against noise Bigger openings at areas of views
Angles requiring glare protection Areas requiring glare protection acc. to traffic direction
Smaller openings to reduce glare
Better views with bigger openings
Trail
Trail
Mer
ri C
reek
Eastern
Highway
Walkway
s
Pedes
drian
Cell Diagrams
Noise diffusion is a tactic to minimise the noise level by spreading its intensity through different depths of voids.
My cells open up at the eye level of the drivers who are driving across the bridge to have a less restricted view to the surroundings.
Solar glare can be a problem to drivers. Cells which face the sun decrease in size.
Areas to pay attention to mediate are the 2 ends of the bridge where beneath are the merri creek trail. My cells will populate this area. Cells open up towards the north and south for views.
Sun glare comes from the north and is the direction where cells close up. Adding the considering that the bridge is different in direction, meaning the bridges are unidirectional and opposite in direction as well. The areas to protect against glare highlighted in the diagram to the left.
Noise diffusing by surface of different depths Surface with no noise diffusion
Views at eye level of drivers
Sun glare problem to drivers
Areas to protect against noise Bigger openings at areas of views
Angles requiring glare protection Areas requiring glare protection acc. to traffic direction
Smaller openings to reduce glare
Better views with bigger openings
Trail
Trail
Mer
ri C
reek
Eastern
Highway
Walkway
s
Pedes
drian
Cell DiagramsNoise diffusion is a tactic to minimise the noise level by spreading its intensity through different depths of voids.
My cells open up at the eye level of the drivers who are driving across the bridge to have a less restricted view to the surroundings.
Solar glare can be a problem to drivers. Cells which face the sun decrease in size.
Areas to pay attention to mediate are the 2 ends of the bridge where beneath are the merri creek trail. My cells will populate this area. Cells open up towards the north and south for views.
Sun glare comes from the north and is the direction where cells close up. Adding the considering that the bridge is different in direction, meaning the bridges are unidirectional and opposite in direction as well. The areas to protect against glare highlighted in the diagram to the left.
Noise diffusing by surface of different depths Surface with no noise diffusion
Views at eye level of drivers
Sun glare problem to drivers
Areas to protect against noise Bigger openings at areas of views
Angles requiring glare protection Areas requiring glare protection acc. to traffic direction
Smaller openings to reduce glare
Better views with bigger openings
Trail
Trail
Mer
ri C
reek
Eastern
Highway
Walkway
s
Pedes
drian
Cell DiagramsNoise diffusion is a tactic to minimise the noise level by spreading its intensity through different depths of voids.
My cells open up at the eye level of the drivers who are driving across the bridge to have a less restricted view to the surroundings.
Solar glare can be a problem to drivers. Cells which face the sun decrease in size.
Areas to pay attention to mediate are the 2 ends of the bridge where beneath are the merri creek trail. My cells will populate this area. Cells open up towards the north and south for views.
Sun glare comes from the north and is the direction where cells close up. Adding the considering that the bridge is different in direction, meaning the bridges are unidirectional and opposite in direction as well. The areas to protect against glare highlighted in the diagram to the left.
Noise diffusing by surface of different depths Surface with no noise diffusion
Views at eye level of drivers
Sun glare problem to drivers
Areas to protect against noise Bigger openings at areas of views
Angles requiring glare protection Areas requiring glare protection acc. to traffic direction
Smaller openings to reduce glare
Better views with bigger openings
Trail
Trail
Mer
ri C
reek
Eastern
Highway
Walkway
s
Pedes
drian
Cell Diagrams
Noise diffusion is a tactic to minimise the noise level by spreading its intensity through different depths of voids.
My cells open up at the eye level of the drivers who are driving across the bridge to have a less restricted view to the surroundings.
Solar glare can be a problem to drivers. Cells which face the sun decrease in size.
Areas to pay attention to mediate are the 2 ends of the bridge where beneath are the merri creek trail. My cells will populate this area. Cells open up towards the north and south for views.
Sun glare comes from the north and is the direction where cells close up. Adding the considering that the bridge is different in direction, meaning the bridges are unidirectional and opposite in direction as well. The areas to protect against glare highlighted in the diagram to the left.
Noise diffusing by surface of different depths Surface with no noise diffusion
Views at eye level of drivers
Sun glare problem to drivers
Areas to protect against noise Bigger openings at areas of views
Angles requiring glare protection Areas requiring glare protection acc. to traffic direction
Smaller openings to reduce glare
Better views with bigger openings
Trail
Trail
Mer
ri C
reek
Eastern
Highway
Walkway
s
Pedes
drian
Cell Diagrams
CONCEPT OF CELLS FORM
West Elevation
North Elevation
PARAMETRIC NOISE BARRIER01
My cells will populate on a surface that wraps around the bridges and touches the water slightly after experimenting with different forms.
Originally in Part B, I wanted to create a tunnel like structure that encloses the bridge. However, I want my surface of cells to focus on the areas above the merri creek trail where there is the need of noise mediation. So after sketching a few forms, I have decided to populate my cells on a single surface wrapping around the bridges. Also, single surface is less complicated at being managed in the grasshopper model instead of 2 surfaces.
I have explored different ways of wrapping my surface and come up with the most appropriate option.
Wrapping the bridge in a different order than the above.
Other ways of wrapping the bridge by incorporating a tilted up surface.
The surface does not touch the water here.
Form Development
My cells will populate on a surface that wraps around the bridges and touches the water slightly after experimenting with different forms.
Originally in Part B, I wanted to create a tunnel like structure that encloses the bridge. However, I want my surface of cells to focus on the areas above the merri creek trail where there is the need of noise mediation. So after sketching a few forms, I have decided to populate my cells on a single surface wrapping around the bridges. Also, single surface is less complicated at being managed in the grasshopper model instead of 2 surfaces.
I have explored different ways of wrapping my surface and come up with the most appropriate option.
Wrapping the bridge in a different order than the above.
Other ways of wrapping the bridge by incorporating a tilted up surface.
The surface does not touch the water here.
Form Development
My cells will populate on a surface that wraps around the bridges and touches the water slightly after experimenting with different forms.
Originally in Part B, I wanted to create a tunnel like structure that encloses the bridge. However, I want my surface of cells to focus on the areas above the merri creek trail where there is the need of noise mediation. So after sketching a few forms, I have decided to populate my cells on a single surface wrapping around the bridges. Also, single surface is less complicated at being managed in the grasshopper model instead of 2 surfaces.
I have explored different ways of wrapping my surface and come up with the most appropriate option.
Wrapping the bridge in a different order than the above.
Other ways of wrapping the bridge by incorporating a tilted up surface.
The surface does not touch the water here.
Form Development
WEST ELEVATION
SITE SHADING DEVICE
SECTION BSECTION A
NORTH ELEVATION
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Final Detail Model
TECTONIC ELEMENTS & PROTOTYPES
OTHER PROTOTYPES & TESTING
Steel Bolt and Cleats Joint
Teeth Lapping Joint with nails
Steel Rods, Tension and suspension connections
Inspired by the connection at the facade of RMITIt is effective in suspending surfaces in differentdirections.
Steel Rods and Tube Joint connection
Bolt NutCleat
Bolt NutCleat
Bolt
Steel RodsSteel tube joint
Steel plate for welding to rods
Nail Lapped Detail
Teeth nailed into Angle
Nut
Rod inserted through 2 cells surface
Suspension rods connection
Steel Rod
Teeth Joint
Connection Diagrams
C2 Tectonic Elements & Prototypes
Steel Bolt and Cleats Joint
Teeth Lapping Joint with nails
Steel Rods, Tension and suspension connections
Inspired by the connection at the facade of RMITIt is effective in suspending surfaces in differentdirections.
Steel Rods and Tube Joint connection
Bolt NutCleat
Bolt NutCleat
Bolt
Steel RodsSteel tube joint
Steel plate for welding to rods
Nail Lapped Detail
Teeth nailed into Angle
Nut
Rod inserted through 2 cells surface
Suspension rods connection
Steel Rod
Teeth Joint
Connection Diagrams
C2 Tectonic Elements & Prototypes
Steel Bolt and Cleats Joint
Teeth Lapping Joint with nails
Steel Rods, Tension and suspension connections
Inspired by the connection at the facade of RMITIt is effective in suspending surfaces in differentdirections.
Steel Rods and Tube Joint connection
Bolt NutCleat
Bolt NutCleat
Bolt
Steel RodsSteel tube joint
Steel plate for welding to rods
Nail Lapped Detail
Teeth nailed into Angle
Nut
Rod inserted through 2 cells surface
Suspension rods connection
Steel Rod
Teeth Joint
Connection Diagrams
C2 Tectonic Elements & Prototypes
Steel Bolt and Cleats Joint
Teeth Lapping Joint with nails
Steel Rods, Tension and suspension connections
Inspired by the connection at the facade of RMITIt is effective in suspending surfaces in differentdirections.
Steel Rods and Tube Joint connection
Bolt NutCleat
Bolt NutCleat
Bolt
Steel RodsSteel tube joint
Steel plate for welding to rods
Nail Lapped Detail
Teeth nailed into Angle
Nut
Rod inserted through 2 cells surface
Suspension rods connection
Steel Rod
Teeth Joint
Connection Diagrams
C2 Tectonic Elements & Prototypes
Steel Bolt and Cleats Joint
Teeth Lapping Joint with nails
Steel Rods, Tension and suspension connections
Inspired by the connection at the facade of RMITIt is effective in suspending surfaces in differentdirections.
Steel Rods and Tube Joint connection
Bolt NutCleat
Bolt NutCleat
Bolt
Steel RodsSteel tube joint
Steel plate for welding to rods
Nail Lapped Detail
Teeth nailed into Angle
Nut
Rod inserted through 2 cells surface
Suspension rods connection
Steel Rod
Teeth Joint
Connection Diagrams
C2 Tectonic Elements & Prototypes
Steel Bolt and Cleats Joint
Teeth Lapping Joint with nails
Steel Rods, Tension and suspension connections
Inspired by the connection at the facade of RMITIt is effective in suspending surfaces in differentdirections.
Steel Rods and Tube Joint connection
Bolt NutCleat
Bolt NutCleat
Bolt
Steel RodsSteel tube joint
Steel plate for welding to rods
Nail Lapped Detail
Teeth nailed into Angle
Nut
Rod inserted through 2 cells surface
Suspension rods connection
Steel Rod
Teeth Joint
Connection Diagrams
C2 Tectonic Elements & Prototypes
Steel Bolt and Cleats Joint
Teeth Lapping Joint with nails
Steel Rods, Tension and suspension connections
Inspired by the connection at the facade of RMITIt is effective in suspending surfaces in differentdirections.
Steel Rods and Tube Joint connection
Bolt NutCleat
Bolt NutCleat
Bolt
Steel RodsSteel tube joint
Steel plate for welding to rods
Nail Lapped Detail
Teeth nailed into Angle
Nut
Rod inserted through 2 cells surface
Suspension rods connection
Steel Rod
Teeth Joint
Connection Diagrams
C2 Tectonic Elements & Prototypes
Steel Bolt and Cleats Joint
Teeth Lapping Joint with nails
Steel Rods, Tension and suspension connections
Inspired by the connection at the facade of RMITIt is effective in suspending surfaces in differentdirections.
Steel Rods and Tube Joint connection
Bolt NutCleat
Bolt NutCleat
Bolt
Steel RodsSteel tube joint
Steel plate for welding to rods
Nail Lapped Detail
Teeth nailed into Angle
Nut
Rod inserted through 2 cells surface
Suspension rods connection
Steel Rod
Teeth Joint
Connection Diagrams
C2 Tectonic Elements & Prototypes
PROTOTYPE 1 PROTOTYPE 2 PROTOTYPE 3 PROTOTYPE 4
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SOCIAL MEDIA HEADQUARTERS02
LANDSCAPE DESIGN
SITE
CONCEPT
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FACADE DETAILING
AMENITY DESIGN & DETAIL
STRUCTURAL DESIGN ELEVATIONS
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RESIDENTIAL w/ OPEN PLAN03
CONCEPT
MODULARITY
SITE
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ELEVATIONS SECTION
STRUCTURE
SERVICES DESIGN
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BRIDGES STREET MARKET REVITALISATION04
CONCEPTEXISTING BSM
ELEVATIONS
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SUSTAINABLE FEATURES
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KINDERGARTEN05
CONCEPT
STRUCTURE
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DETAILING
SECTION
VIEWS
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SINGLE FAMILY HOUSE06
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THANK YOU FOR YOUR ATTENTION AND TIME!
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