Lofts
1.2
1.3
{150,75,150} {150,0,150}
{150,150,150}
{25,0,150}
Key
1.4
{0,0,0}
{25,150,0} {150,0,150}
{0,75,150}
{0,150,150}
{151,150,-1}
{0,150,100}
{0,150,150}
{150,150,50} {150,150,150}
{150,0,150} {150,0,0}
{150,0,50}
{150,150,50} {150,150,125} {0,125,150}
{0,100,0}
{150,150,150}
{0,100,0}
{151,150,-1}
{125,0,150}
{100,150,0}
{150,75,0}
{0,0,0}
{151,23,4}
{150,75,150}
{0,100,0}
{0,0,150}
{150,0,100} {0,150,150}
{Index Selection}
{Index Selection}
2.1
2.2
{25,145,296}
{Index Selection}
{Index Selection}
2.3
2.4 {77,-29,190}
{93,121,207}
{131,-56,196}
{99,165,173} {148,-42,195} {226,208,161} {-12,181,130}
{20,3,8} {-56,218,-2} {-17,119,-84}
{Curve Attractor }
{Curve Attractor}
{Point Attractor}
3.1
3.2
3.3
3.4
Paneling
Miao Juan Toh - 917893
{152,-49,8}
{Point Attractor}
+
{Weaverbird}
+ {Weaverbird}
Design Matrix 1:5
The waffle structure is built with a bigger gap here to suggest a main point of entry. The most amount of light passing through the hollow waffle structure comes from this side.
Variation of 3D and 2D panels allowing different penetrations of light through the structure.
Hollow side of the 3D panel
The direction of the 3D panels are attracted in a specific direction. They are designed to let light pass through on one side of the structure and ot the other.
Hollow side of the 3D panel
Even though the waffle structure is built with a smaller gap here, the hollow cut-outs of the 3D panel surface gives a sense of openness on this side as well.
Exploded Axonometric 1:1 0
20
60mm
Attractor / Control Points (X,Y,Z) Attractor / Control Curves Grid Points
{150,150,0}
{151,23,4}
{150,50,150}
Paneling Grid & Attractor Point
Module 02 - Task 01
1.1