STACKING LOGIC 1. generation ascending g 2. generation generat ation ascending ascendin ng 3. generation gene eration bridging bridg ging 4. generation ge descending des escending
analysis
1 2. 3. 3.
4.
3.
2.
4. 4.
2.
1.
e
ant tony antony
D
C
B
a
gormley habitat
+
=
h
CONCEPTUAL LOGIC
CATALOG
G
f
e
D
c
b
A
1Clusters are made of three parts, 2.combined in any way.3.the parts in a cluster are not stacked, but rather share a face with another part of the cluster. 5.c. clusters are used to stack downward. 6.ab. clusters are used in stacking upward. 7.for every two generations of clusters there is a third generation of cantilevers. 8.the generations will repeat indefinitely according to the rules of gravity.
2.
cac.cca.
bac.cca.
Cac.cac.
bac.cac
bac.cac
bac.cac
I.
cac.
cac.
bac.
cca.
2.
aab.bab.
aab.bab.
aab.aab.
abb.aab
bab.abb
bab.abb.
1.
CLUSTER catalog
abb.
aab.
bab.
aab.
Generative
i
2
3
1.ARCH 2.CANTILEVER 3.LOOP.
CONSTRUCT LOGIC
cLUSTERS ARE STACKED D IN GENERATIONS OF THRE EE: TWO GENERATIONS OF GROW WTH -ASCENTION OR DESCEN NTION - AND A GENERATION OF BRID DGING CANTILEVER -. THE COMBINATION OF GROWTH CAN BE TRACED TO THREE BASIC PATTERNS S: ARCH. LOOP. AND. CANTILEVER. BY CHANGING THE CLUSTERS WITHIN THE CLUSTERS S THE COMBINATION OF AGGREGATIONS ARE AL LMOST ENDLESS. A GENEREATIV VE FIELD IS FORMED BY LOOPING/ARCHING/CANTILEVERING.
1
based on the rules found in antony ntony gormley’s habitat sculpture at anchorage, alaska i developed a design logic that allows the growth of a modular system of interchangable parts.
2
3
1.tOPVIEW VIEW W kview view 2.Backview view 3.sideview
generative generativ ve field
extraction