2
CONCEPTUALISATION
CONTENTS 4
Week 1
6
Week 2
12
Week 3
16
Week 4
20
Week 5
CONCEPTUALISATION 3
WEEK 1
4
ALGORITHMIC SKETCHBOOK
ALGORITHMIC SKETCHBOOK
5
WEEK 2 SIMPLIFITY
What is a Date Tree? It
is
in
nested
a
branches, set
as
hierarchical lists. which
input
structure
Date Tree means
and
in
multiple
is
where
like
a
data tree
Grasshopper, data
sets
can
with it
stored
number
takes
output.
as
be
a
one
This
of data
process
creates the path that can approach to every single list in the component,
and
therefore
the
data
tree
can
be
identified
through these approaches.
Date Tree Matching sizes single
and
need
change
to
of
solve.
the
occurs
This
algorithm
may be completely different.
GRAFT & FLATTEN
6
ALGORITHMIC SKETCHBOOK
when
is of
inputs
because data
even
have if
matching,
different
makes the
one
results
ITEM
SPLIT
REVERSE
SHIFT
ALGORITHMIC SKETCHBOOK
7
Drawing four curves in Rhino, as the basic for Grasshopper.
Dividing each curve into 36 units.
Creating arches between each curve.
Making loft.
Shifting by 5 units.
Creating surface and baking it into Rhino.
8
ALGORITHMIC SKETCHBOOK
Setting multiple Breps from Rhino (surfaces).
Offestting 18 units from 2 units apart.
Extruding curves by 26 units and splitting surfaces with a bunch of curves. Baking surfaces into Rhino.
Creating three patch surfaces for trimming extra surfaces.
After trimming.
Final outcome.
ALGORITHMIC SKETCHBOOK
9
10
ALGORITHMIC SKETCHBOOK
ALGORITHMIC SKETCHBOOK
11
WEEK 3
12
ALGORITHMIC SKETCHBOOK
ALGORITHMIC SKETCHBOOK
13
14
ALGORITHMIC SKETCHBOOK
ALGORITHMIC SKETCHBOOK
15
WEEK 4
16
ALGORITHMIC SKETCHBOOK
ALGORITHMIC SKETCHBOOK
17
18
ALGORITHMIC SKETCHBOOK
ALGORITHMIC SKETCHBOOK
19
WEEK 5 ROTATED TOWER - A DEFINITION THAT RELATES TO CASE STUDY
Put multiple random points in Rhino and set them periodically, connect to Nurbs Curves as the list of Vertice, put a slider that controls the degree of Nurbs Curve (degree should smaller or equal to the number of points), and Boolean Toggle controls the True of False of periodic curve. Move nurbs curve in z-direction by connect base geometry (output from Nurbs Curve) and translation vector (Unit Z with a Factor slider). Area gives the central point, therefore the moved geometry can be Rotated, and the rotated angle can be controlled by Radians. Loft Nurbs Curve and Rotated geometry together to get the final outcome.
20
ALGORITHMIC SKETCHBOOK
HEIGHTFIELD FORM
ALGORITHMIC SKETCHBOOK
21
22
ALGORITHMIC SKETCHBOOK
ALGORITHMIC SKETCHBOOK
23