HYPERBODY
evolutionary pattern 2.0 deepFORMATIONS Ink-liquid morphology: Rel’inked MSc2 design studio directed by marco verde eng, march
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
CREDITS > Coordinates deepFORMATIONS. MSc2 Design Studio HYPERBODY, Delft University Of Technology 01.02.2011 to 20.06.2011 > Students Herman Luk_Hong Kong Frank van Brunschot_Netherlands Yilin Zhou_China Can Liu_China > Director/Instructor Marco Verde Eng, MArch www.marco-verde.blogspot.com
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
The project objective is to extract the morphological properties of ink pattern in the liquid to generate form within the temporal sense. During the process, the methodology of data abstraction and processing is studied.
a key procedure to the form generation. Studies were based on two hierarchies and dimensions: inter-frameline connection and intercluster connection. The first hierarchy is based on the connection of the points within framlines, in which network of lines with different connectivity could be formed, while the second hierarchy is focused on a larger scale, in which the idea of principle region is introduced to deal with the intersection across clusters.
>Stage One: Ink experiment The aim of this experiment is to find the morphology of the ink pattern produced in the liquid. During the experiment, several constraints such as ink volume and concentration were considered as the pro- >Stage Four: Form generation duction of catalogue series of the ink pattern. In the end of this stage With the point clouds the connection algorithm was refined further. only one of the ink pattern was chosen for further investigation. Four stages of curves development and optimization were undergone. From choosing specific points from point clouds, connecting those >Stage Two: Data processing points with lines according to the clusters to optimizing the curves Temporal data of ink pattern were first abstracted by overlaying the according to formula. Finally, 4 sets of curves were generated and images. In this sense, the trend of movement and transition of the components of plates and surfaces were formed according to the ink particles could be traced and potential way for data processing curves and new set of algorithm of plate surface creations. could be discovered. After firming the clusters of the overall pattern according to the phenomenon of the different particle speeds and >Stage Five: Project proposal directions, frame lines were traced accordingly. Also, points cloud Combining with the human scale, structural possibility and the rewere extracted based on the frame lines and also the density of the ink lationship with the environment, the parameters of the components pattern by using parametric software. From this point, a full collection were further refined and optimized. Adjustment of the existing landof point clouds with different clusters are hence established scape according to the similar algorithm was proposed for the possibility of the entire project that emerge with the whole site condition. >Stage Three: Connection algorithm Several studies of connection algorithm have been set up to allow further investigation of the connection potential of the point cloud as
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
TABLE OF CONTENT > INTRODUCTION > CHAPTER 1: EXPERIMENT
Phase 1.1 Phase 1.2 Phase 1.3 Phase 1.4
Preparation Preliminary experiments Follow-up experiments Final experiment
> CHAPTER 2: DATA PROCESSING
Phase 2.1 Abstracting information Phase 2.2 Defining point clouds
> CHAPTER 3: CONNECTION ALGORITHM
Phase 3.1 Point Clouds Investigation Phase 3.2 Connection Algorithm Phase 3.3 Construction Line Optimization
> CHAPTER 4: FORM GENERATION
Phase 4.1 Form generation Phase 4.2 Component design
> CHAPTER 5: PROJECT PROPOSAL
Phase 5.1 Phase 5.2 Phase 5.3 Phase 5.4 Phase 5.5
Site Analysis Defining Orientation and Scale Interaction with the Site Component Application Final Project
> APPENDIX Appendix 1 Initial form studies Appendix 2 Production files Appendix 3 Models photos
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
> CHAPTER 1: EXPERIMENT
Phase 1.1 Phase 1.2 Phase 1.3 Phase 1.4
Preparation Preliminary experiments Follow-up experiments Final experiment
> CHAPTER 2: DATA PROCESSING
Phase 2.1 Abstracting information Phase 2.2 Defining point clouds
> CHAPTER 3: CONNECTION ALGORITHM
Phase 3.1 Point Clouds Investigation Phase 3.2 Connection Algorithm Phase 3.3 Construction Line Optimization
> CHAPTER 4: FORM GENERATION
Phase 4.1 Form generation Phase 4.2 Component design
> CHAPTER 5: PROJECT PROPOSAL
Phase 5.1 Phase 5.2 Phase 5.3 Phase 5.4 Phase 5.5
Site Analysis Defining Orientation and Scale Interaction with the Site Component Application Final Project
> APPENDIX Appendix 1 Initial form studies Appendix 2 Production files Appendix 3 Models photos
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.1 PREPARATION 1.11 SENARIO 1 & SENARIO 2 Senario 1 How to slow down the ink flow is the main concern during this modified experiment. The solution was transfer the media from air to water. Thus, the ink was continuously squeezed into a glass container. The trajectory of ink flow is well recorded in this experiment. However, experimenter’s hand becomes part of the background in the front view images and badly influenced the quality of those images.
60
60
2 60
180
08
1
1
1
1. Settings 2. Phenomenon
Senario 2 An installation with three perpendicular faceplates is set up as the base of our experiment, three cameras from top, side, front views captruring the trajectory of horizontal ink flow. After dividing the original movie clips into frames, it is found that the images are quite blurred since the speed of the ink flow is too fast to be recorded clearly by the cameras.
2
60
30
04
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30
1
1
1
1. Settings 2. Phenomenon
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.1 PREPARATION 1.12 SENARIO 3
80
20
20
A clear catalog of variation in parameters and the quality of information are the main concern in this experiment. Thus, straw is used to purify the background and lead the horizontal liquid flow. Syringe is used to control the volume of liquid in each experiment.
60
Settings
60
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.1 PREPARATION 1.13 PARAMETERS OF THE EXPERIMENT According to the analysis of the forces which influence the motion of the liquid flow in the water, we set up mainly two parameters. Proportion of ink, water, and soap 0.1% ink 1.0% ink 10.0% ink 50.0% ink 100.0%ink volume of liquid flow 3 ml 5 ml 10 ml
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.2 PRELIMINARY EXPERIMENTS 1.21 PRELIMINARY EXPERIMENTS
Proportion
0.1% ink
1.0% ink
3.0% ink
5.0% ink
50.0% ink
100.0% ink
Volume
1.1% ink 11.1% soap
3 ml
4 ml
5 ml
10ml
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.3 FOLLOW-UP EXPERIMENTS 1.31 12EXTRACTED EXPERIMENTS
Proportion
0.1% ink
1.0% ink
3.0% ink
5.0% ink
50.0% ink
100.0% ink
Volume
1.1% ink 11.1% soap
3 ml
4 ml
5 ml
10ml
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.3 FOLLOW-UP EXPERIMENTS 1.32 3 EXTRACTED EXPERIMENTS
Proportion
0.1% ink
1.0% ink
3.0% ink
5.0% ink
50.0% ink
100.0% ink
Volume
1.1% ink 11.1% soap
3 ml
4 ml
5 ml
10ml
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYperbody HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.3 FOLLOW-UP EXPERIMENTS 1.32 3 EXTRACTED EXPERIMENTS 3ml 1.0%
Frame-nr. Volume
FR.02 0.5s
FR.05 2.5s
FR.15 7.5s
FR.25 12.5s
FR.35 17.5s
FR.40 20.0 s
FR.50 24.0 s
Top view
Side view
Front view
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.3 FOLLOW-UP EXPERIMENTS 1.32 EXTRACTED EXPERIMENTS 3ml 3.0%
Frame-nr. Volume
FR.02 0.5s
FR.05 2.5s
FR.15 7.5s
FR.25 12.5s
FR.35 17.5s
FR.40 20.0 s
FR.50 24.0 s
Top view
Side view
Front view
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.3 FOLLOW-UP EXPERIMENTS 1.32 3 EXTRACTED EXPERIMENTS 3ml 5.0%
Frame-nr. Volume
FR.02 0.5s
FR.05 2.5s
FR.15 7.5s
FR.25 12.5s
FR.35 17.5s
FR.40 20.0 s
FR.50 24.0 s
Top view
Side view
Front view
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.4 FINAL EXPERIMENT 3ML 5% TOP VIEW
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AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.4 FINAL EXPERIMENTS 3ML 5% SIDE VIEW
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AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
1.4 FINAL EXPERIMENT 3ML 5% FRONT VIEW
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AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
> CHAPTER 1: EXPERIMENT
Phase 1.1 Phase 1.2 Phase 1.3 Phase 1.4
Preparation Preliminary experiments Follow-up experiments Final experiment
> CHAPTER 2: DATA PROCESSING
Phase 2.1 Abstracting information Phase 2.2 Defining point clouds
> CHAPTER 3: CONNECTION ALGORITHM
Phase 3.1 Point Clouds Investigation Phase 3.2 Connection Algorithm Phase 3.3 Construction Line Optimization
> CHAPTER 4: FORM GENERATION
Phase 4.1 Form generation Phase 4.2 Component design
> CHAPTER 5: PROJECT PROPOSAL
Phase 5.1 Phase 5.2 Phase 5.3 Phase 5.4 Phase 5.5
Site Analysis Defining Orientation and Scale Interaction with the Site Component Application Final Project
> APPENDIX Appendix 1 Initial form studies Appendix 2 Production files Appendix 3 Models photos
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
2.1 ABSTRACTING INFORMATION 2.1.1 DIFINE CLUSTERS From the final chosen experiment, 20 frames (0.5 sec per frame) are chosen for data processing. They are Frame 5, 9, 13, 17, 21, 25, 29, 33, 37,41, 45, 49, 53, 57, 61, 65, 69, 73, 77, 81. Three views (top/ side/ back) of the superposition of 20 frames are laid in coordinate system. As high complexity of the ink flow, the superposition is divided into six clusters in order to make sure the data is well-organized. C A
A B
DATA LIST
B
CLUSTER
D E
F5 F9 F13 F17 F21 F25 F29 F33 F37 F41 F45 F49 F53 F57 F61 F65 F69 F73 F77 F81
Cluster A
C
F E
Cluster B
F
Cluster C
D
Cluster D Cluster E
A
Cluster F
C
B
D
F E
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
2.1 ABSTRACTING INFORMATION 2.1.2 TRACE FIRST-LAYER CURVE Within each cluster, critical position like boundaries and darker areas are chosen for mapping. We use curves to present those areas. The diagram shows the example of tracing the first-layer curves in Frame 53.
A1
B1
C A
A2
B
A3
DATA LIST
C2
D E
CLUSTER
CURVE
Cluster A Cluster B
A1 A2 A4
Cluster C
B1
Cluster D
C1 C2 C3 C4 C5
C5 C1
F
C3 E1
C4
D2
D1 F1
B1
Cluster E
A2 A1 A3
C2
Cluster F
C1 C5
C3
D2 F1
E1
D1
D1 D2
C4
E1 F1
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
2.1 ABSTRACTING INFORMATION 2.1.3 TRACE SECOND-LAYER CURVE Meanwhile, second hierarchy of curves are traced in order to record the width of the ink flow.
A2S A2
A2 A3
A2 A3
DATA LIST CLUSTER
CURVE
Cluster A
A3
Cluster B
A1 A2 A4
Cluster C
B1
B2
Cluster D
C1 C2 C3 C4 C5
Cluster E Cluster F
D1 D2
D3
E1
E2
F1
F2
A3 A2
Side view of Frame 53
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
2.1 ABSTRACTING INFORMATION 2.1.4 RESULT OF FRAME LINES Superposition of all the frame lines
DATA LIST CLUSTER
CURVE
Cluster A
A3
Cluster B
A1 A2 A4
Cluster C
B1
B2
Cluster D
C1 C2 C3 C4 C5
Cluster E Cluster F
D1 D2
D3
E1
E2
F1
F2
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
2.1 ABSTRACTING INFORMATION 2.1.5 REFINE CURVES OF EACH CLUSTER Because of manually picking up the lines in 2-dimentional, the outcome, 3-dimentional frame lines are not exactly following the transition of physical experiment. Therefore, refining curves are necessary. At this step, we focus on the area of each frame line group to make sure the boundaries match with the movie clickimage. In addition, we double-check the lines whether the interesting details of movieclick images have been kept or not. The right side diagram shows the example in A2 of this step. DATA LIST CLUSTER
CURVE
Cluster A
A3
Cluster B
A1 A2 A4
Cluster C
B1
B2
Cluster D
C1 C2 C3 C4 C5
Cluster E A3 - perspective view
Original edge of the curves
A3 - top view
Refine the edge according to physical properties of the experiment
Cluster F
D1 D2
D3
E1
E2
F1
F2
After refining, frames are more smooth and close to the extracted image.
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
2.1 ABSTRACTING INFORMATION 2.1.5 REFINE CURVES OF EACH CLUSTER Superpotion of all the frame lines after refining
DATA LIST CLUSTER
CURVE
Cluster A
A3
Cluster B
A1 A2 A4
Cluster C
B1
B2
Cluster D
C1 C2 C3 C4 C5
Cluster E Cluster F
D1 D2
D3
E1
E2
F1
F2
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASETITLE MAIN 2.2 DEFINING POINT CLOUDS SUB TITLE & TAGS POINTCLOUD Content
TAGGING OF POINTS: F (x) _ Y (i) _ (z) F (x) = Frame-Line Y (i) = Cluster Name with (i) Cluster-group (z) = Point number on Frame-Line
{F17_D1_2} / {F14_A3_11}
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASETITLE MAIN 2.2 DEFINING POINT CLOUDS SUB TITLE & TAGS POINTCLOUD Content
DATA LIST CLUSTER
GROUPS
CURVES
POINTS
Cluster A
A3
Cluster B
A1 A2 A4
20 40 20
200 360 260
Cluster C
B1
B2
40
540
Cluster D
C1 C2 C3 C4 C5
20 20 20 20 20
380 207 247 209 150
D1 D2
D3
20 40
320 464
E1
E2
40
442
F1
F2
40
400
Cluster E Cluster F
4375 Points
319 Frame-Lines
236 Transition-Lines
4375 Labels AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
> CHAPTER 1: EXPERIMENT
Phase 1.1 Phase 1.2 Phase 1.3 Phase 1.4
Preparation Preliminary experiments Follow-up experiments Final experiment
> CHAPTER 2: DATA PROCESSING
Phase 2.1 Abstracting information Phase 2.2 Defining point clouds
> CHAPTER 3: CONNECTION ALGORITHM
Phase 3.1 Point Clouds Investigation Phase 3.2 Connection Algorithm Phase 3.3 Construction Line Optimization
> CHAPTER 4: FORM GENERATION
Phase 4.1 Form generation Phase 4.2 Component design
> CHAPTER 5: PROJECT PROPOSAL
Phase 5.1 Phase 5.2 Phase 5.3 Phase 5.4 Phase 5.5
Site Analysis Defining Orientation and Scale Interaction with the Site Component Application Final Project
> APPENDIX Appendix 1 Initial form studies Appendix 2 Production files Appendix 3 Models photos
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.1 POINT CLOUDS INVESTIGATION 3.1.1 MICRO-SCALE INVESTIGATION offsetted line surface
single line surface
a fr i
a
Micro-scale investigation is focusing on theoretical study of connection among point clouds.
possible surface
Several basic logic is identified as starting point of connecting the data from point to line, from line to surface and finally from surface to volume. With different combination of connecting data different variety of patterns can be created.
b
b
fr (i+1) fr (i+2)
linear connection
fr (i+3)
fr i
a
b
fr (i+2)
diagonal connection
a
a
fr (i+1)
d
d
b
b fr (i+3)
c
c
Z (CLUSTER)
fr i fr (i+1)
a a’
a’ b
c
b’ fr (i+2)
interpolate curve
a
b
b’
a’ c’
c
a
b
b’
c’
c
c’
fr (i+3)
Y (TIME) X (POINTS)
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.1 POINT CLOUDS INVESTIGATION 3.1.1 MICRO-SCALE INVESTIGATION Apart from processing the data in 2D direction, a third hierachy of data processing is introduced in which the relationship between clusters is concerned. X direction represent the point, Y direction represent the time frame and Z direction represent the hierachy of clusters.
CLUSTER X
CLUSTER Y Z (CLUSTER)
Y (TIME) X (POINTS)
CLUSTER Z
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.1 POINT CLOUDS INVESTIGATION 3.1.1 MICRO SCALE INVESTIGATION
Z (CLUSTER)
Y (TIME) X (POINTS)
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.1 POINT CLOUDS INVESTIGATION 3.1.1 MICRO-SCALE INVESTIGATION
Z (CLUSTER)
Y (TIME) X (POINTS)
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.1 POINT CLOUDS INVESTIGATION 3.1.2 MACRO-SCALE INVESTIGATION Macro scale investigation is focusing on investigating the density distribution of the entire point clouds. The right image is the top view of Point Clouds. Cluster A
Cluster E
Cluster C
Cluster F Cluster B
Cluster D
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.1 POINT CLOUDS INVESTIGATION 3.1.2 MACRO SCALE INVESTIGATION First Level of Density _ D<120 The distance between neighboring points is less than 120 units.
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.1 POINT CLOUDS INVESTIGATION 3.1.2 MACRO-SCALE INVESTIGATION First Level of Density _ D<120 Then, we use particles to connect points in first level, in order to have a clearer overview of density distribution.
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.1 POINT CLOUDS INVESTIGATION 3.1.2 MACRO-SCALE INVESTIGATION Cluster F F1_F7_5
In the further stage of macro scale investigation, we selected points at two specific position from first density level, which are spine points and path points.
F1_F7_4
F1_F7_6 F1_F7_3 F2_F7_6 F1_F7_7 F2_F7_8
The spine points are the points connecting to several neighboring points. They are the center of several branches. The spine circle is generated by spine points, indicating the volume of spine part. DATA LIST
F2_F7_7
Spine Point (Sample: Frame 7) Cluster A
Cluster D F7_A2_5 F7_A2_6 F7_A2_7 F7_A2_8 F7_A3_5 F7_A3_6 F7_A3_7
F7_D1_13 F7_D1_6 F7_D2_7 F7_D1_8 F7_D2_9 F7_D1_10 F7_D2_11
Cluster B F7_B1_7 F7_B1_8 F7_B1_9 F7_B2_5 F7_B2_6 F7_B2_7 F7_B2_8 F7_B2_9
F7_D1_6 F7_D1_7 F7_D3_3 F7_D3_4 F7_D3_5 Cluster E F8_E2_13 F7_E2_7 F7_E2_8 F7_E2_9 F7_E1_8
Cluster C F12_C1_1 F12_C3_3 F12_C3_4 F12_C3_5 F12_C3_6
Cluster F
F7_D3_10 F7_C3_3 F7_C3_4 F7_C3_5 F7_C3_6
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
F7_F1_3 F7_F1_4 F7_F1_5 F7_F1_6 F7_F1_7 F7_F2_8 F7_F2_7 F7_F2_6
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.1 POINT CLOUDS INVESTIGATION 3.1.2 MACRO-SCALE INVESTIGATION Cluster A A1_F7_4 A1_F7_5 A1_F7_6 A1_F7_7 A1_F7_8 A1_F7_9 A1_F7_10
A1_F8_4 A1_F8_5 A1_F8_6 A1_F8_7 A1_F8_8 A1_F8_9 A1_F8_10
A1_F9_4 A1_F9_5 A1_F9_6 A1_F9_7 A1_F9_8 A1_F9_9 A1_F9_10
In the further stage of macro scale investigation, we selected points at two specific position from first density level, which are spine points and path points. The Path Point is the ending and starting point of continuous particles within first density level particles.
DATA LIST Path Point A1_4 A1_8 A4_6 A4_9 B1_3 B2_2 C1_10 C1_15 C1_20 C4_5 C4_8 C5_3 C5_6 D1_3 D1_12 D1_17 D2_4 D2_15 D3_10 E1_2 E1_7 E2_4 F1_2 F1_7 F2_4 F2_6 F2_11
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.1 POINT CLOUDS INVESTIGATION 3.1.2 MACRO-SCALE INVESTIGATION In addition, the starting and ending point of each frame line have been kept for further stage.
DATA LIST Starting Point
Ending Point
A1_1 A2_1 A3_1 A4_1
A1_12 A2_17 A3_15 A4_12
B1_1 B2_1
B1_14 B2_14
C1_1 C2_1 C3_1 C4_1 C5_1
C1_23 C2_9 C3_12 C4_11 C5_11
D1_1 D2_1 D3_1
D1_17 D2_15 D3_10
E1_1 E2_1
E1_15 E2_15
F1_1 F2_1
F1_8 F2_11
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.1 POINT CLOUDS INVESTIGATION 3.1.2 MACRO-SCALE INVESTIGATION Result Combining with the macro-scale point clouds investigation and spatial potential, the following points are kept for next stage, which is connecting points across different frames and clusters base on the micro-scale investigation (theoretical points connection study).
DATA LIST CLUSTER
CURVE
Cluster A
A3
Cluster B
A1 A2 A4
Cluster C
B1
B2
Cluster D
C1 C2 C3 C4 C5
POINT (for connection) A2_4,5,6,8,11,12,13,14,15 A4_3,7,12 B1_3,7,12 B2_9,13,14
Cluster E Cluster F
C1_7,8,13,14,15,17,19,21 C3_3 C4_5,6,7,8,11 C5_1,2,4,5,6
D1 D2
D3
E1
E2
F1
F2
D1_1,2,3,4,6,8,9 D2_1,2,3,5,6,7,8,11 D3_5,6,7,8
F2_3,5,6,8,9,10,11
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.2 CONNECTION ALGORITHM 3.2.1 SELECTED POINTS FOR CONNECTION
DATA LIST CLUSTER
CURVE
Cluster A
A3
Cluster B
A1 A2 A4
Cluster C
B1
B2
Cluster D
C1 C2 C3 C4 C5
POINT (for connection) A2_4,5,6,8,11,12,13,14,15 A4_3,7,12 B1_3,7,12 B2_9,13,14
Cluster E Cluster F
C1_7,8,13,14,15,17,19,21 C3_3 C4_5,6,7,8,11 C5_1,2,4,5,6
D1 D2
D3
E1
E2
F1
F2
D1_1,2,3,4,6,8,9 D2_1,2,3,5,6,7,8,11 D3_5,6,7,8
F2_3,5,6,8,9,10,11
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.2 CONNECTION ALGORITHM 3.2.2 AB CLUSTERS For AB clusters, 3 major lines were connected.
Curve AB2 pt number
Curve AB2 (FR1to20)
pt1
A2_11
pt2
A2_13
pt3
A2_14
pt4
A2_15
Curve AB3 pt number
Curve AB1 (FR1to20)
pt1
A4_3
pt2 pt3 pt4
Curve AB1 pt number
Curve AB1 (FR1to20)
A4_7
pt1
A2_2
A4_11
pt2
A2_4
A4_12
pt3
A2_5
pt4
A2_6
pt5
A2_8
pt6
A2_11
pt7
B1_3
pt8
B1_7
pt9
B1_9
pt10
B2_9
pt11
B1_12
pt12
B2_13
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.2 CONNECTION ALGORITHM 3.2.3 CE CLUSTERS For CE clusters, 3 major lines were connected.
Curve E12 pt number
Curve AB1 (FR1to20)
pt1
E1_14
pt2
E2_16
pt3
E1_12
pt4
E2_11
pt5
E2_7
pt6
E2_9
pt7
E2_1
pt8
E2_16
pt9
E2_18
Curve C45
Curve C15 pt number
Curve AB1 (FR1to20)
pt1
C1_19
pt2
C1_17
pt3
C1_15
pt4
C1_14
pt5
C1_13
pt6
C1_8
pt7
C1_7
pt8
C5_1
pt9
C5_2
pt10
C1_3
pt11
C1_4
pt12
C1_5
pt number
Curve AB2 (FR1to20)
pt1
C4_8
pt2
C4_7
pt3
C4_6
pt4
C4_5
pt5
C4_6
pt6
C4_5
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.2 CONNECTION ALGORITHM 3.2.4 DF CLUSTERS For DF clusters, 4 major lines were connected.
Curve D2
Curve AB3 pt number
Curve F2 (FR1to20)
pt1
F2_11
pt2
F2_10
pt3
F2_9
pt4
F2_8
pt5
F2_6
pt6
F2_5
pt number
Curve AB2 (FR1to20)
pt1
D2_8
pt2
D2_7
pt3
D2_6
pt4
D2_5
pt5
D2_3
pt6
D2_2
pt7
D2_1
Curve C3D3 pt number
Curve AB2 (FR1to20)
pt1
C3_3
pt2
D3_8
pt3
D3_7
pt4
D3_6
pt5
D3_5
Curve F2D2 pt number
Curve DF2 (FR1to20)
pt1
F2_5
pt2
F2_3
pt3
D2_11
pt4
D2_8
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.3 CONSTRUCTION LINE OPTIMIZATION 3.3.1 CONNECT THE BOUNDARY First step, in order to connect each group of construction lines, the first round of cptimization is done. Considering spatial quality as well, some of th construction lines are been extended, some part of the construction the lines are been trimmed. As a result, all the construction lines in the same frame are able to join together. Next step, the joined construction lines are splited according to refined boundary lines of spine region. The right side diagram shows the result of doing these two operations.
Cluster AB_Joined boundary
Cluster AB_Original
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.3 CONSTRUCTION LINE OPTIMIZATION 3.3.2 OPTIMIZE CONSTRUCTION LINES IN PARAMETRIC WAY Formula abstracted by Excel
3. Extend the construction lines to boundaries
2. Optimize the boundary of AB1
1. Original construction lines of AB1
Cluster AB y = 0.906x2 - 18.14x + 171.9
,
,
,
,
,
,
,
,
1
-
2
5
Cluster C y = -1.903x2 + 33.92x + 231.4
2
)
-
1
.
0
1
+
-
-
*
*
)
-
5
,
,
1
5
)
9. Connect the points in frame-line direction with interpolate curves to get the optimized construction lines
,
8. Use the input formula to evaluatet the iso-curves and get new points.
)
6. Connect the points in iso-direction with interpolate curves.
5
5. Connect the points in iso-direction with polylines. Measure the distance of each neighbouring points in iso-direction. Second, input the average length (19 values) into Excel. Third, use trend-line to simulate the transition of the values. Fourth, input back the formula of trend-line to grasshopper.
"
!
%
!
%
"
7. Optimize the iso-curves.
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
"
"
!
#
$
Cluster DF y = 2.072x2 - 38.33x + 596.1
4. Evenly divide the construction lines into a certain amount of points
,
,
*
'
3
4
*
(
'
.
0
-
,
+
&
)
,
,
)
/
Di
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3.3 CONSTRUCTION LINE OPTIMIZATION 3.3.2 OPTIMIZE CONSTRUCTION LINES IN PARAMETRIC WAY Superposition of all the optimized contruction lines
Cu pro ac
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
> CHAPTER 1: EXPERIMENT
Phase 1.1 Phase 1.2 Phase 1.3 Phase 1.4
Preparation Preliminary experiments Follow-up experiments Final experiment
> CHAPTER 2: DATA PROCESSING
Phase 2.1 Abstracting information Phase 2.2 Defining point clouds
> CHAPTER 3: CONNECTION ALGORITHM
Phase 3.1 Point Clouds Investigation Phase 3.2 Connection Algorithm Phase 3.3 Construction Line Optimization
> CHAPTER 4: FORM GENERATION
Phase 4.1 Form generation Phase 4.2 Component design
> CHAPTER 5: PROJECT PROPOSAL
Phase 5.1 Phase 5.2 Phase 5.3 Phase 5.4 Phase 5.5
Site Analysis Defining Orientation and Scale Interaction with the Site Component Application Final Project
> APPENDIX Appendix 1 Initial form studies Appendix 2 Production files Appendix 3 Models photos
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUIDMORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.1 COMPONENT DESIGN INITIAL POINTS FOR SETUP OF COMPONENT In order to grasp the full potential of the pointcloud and optimized lines a genuin component has to be developed. From the Midterm there was a proposal which was classified as most realistic. This was a component which was based upon the coorperation of 4 different curves, generated from the actual points. The first line of the component is based upon the following algorithm:
pt number
Curve A1
Curve A2
Curve A3
Curve A4
Curve A5
pt1
F6_D1_7
F7_D1_7
F8_D1_7
F9_D1_7
F10_D1_7
pt2
F4_D1_11
F5_D1_11
F6_D1_11
F7_D1_11
F8_D1_11
pt3
F5_D2_8
F6_D2_8
F7_D2_8
F8_D2_8
F9_D2_8
pt4
F6_F2_2
F7_F2_2
F8_F2_2
F9_F2_2
F10_F2_2
pt5
F6_F1_2
F7_F1_2
F8_F1_2
F9_F1_2
F10_F1_2
pt6
F6_F1_3
F7_F1_3
F8_F1_3
F9_F1_3
F10_F1_3
pt7
F6_F1_4
F7_F1_4
F8_F1_4
F9_F1_4
F10_F1_4
pt8
F6_F1_5
F7_F1_5
F8_F1_5
F9_F1_5
F10_F1_5
pt9
F6_F1_6
F7_F1_6
F8_F1_6
F9_F1_6
F10_F1_6
pt10
F6_F1_7
F7_F1_7
F8_F1_7
F9_F1_7
F10_F1_7
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUIDMORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.1 COMPONENT DESIGN DETERMINING 2ND SET POINTS FOR CREATION OF CURVE By comparing the first fi set of points to a second set a first set of lines can be created. Important in this fase is to be aware that the points and curves are not crossing eachot eachother, or using the same point for both lines.
pt number
Curve B1
Curve B2
Curve B3
pt1
F7_D2_2
F8_D2_2
F9_D2_2
F10_D2_2
F11_D2_2
pt2
F5_D2_11
F6_D2_11
F7_D2_11
F8_D2_11
F9_D2_11
pt3
F6_F2_2 (OV=75)
F7_F2_2 (OV=75)
F8_F2_2 (OV=75)
F9_F2_2 (OV=75)
F10_F2_2 (OV=75)
pt4
F6_F2_8
F7_F2_8
F8_F2_8
F9_F2_8
F10_F2_8
pt5
F6_F2_7
F7_F2_7
F8_F2_7
F9_F2_7
F10_F2_7
pt6
F6_F2_6
F7_F2_6
F8_F2_6
F9_F2_6
F10_F2_6
pt7
F6_F2_5
F7_F2_5
F8_F2_5
F9_F2_5
F10_F2_5
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
Curve B4
Curve B5
HYPERBODY
INK-LIQUIDMORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.1 COMPONENT DESIGN EXTRACTING ADDED POINTS
pt number
Curve C1
Curve C2
Curve C3
Curve C4
Curve C5
pt1
F7_D1_7
F8_D1_7
F9_D1_7
F10_D1_7
F11_D1_7
pt2
F5_D1_11
F6_D1_11
F7_D1_11
F8_D1_11
F9_D1_11
pt3
F6_D2_8
F7_D2_8
F8_D2_8
F9_D2_8
F10_D2_8
pt4
F6_F2_2
F7_F2_2
F8_F2_2
F9_F2_2
F10_F2_2
pt5
F7_F1_2
F8_F1_2
F9_F1_2
F10_F1_2
F11_F1_2
pt6
F7_F1_3
F8_F1_3
F9_F1_3
F10_F1_3
F11_F1_3
pt7
F7_F1_4
F8_F1_4
F9_F1_4
F10_F1_4
F11_F1_4
pt8
F7_F1_5
F8_F1_5
F9_F1_5
F10_F1_5
F11_F1_5
pt9
F7_F1_6
F8_F1_6
F9_F1_6
F10_F1_6
F11_F1_6
pt10
F7_F1_7
F8_F1_7
F9_F1_7
F10_F1_7
F11_F1_7
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUIDMORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.1 COMPONENT DESIGN DETERMINING 4TH CURVE ACCORDING TO ALGORITHM By
pt number
Curve C1
Curve C2
Curve C3
Curve C4
Curve C5
pt1
F7_D1_7
F8_D1_7
F9_D1_7
F10_D1_7
F11_D1_7
pt2
F5_D1_11
F6_D1_11
F7_D1_11
F8_D1_11
F9_D1_11
pt3
F6_D2_8
F7_D2_8
F8_D2_8
F9_D2_8
F10_D2_8
pt4
F6_F2_2
F7_F2_2
F8_F2_2
F9_F2_2
F10_F2_2
pt5
F7_F1_2
F8_F1_2
F9_F1_2
F10_F1_2
F11_F1_2
pt6
F7_F1_3
F8_F1_3
F9_F1_3
F10_F1_3
F11_F1_3
pt7
F7_F1_4
F8_F1_4
F9_F1_4
F10_F1_4
F11_F1_4
pt8
F7_F1_5
F8_F1_5
F9_F1_5
F10_F1_5
F11_F1_5
pt9
F7_F1_6
F8_F1_6
F9_F1_6
F10_F1_6
F11_F1_6
pt10
F7_F1_7
F8_F1_7
F9_F1_7
F10_F1_7
F11_F1_7
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUIDMORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.1 COMPONENT DESIGN INITIAL COMPONENT BASED UPON 4 CURVES With the four curves together, surfaces can be made by lofting the area they span. In this way a first component is made.
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUIDMORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.1 COMPONENT DESIGN SOLID COMPONENT PROPOSAL The initial component originates from the mid-term and has a lot of potential to be a basis for further development. The surfaces make it able to work with it as a solid component, while in the same time the porosity of the original pointcloud can still be read.
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUIDMORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.1 COMPONENT DESIGN INITIAL COMPONENT SETUP In order to be able to actually build the component research was done on the different production techniques, and financial possibilities. From this point of view there was a great interest in creating a volumetric component, with curved surfaces, produced by simple and cheap techniques such as Lasercutting and CNC-milling. The concept was to work a system of ribs and plates, where the dimension of each plate would be a reaction to the specific location of the plate, and corresponding dimension between the connection-points with the curves. In this way the dimensions of the component plate was a result of the ratio of the height and width between the curves.
h height
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUIDMORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.1 COMPONENT DESIGN DEFINING PARAMETERS In order to be sure that the system works a first case-study was done. In this way it was good test for the producability of the component-elements, and in the same way a starting point to determine the specific ratioâ&#x20AC;&#x2122;s between the cornerpoints. For instance, the heigth between curve 1 and 2 is adressed as h1h2, while the distance of the curve 3 and 4 as h3h4. By determining the midpoints M1 and M2 on these lines the first vector V1 was extracted. By connecting the midpoints a second vector can be determined. The top point of the plate is reached by adding V1 twice from the midpoints of M1M2, which is called H1. By displacing this point according to the V2 vector the spike-end is reached in point D1. By doing the same logic in the other direction points H2 and D2 are determined.
-V2
H1
V1
h1
h2 V1
V1 M1 M2
V2 -V1 h3
h4 -V1
H2 -V2
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUIDMORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.1 COMPONENT DESIGN TESTING CONNECTIONMETHOD IN SCALE-MODEL Of course the system had to be tested in real time, so a scale model of 1:10 was designed. However the system worked, it proved to be a bit timeconsuming, while the esthetics werenâ&#x20AC;&#x2122;t pleasing.
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUIDMORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.1 COMPONENT DESIGN COLLECTION OF DIFFERENT STUDY-MODELS During the same time the connection-system was developed, also a study was made on the appropriate materials. Where the initial model was made out of cardboard, the latest test were done with 2mm thick plywood, in combination with a pvc for the surfaces. In this model 3 different techniques were assebled together, to see how they work on a bigger scale. Notably the connection-principle influences the outlook of the component, where beauty is in the eye of the beholder. All three systems worked well, but the middle one was chosen to be the final one.
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUIDMORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.2 FORM GENERATION CREATION OF SETS OF 4 CURVES From tjhe original construction-lines an iteration had to be made to be able to create a component with them. First the line was divided in an unequal number of points, according to their length. Second the distance of the point in relation to the distance to a similar point from a different frame was measured, of with the two ratioâ&#x20AC;&#x2122;s an distance perpendicular to the original line was determined. This creates a second layer of points, and by connectting them new lines.
Original Construction Curve
Generated 2nd layer Curve
As a second iteration both the generated curves are being bend towards the previous construction-line. The distance and tangent of this curveture was based upon the original porosity from the original pointcloud in relation with the planned building programme to be placed. By shifing programs throughout the buildingsite, the porosity of the building may change.
Component Plate
Bended Construction Curve
Original Construction Curve
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.2 FORM GENERATION DIVISION ACCORDING TO LENGTH & DISTANCE TO SPINE From the original system of components there was the question on how to connect the different components to each other. The spine-part was left open for this reason. Where the different construction-lines originally meet, an area is left open to create the possibility for a smooth connection between the different lines. They are connected with a continuous tangent, and so flow of the overall lines is guaranteed. The special Spine-part has different characteristics than the component part but uses the same logic. As previously mentioned the spine-parts are the structural parts which connect the different components together, and redirect the forces to the ground.
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PHASE 4.2 FORM GENERATION APPLYING COMPONENT LOGIC TO CURVES Where the Spine-parts have different functionality, they share the same logic as the component parts. The generated construction-line is divided in the same way as the regular construction-lines, and the constructive plates have the same appearence and detailing all over. However the location of the plates prohibit the possibility for a standard connection. With the standard components there is open space generated, and two plates never meet at the same location, since every line has a different length. In the spine-part the constrcution part is completely filled up, and an other solution has to be found.
Regular Plate Connection
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 4.2 FORM GENERATION SPINE-CONNECTION For the spine-part a alternative solution had to be found, since that part has no open areas, and thus no room for connecting the plates from the different constructionlines. In order to be sure that room was left to place or remove a single element the standard system was adjusted, and every 2nd plate was removed. Because the spine-part was from origin already the most dense part, according to the density of the original pointcloud, this would not be a problem for the structural part of the building.
‘Spine’ Plate Connection
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
> CHAPTER 1: EXPERIMENT
Phase 1.1 Phase 1.2 Phase 1.3 Phase 1.4
Preparation Preliminary experiments Follow-up experiments Final experiment
> CHAPTER 2: DATA PROCESSING
Phase 2.1 Abstracting information Phase 2.2 Defining point clouds
> CHAPTER 3: CONNECTION ALGORITHM
Phase 3.1 Point Clouds Investigation Phase 3.2 Connection Algorithm Phase 3.3 Construction Line Optimization
> CHAPTER 4: FORM GENERATION
Phase 4.1 Form generation Phase 4.2 Component design
> CHAPTER 5: PROJECT PROPOSAL
Phase 5.1 Phase 5.2 Phase 5.3 Phase 5.4 Phase 5.5
Site Analysis Defining Orientation and Scale Interaction with the Site Component Application Final Project
> APPENDIX Appendix 1 Initial form studies Appendix 2 Production files Appendix 3 Models photos
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Ink-liquidmorphology
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
3+$6( 5.1 site
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
Ink-liquidmorphology
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch Mesume 0F
5.2 Defining orientation and scale
SEA
Mesume 0F
Mesume 0F
Mesume 0F
Down
Entrance Down
-4.800m
Mesume 0F
Down
Entrance
Mesume 0F -4.800m Down
Mesume 0F
Entrance
Down
+0.000m
Down
Mesume 0F
SITE PLAN 1:1000
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Ink-liquidmorphology
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
5.4 component application 5.41 optimized construction curves
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
Ink-liquidmorphology
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
5.4 component application 5.44 components of $// clusters
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 5.3 CONNECTION STRUCTURAL STRATEGY Spline region was desgined as primary structure which connects with the neighbouring non-spline region and also the footing to the landscape in the starting point and end point. Arch effect is also proposed as the main structural strategy.
Arch structural strategy for spline region
AB2 (non-spline region)
AB12 (spline region) AB1 (non-spline region)
Transition plates for the spline region and the landscape footing
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Ink-liquidmorphology
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5.51 master plan
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Down to the sinking plaza
PHASE 5.5 FINAL PROJECT GROUND FLOOR PLAN
Up to resturant
entrance of metro station Down to the sinking plaza
Up to exhibition corridor
Covered plaza
N
Scale 1:500 Down to the sinking plaza
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
PHASE 5.5 FINAL PROJECT FIRST FLOOR PLAN
Down resturants
exhibition space Down
N
Scale 1:500
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PHASE 5.5 FINAL PROJECT SECTION EW AND NS +15.000
resturant 0.000
metro hall -13.500
+15.000
exhibition
resturant 0.000
metro hall -13.500
Scale 1:500
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
:R GY
LO
HO
RP
Y O OD M RB UID PE IQ HY K-L IN D
KE
N
'I EL EXTERIOR VIEW (SOUTH)
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
:R GY
LO
HO
RP
Y O OD M RB UID PE IQ HY K-L IN D
KE
N
'I EL EXTERIOR VIEW (NORTH)
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
:R GY
LO
HO
RP
Y O OD M RB UID PE IQ HY K-L IN D
KE
N
'I EL INTERIOR VIEW OF METRO STATION
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HYPERBODY
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
:R GY
LO
HO
RP
Y O OD M RB UID PE IQ HY K-L IN D
KE
N
'I EL INTERIOR VIEW OF THE PLAZA
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HYPERBODY
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
:R GY
LO
HO
RP
Y O OD M RB UID PE IQ HY K-L IN D
KE
N
'I EL INTERIOR VIEW OF EXHIBITION CORRIDOR
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
> CHAPTER 1: EXPERIMENT
Phase 1.1 Phase 1.2 Phase 1.3 Phase 1.4
Preparation Preliminary experiments Follow-up experiments Final experiment
> CHAPTER 2: DATA PROCESSING
Phase 2.1 Abstracting information Phase 2.2 Defining point clouds
> CHAPTER 3: CONNECTION ALGORITHM
Phase 3.1 Point Clouds Investigation Phase 3.2 Connection Algorithm Phase 3.3 Construction Line Optimization
> CHAPTER 4: FORM GENERATION
Phase 4.1 Form generation Phase 4.2 Component design
> CHAPTER 5: PROJECT PROPOSAL
Phase 5.1 Phase 5.2 Phase 5.3 Phase 5.4 Phase 5.5
Site Analysis Defining Orientation and Scale Interaction with the Site Component Application Final Project
> APPENDIX Appendix 1 Initial form studies Appendix 2 Production files Appendix 3 Models photos
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES STUDY OF FORM POSSIBILITY The initial stage of form generation begins with the study of different form possibilities. Such as porosity, variation of depths and the intersections.
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES POROSITY AND DEPTH VARIATIONS To achieve a volume with porosity and variation of depth, a test is done to investigate on the quality of the porosity. Evaluate curve is used to generate voids.
evaluation curve=0.3 evaluation curve=0.6 pt 0 {0} fr (i+1) fr i
pt 1 {1} pt 2 {2}
Possible variation in width by attractor
pt 3 {3} pt 4 {0}
pt 5 {1}
pt 6 {2}
Possible variation in depth by attractor
pt 7 {3} pt 8 {0} pt 9 {1}
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INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES POROSITY AND DEPTH VARIATIONS To achieve a volume with porosity and variation of depth, a test is done to investigate on the quality of the porosity. Evaluate curve is used to generate voids.
evaluation curve=0.3 evaluation curve=0.6 fr (i+1) fr i
pt 0 {0} pt 1 {1} pt 2 {2} pt 3 {3} pt 4 {0} Possible variation in width by attractor
pt 5 {1}
pt 6 {2}
pt 7 {3} pt 8 {0} pt 9 {1}
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES INTERSECTION ACROSS DIFFERENT CLUSTERS Intersection across different clusters is considered as an intergral form component in which secondary hierachy structure was also considered.
CLUSTER C2
ALONG THE LINE OF SECONDARY HIERACHY STRUCTURE evaluation curve=0.6
c2_pt5 c2_pt4 c2_pt3 c2_pt2 c1_pt15 c1_pt14 c1_pt13 evaluation curve=0.3
c1_pt12
CLUSTER C1
c1_pt11 c1_pt10
e1_pt0 c1_pt9 c1_pt8 c1_pt7
c1_pt6
e1_pt1
fr25
e1_pt2
e1_pt3
fr21
Step 1: Defining points for considerations: C1 (6-15), C2 (2-5) and E1 (0-3)
CLUSTER E1
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HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES STUDY OF INTERSECTION ACROSS DIFFERENT CLUSTERS Result of the form by lofting of lines.
CLUSTER C2
CLUSTER C1
fr25
e1_pt3
fr21
Step 3: Connecting lines
CLUSTER E1
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES STUDY OF INTERSECTION ACROSS DIFFERENT CLUSTERS Result of several components
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES SELECTION OF CLUSTERS Specific clusters are chosen to have investigation of the specific arrangment of component.
CLUSTER C
CLUSTER D
CLUSTER E
CLUSTER F
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES POINTS WITH HIGHER CONCENTRATION Finding the points which have the distance between the adjacent points of below the value of 100. Lines across those points are drawn to indicate the trend of the density of the point clouds.
Density lines
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
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INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES SELECTION OF POINTS NEAR TO DENSITY LINES Selection of points with reference to the density lines.
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES 1ST LAYER CURVES CONNECTION ALGORITHM Points are connected with specific points and connection algorithm according to the exisiting position of the points on each clusters, which creates a possibility of intersecting volumes.
pt number
Curve 1A (C2-C1-E1-E2-F2)
Curve 1B (C5-C4-E1-E2)
Curve 1C (C2-C1-E1-C4-C5)
pt1
F16_C2_5
F13_C5_3
F15_C2_5 (OV=75)
pt2
F14_C1_8
F13_C5_4
F14_C1_7 (OV=75)
pt3
F14_C1_9
F13_C5_5
F14_C1_8 (OV=75)
pt4
F14_C1_10
F13_C5_6
F14_C1_9 (OV=75)
pt5
F14_C1_11
F13_C5_7
F14_C1_10 (OV=75)
pt6
F14_C1_12
F12_C4_4
F14_C1_11 (OV=75)
pt7
F14_C1_13
F17_E1_13
F14_C1_12 (OV=75)
pt8
F14_C1_14
F16_E2_7
F14_C1_13 (OV=75)
pt9
F14_C1_15
F9_F2_4
F14_C1_14 (OV=75)
pt10
F14_C1_16
F14_C1_15 (OV=75)
pt11
F15_E1_4
F14_C1_16 (OV=75)
pt12
F15_E1_5
F15_E1_4 (OV=75)
pt13
F15_E1_6
F15_E1_5 (OV=75)
pt14
F16_E2_6
F15_E1_6 (OV=75)
pt15
F16_E1_9
F12_C4_4 (OV=75)
pt16
F9_E2_11
F13_C5_7 (OV=75)
pt17
F9_E2_9
F13_C5_6 (OV=75)
pt18
F9_E2_8
F13_C5_5 (OV=75)
pt19
F9_E2_7
F13_C5_4 (OV=75)
pt20
F9_E2_7
F13_C5_3 (OV=75)
pt21
F9_E2_7
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Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES 1ST LAYER CURVES CONNECTION ALGORITHM Resulting curves
Curve 1A (C2-C1-E1-E2-F2)
Curve 1C (C2-C1-E1-C4-C5)
Curve 1B (C5-C4-E1-E2)
pt number
Curve 1A (C2-C1-E1-E2-F2)
Curve 1B (C5-C4-E1-E2)
Curve 1C (C2-C1-E1-C4-C5)
pt1
F16_C2_5
F13_C5_3
F15_C2_5 (OV=75)
pt2
F14_C1_8
F13_C5_4
F14_C1_7 (OV=75)
pt3
F14_C1_9
F13_C5_5
F14_C1_8 (OV=75)
pt4
F14_C1_10
F13_C5_6
F14_C1_9 (OV=75)
pt5
F14_C1_11
F13_C5_7
F14_C1_10 (OV=75)
pt6
F14_C1_12
F12_C4_4
F14_C1_11 (OV=75)
pt7
F14_C1_13
F17_E1_13
F14_C1_12 (OV=75)
pt8
F14_C1_14
F16_E2_7
F14_C1_13 (OV=75)
pt9
F14_C1_15
F9_F2_4
F14_C1_14 (OV=75)
pt10
F14_C1_16
F14_C1_15 (OV=75)
pt11
F15_E1_4
F14_C1_16 (OV=75)
pt12
F15_E1_5
F15_E1_4 (OV=75)
pt13
F15_E1_6
F15_E1_5 (OV=75)
pt14
F16_E2_6
F15_E1_6 (OV=75)
pt15
F16_E1_9
F12_C4_4 (OV=75)
pt16
F9_E2_11
F13_C5_7 (OV=75)
pt17
F9_E2_9
F13_C5_6 (OV=75)
pt18
F9_E2_8
F13_C5_5 (OV=75)
pt19
F9_E2_7
F13_C5_4 (OV=75)
pt20
F9_E2_7
F13_C5_3 (OV=75)
pt21
F9_E2_7
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES 2ND LAYER CURVES CONNECTION ALGORITHM The adjacent 2nd layer of curves are connected by specific points which are evaluated by the distance between two adjacent 1st layer curves. The evaulated distance is defined by density lines, in which the bending of curves occurred whenever the points are located beyond principle density lines.
Density lines
pt number Curve 2A (C2-C1-E1-E2-F2)
Curve 2B (C5-C4-E1-E2)
Curve 2C (C2-C1-E1-C4-C5)
pt1
F16_C2_5 ; F17_C2_5 (EV=0.3)
F13_C5_3 ; F14_C5_3 (EV=0.3)
F15_C2_5 ; F16_C2_5 (OV=75) (EV=0.3)
pt2
F14_C1_8 ; F15_C1_8 (EV=0.3)
F13_C5_4 ; F14_C5_4 (EV=0.3)
F14_C1_7 ; F15_C1_7 (OV=75) (EV=0.3)
pt3
F14_C1_9 ; F15_C1_9 (EV=0.3)
F13_C5_5 ; F14_C5_5 (EV=1.0)
F14_C1_8 ; F15_C1_8 (OV=75) (EV=0.3)
pt4
F14_C1_10 ; F15_C1_10 (EV=1.0)
F13_C5_6 ; F14_C5_6 (EV=1.0)
F14_C1_9 ; F15_C1_9 (OV=75) (EV=1.0)
pt5
F14_C1_11 ; F15_C1_11 (EV=1.0)
F13_C5_7 ; F14_C5_7 (EV=0.3)
F14_C1_10 ; F15_C1_10 (OV=75) (EV=1.0)
pt6
F14_C1_12 ; F15_C1_12 (EV=1.0)
F12_C4_4 ; F13_C4_4 (EV=0.3)
F14_C1_11 ; F15_C1_11 (OV=75) (EV=1.0)
pt7
F14_C1_13 ; F15_C1_13 (EV=1.0)
F17_E1_13 ; F18_E1_13 (EV=0.3)
F14_C1_12 ; F15_C1_12 (OV=75) (EV=1.0)
pt8
F14_C1_14 ; F15_C1_14 (EV=1.0)
F16_E2_7 ; F17_E2_7 (EV=0.3)
F14_C1_13 ; F15_C1_13 (OV=75) (EV=1.0)
pt9
F14_C1_15 ; F15_C1_15 (EV=1.0)
F9_F2_4 ; F10_F2_4 (EV=1.0)
F14_C1_14 ; F15_C1_14 (OV=75) (EV=1.0)
pt10
F14_C1_16 ; F15_C1_16 (EV=0.3)
F14_C1_15 ; F15_C1_15 (OV=75) (EV=1.0)
pt11
F15_E1_4 ; F16_E1_4 (EV=0.3)
F14_C1_16 ; F15_C1_16 (OV=75) (EV=0.3)
pt12
F15_E1_5 ; F16_E1_5 (EV=0.3)
F15_E1_4 ; F16_E1_4 (OV=75) (EV=0.3)
pt13
F15_E1_6 ; F16_E1_6 (EV=0.3)
F15_E1_5 ; F16_E1_5 (OV=75) (EV=0.3)
pt14
F16_E2_6 ; F17_E2_6 (EV=0.3)
F15_E1_6 ; F16_E1_6 (OV=75) (EV=1.0)
pt15
F16_E1_9 ; F17_E1_9 (EV=0.3)
F12_C4_4 ; F13_C4_4 (OV=75) (EV=1.0)
pt16
F9_E2_11 ; F10_E2_11 (EV=0.3)
F13_C5_7 ; F14_C5_7 (OV=75) (EV=0.3)
pt17
F9_E2_9 ; F10_E2_9 (EV=0.3)
F13_C5_6 ; F14_C5_6 (OV=75) (EV=0.3)
pt18
F9_E2_8 ; F10_E2_8 (EV=0.3)
F13_C5_5 ; F14_C5_5 (OV=75) (EV=0.3)
pt19
F9_E2_7 ; F10_E2_7 (EV=1.0)
F13_C5_4 ; F14_C5_4 (OV=75) (EV=0.3)
pt20
F9_E2_7 ; F10_E2_7 (EV=1.0)
F13_C5_3 ; F14_C5_3 (OV=75) (EV=1.0)
pt21
F9_E2_7 ; F10_E2_7 (EV=1.0)
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES 2ND LAYER CURVES CONNECTION ALGORITHM Resulting curves
Curve 2A (C2-C1-E1-E2-F2)
Curve 2C (C2-C1-E1-C4-C5)
Curve 2B (C5-C4-E1-E2)
pt number Curve 2A (C2-C1-E1-E2-F2)
Curve 2B (C5-C4-E1-E2)
Curve 2C (C2-C1-E1-C4-C5)
pt1
F16_C2_5 ; F17_C2_5 (EV=0.3)
F13_C5_3 ; F14_C5_3 (EV=0.3)
F15_C2_5 ; F16_C2_5 (OV=75) (EV=0.3)
pt2
F14_C1_8 ; F15_C1_8 (EV=0.3)
F13_C5_4 ; F14_C5_4 (EV=0.3)
F14_C1_7 ; F15_C1_7 (OV=75) (EV=0.3)
pt3
F14_C1_9 ; F15_C1_9 (EV=0.3)
F13_C5_5 ; F14_C5_5 (EV=1.0)
F14_C1_8 ; F15_C1_8 (OV=75) (EV=0.3)
pt4
F14_C1_10 ; F15_C1_10 (EV=1.0)
F13_C5_6 ; F14_C5_6 (EV=1.0)
F14_C1_9 ; F15_C1_9 (OV=75) (EV=1.0)
pt5
F14_C1_11 ; F15_C1_11 (EV=1.0)
F13_C5_7 ; F14_C5_7 (EV=0.3)
F14_C1_10 ; F15_C1_10 (OV=75) (EV=1.0)
pt6
F14_C1_12 ; F15_C1_12 (EV=1.0)
F12_C4_4 ; F13_C4_4 (EV=0.3)
F14_C1_11 ; F15_C1_11 (OV=75) (EV=1.0)
pt7
F14_C1_13 ; F15_C1_13 (EV=1.0)
F17_E1_13 ; F18_E1_13 (EV=0.3)
F14_C1_12 ; F15_C1_12 (OV=75) (EV=1.0)
pt8
F14_C1_14 ; F15_C1_14 (EV=1.0)
F16_E2_7 ; F17_E2_7 (EV=0.3)
F14_C1_13 ; F15_C1_13 (OV=75) (EV=1.0)
pt9
F14_C1_15 ; F15_C1_15 (EV=1.0)
F9_F2_4 ; F10_F2_4 (EV=1.0)
F14_C1_14 ; F15_C1_14 (OV=75) (EV=1.0)
pt10
F14_C1_16 ; F15_C1_16 (EV=0.3)
F14_C1_15 ; F15_C1_15 (OV=75) (EV=1.0)
pt11
F15_E1_4 ; F16_E1_4 (EV=0.3)
F14_C1_16 ; F15_C1_16 (OV=75) (EV=0.3)
pt12
F15_E1_5 ; F16_E1_5 (EV=0.3)
F15_E1_4 ; F16_E1_4 (OV=75) (EV=0.3)
pt13
F15_E1_6 ; F16_E1_6 (EV=0.3)
F15_E1_5 ; F16_E1_5 (OV=75) (EV=0.3)
pt14
F16_E2_6 ; F17_E2_6 (EV=0.3)
F15_E1_6 ; F16_E1_6 (OV=75) (EV=1.0)
pt15
F16_E1_9 ; F17_E1_9 (EV=0.3)
F12_C4_4 ; F13_C4_4 (OV=75) (EV=1.0)
pt16
F9_E2_11 ; F10_E2_11 (EV=0.3)
F13_C5_7 ; F14_C5_7 (OV=75) (EV=0.3)
pt17
F9_E2_9 ; F10_E2_9 (EV=0.3)
F13_C5_6 ; F14_C5_6 (OV=75) (EV=0.3)
pt18
F9_E2_8 ; F10_E2_8 (EV=0.3)
F13_C5_5 ; F14_C5_5 (OV=75) (EV=0.3)
pt19
F9_E2_7 ; F10_E2_7 (EV=1.0)
F13_C5_4 ; F14_C5_4 (OV=75) (EV=0.3)
pt20
F9_E2_7 ; F10_E2_7 (EV=1.0)
F13_C5_3 ; F14_C5_3 (OV=75) (EV=1.0)
pt21
F9_E2_7 ; F10_E2_7 (EV=1.0)
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 1: INITIAL FORM STUDIES OVERALL VIEW Lofted volume with construction lines.
AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY
INK-LIQUID MORPHOLOGY
Students: Herman Luk, Yilin Zhou, Can Liu, Frank van Brunschot Coordinator/instructor: Marco Verde Eng, MArch
APPENDIX 3: MODEL PHOTOS MODEL MAKING PROCESS
D
KE 'IN EL :R
GY
LO
HO
RP
Y O OD M RB UID PE IQ HY K-L IN
1
2
3
4
1. Lasercut ready component 2. Catergorising 3. Assembling 4. Landscape CNC milling AR0850 + AR0855 EVOLUTIONARY PATTERNS 2.0 deepFORMATIONS Msc2 Spring Semester 2011
HYPERBODY