(Y)our world, (y)our block, (y)our home Exercise 01 | Exploring scenarios
1
3 INTRODUCTION 4 8
(y)our World y(our) Home
18
EXPLORING SCENARIOS
655
MAINFRAME
19 407 545
656 658 660 662
2
Qualities Environment Products
The Makers Overview Context Maker House Maker Block Maker
INTRODUCTION
Table of content
3
(y)our World New strategy with top down structure to evaluating the current state of the world. With data based per country (zooms) calculated per capita.
GEOGRAPHY
Lakes, Baren, Forest, Argriculture, and Build-up
CLIMATE
Wind, Temperature, Cooling, and Heating.
POPULATION
Work, Age, Health, and Refugees.
FINANCE
Income, Debt, Price/m2, GDP, and Big mac index.
PRODUCTION Water, Energy, Food, Raw materials, and waste.
CONSUMPTION
Water, Energy, Food, and Raw materials.
4
5
6
7
y(our) Home TOPICS
Exploring the demands of a dwelling through new research topics that derived from the workshop.
PERSONAL HOUSE
To find the needs/demands we have for housing.
METHOD
Through a strickt method to compare and interrelate the newly found research topics and personal houses.
8
9
y(our) Home PERSONAL HOUSE
To find the needs/demands we have for housing.
50m2 house for one dweller, containing all minimal necessary sub-programme rooms. Resulting in a standard dwelling for one person.1
entrance
bedroom
bathroom
dinning
living
office
toilet
kitchen
storage
METHOD
Through a strickt method to compare and interrelate the newly found research topics and personal houses.
TOPICS
Exploring the demands of a dwelling through new research topics that derived from the workshop.
Area 1- Baiche, B., Neufert, E. and Neufert, P. (2011). Architects’ data. New York, NY [u.a.]: Wiley-Blackwell.
10
47 m2
Volume
141 m3
Wall area
140 m2
11
y(our) Home PERSONAL HOUSE
To find the needs/demands we have for housing.
METHOD
“Under maximized circumstances, every demand, rule or logic is manifested in pure and unexpected forms that go beyond artistic intuition or known geometry and replace it with ‘research’. (...) Hypotheses that observe, extrapolate, analyse and criticize our behaviour.”2
Through a strickt method to compare and interrelate the newly found research topics and personal houses.
TOPICS
Exploring the demands of a dwelling through new research topics that derived from the workshop.
Slider as design tool 0%
25%
50%
75%
100%
systematical / sequential / comparable / communicative
2- Maas, W., Rijs, J. and Koek, R. (1998). FARMAX. Rotterdam: 010 Publishers.
12
13
y(our) Home PERSONAL HOUSE
To find the needs/demands we have for housing.
METHOD
Through a strickt method to compare and interrelate the newly found research topics and personal houses.
TOPICS
Exploring the demands of a dwelling through new research topics that derived from the workshop.
Accessibility
Comfort
Density
Diversity
Demographics
Energy
Food
Waste
Porosity
Qualities
Nature
Environment
Ownership
14
Mobility
Product
Leisure
15
y(our) Home TOPICS
Exploring the demands of a dwelling through new research topics that derived from the workshop.
PERSONAL HOUSE
To find the needs/demands we have for housing.
METHOD
Through a strickt method to compare and interrelate the newly found research topics and personal houses.
16
17
EXPLORING SCENARIOS
y(our) Home
Qualities
TOPICS
Exploring the demands of a dwelling through new research topics that derived from the workshop.
PERSONAL HOUSE
To find the needs/demands we have for housing.
METHOD
Through a strickt method to compare and interrelate the newly found research topics and personal houses.
18
19
Circulation links spaces, but they are usually detached, and always seems to be one layer out of the space we need them - corridors out of room, stairs out of apartment, roads out of building and highways out of city. What if circulation are integrate to our home, our building and our city? Does it make our spaces more accessible?
What if... CORRIDOR MERGE WITH OUR HOME?
Through sequential scenarios of integrating circulations to a 1person dwelling unit, we explore the possible impact of the intergration to the built environment.
20
21
What if...
0%
corridor is out of our home?
Area Volume
Stretch 22
54 m2 156 m3
Circulation
# m2
Public
7 m2
Private
47 m2
0.6m
0.6
m .6m 0
23
What if... corridor merge with living cluster?
Area Volume
Stretch 24
25%
62 m2 178 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
25
What if... corridor merge with all rooms except private rooms?
Area Volume
Stretch 26
50%
56 m2 160 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
27
What if... corridor merge with all spaces except private space?
Area Volume
Stretch 28
75%
70 m2 204 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
29
What if...
100%
we live in the corridor?
Area Volume
Stretch 30
62 m2 181 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
31
What if... STAIR MERGE WITH OUR HOME?
32
33
What if...
0%
stairs is out of our home?
Area Volume
Pixelate 34
54 m2 156 m3
Circulation
# m2
Public
7 m2
Private
47 m2
0.6m
0.6
m .6m 0
35
What if...
25%
stairs merge with living cluster?
Area Volume
Pixelate 36
# m2 179 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
37
What if... stairs merge with all rooms except private rooms?
Area Volume
Pixelate 38
50%
# m2 163 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
39
What if... stairs merge with all spaces except private space?
Area Volume
Pixelate 40
75%
# m2 182 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
41
What if...
100%
we live on the stairs?
Area Volume
Pixelate 42
# m2 136 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
43
Circulations bring us to the desired space, but we usually need to get through circulations back and forth for a certain activity. What if circulations lead us directly to the objects according to our activity? Does it make our spaces more accessible?
What if... I CAN ACCESS EVERYTHING ON THE CORRIDOR?
Through sequential scenarios of fragmenting a 1person dwelling, we explore the possible impact of the branching circulations to the built environment.
44
45
What if...
0%
corridor as access to our home?
Area Volume
Radiate 46
54 m2 156 m3
Circulation
# m2
Public
7 m2
Private
47 m2
0.6m
0.6
m .6m 0
47
What if... dedicated corridors for living cluster and private cluster?
Area Volume
Radiate 48
25%
# m2 171 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
49
What if... dedicated corridors for every rooms?
Area Volume
Radiate 50
50%
# m2 196 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
51
What if... dedicated corridor for each activity?
Area Volume
Radiate 52
75%
# m2 201 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
53
What if... corridor directly access to objects arranged by activity?
Area Volume
Radiate 54
100%
# m2 299 m3
Circulation
# m2
Public
# m3
Private
# m2
0.6m
0.6
m .6m 0
55
What if... I CAN ACCESS EVERYTHING WITH TRAMPOLINE?
56
57
What if...
0%
corridor as access to our home?
Area Volume
Bubble 58
54 m2 156 m3
Circulation
# m2
Public
7 m2
Private
47 m2
0.6m
0.6
m .6m 0
59
What if... dedicated trampoline for living cluster and private cluster?
Bubble 60
Area
# m2
Volume
# m3
Circulation
# m2
Public
# m3
Private
# m2
25%
0.6m
0.6
m .6m 0
61
What if... dedicated trampolines for every rooms?
Bubble 62
Area
# m2
Volume
# m3
Circulation
# m2
Public
# m3
Private
# m2
50%
0.6m
0.6
m .6m 0
63
What if... dedicated trampoline for each activity?
Bubble 64
Area
# m2
Volume
# m3
Circulation
# m2
Public
# m3
Private
# m2
75%
0.6m
0.6
m .6m 0
65
What if... trampoline directly access to objects arranged by activity?
Bubble 66
Area
# m2
Volume
# m3
Circulation
# m2
Public
# m3
Private
# m2
100%
0.6m
0.6
m .6m 0
67
MOBILITY, DIRECT ACCESSIBILITY Imagine a life in which your vehicle is fully integrated. You would use it for every movement, and if it is not near you, you should be able to get it as soon as you step out the door. Vehicles have certain properties and demands. How would a house look like, if it was dedicated to a specific vehicle?
68
What if... WE WOULD LIVE WITH DIRECT ACCESSIBILITY?
69
The slider
##%
From the front door to your stuff
0%
25%
50%
75%
Twelve items: The average house:
Two areas:
47 m2
Living area, private area
Direct accessibility 70
Five rooms:
basin, closet, tv, ki-
Entrance, bathroom,
tchen, toilet, balcony,
bedroom, kitchen/
table + chairs, shelf,
dinner, living room
closet, bed, couch
100%
Thirtytwo units: 8 times 1,2x0.6 8 times 1,8x0.6 16 times 0.6x0.6 0.6m
71
What if... we would park our conventional car in front of our door?
Area Volume Parking area
47 m2 171 m3 10 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
10 m
Lane width
3 m
Direct accessibility | Conventional car | Lineair distribution 72
0%
0.6m
73
What if... we would directly access the clusters of our apartment
25%
with a conventional car? Area Volume Parking area
47 m2 171 m3 10 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
10 m
Lane width
3 m
Direct accessibility | Conventional car | Lineair distribution 74
0.6m
75
What if... we would directly access the rooms of our apartment
50%
with a conventional car? Area Volume Parking area
47 m2 171 m3 10 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
10 m
Lane width
3 m
Direct accessibility | Conventional car | Lineair distribution 76
0.6m
77
What if... we would directly access the furniture in our apartment
75%
with a conventional car? Area Volume Parking area
47 m2 171 m3 10 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
10 m
Lane width
3 m
Direct accessibility | Conventional car | Lineair distribution 78
0.6m
79
What if... we would directly access the objects in our apartment
100%
with a conventional car? Area Volume Parking area
47 m2 171 m3 10 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
10 m
Volume object-unit Lane width
0,2 m3 3 m3
Direct accessibility | Conventional car | Lineair distribution 80
0.6m
81
What if... we would park our conventional car in front of our door?
Area Volume Parking area
47 m2 171 m3 10 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
10 m
Lane width
3 m
Direct accessibility | Conventional car | Loop distribution 82
0%
0.6m
83
What if... we would directly access the clusters of our apartment
25%
with a conventional car? Area Volume Parking area
47 m2 171 m3 10 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
10 m
Lane width
3 m
Direct accessibility | Conventional car | Loop distribution 84
0.6m
85
What if... we would directly access the rooms of our apartment
50%
with a conventional car? Area Volume Parking area
47 m2 171 m3 10 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
10 m
Lane width
3 m
Direct accessibility | Conventional car | Loop distribution 86
0.6m
87
What if... we would directly access the furniture in our apartment
75%
with a conventional car? Area Volume Parking area
47 m2 171 m3 10 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
10 m
Lane width
3 m
Direct accessibility | Conventional car | Loop distribution 88
0.6m
89
What if... we would directly access the objects in our apartment
100%
with a conventional car? Area Volume Parking area
47 m2 171 m3 10 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
10 m
Volume object-unit Lane width
0,2 m3 3 m
Direct accessibility | Conventional car | Loop distribution 90
0.6m
91
What if... we would park our bicycle in front of our door?
Area Volume
47 m2 171 m3
Parking area
1,4 m2
Stopping distance
7,8 m
Acceleration distance
12 m
Max. indoor speed
12 kph
Turn radius (ø) Lane width
4 m 1,2 m
Direct accessibility | Bicycle | Lineair distribution 92
0%
0.6m
93
What if... we would directly access the clusters of our apartment
25%
with a bicycle? Area Volume
47 m2 171 m3
Parking area
1,4 m2
Stopping distance
7,8 m
Acceleration distance
12 m
Max. indoor speed
12 kph
Turn radius (ø) Lane width
4 m 1,2 m
Direct accessibility | Bicycle | Lineair distribution 94
0.6m
95
What if... we would directly access the rooms of our apartment
50%
with a bicycle? Area Volume
47 m2 171 m3
Parking area
1,4 m2
Stopping distance
7,8 m
Acceleration distance
12 m
Max. indoor speed
12 kph
Turn radius (ø) Lane width
4 m 1,2 m
Direct accessibility | Bicycle| Lineair distribution 96
0.6m
97
What if... we would directly access the furniture in our apartment
75%
with a bicycle? Area Volume
47 m2 171 m3
Parking area
1,4 m2
Stopping distance
7,8 m
Acceleration distance
12 m
Max. indoor speed
12 kph
Turn radius (ø) Lane width
4 m 1,2 m
Direct accessibility | Bicycle | Lineair distribution 98
0.6m
99
What if... we would directly access the objects in our apartment
100%
with a bicycle? Area Volume
47 m2 171 m3
Parking area
1,4 m2
Stopping distance
7,8 m
Acceleration distance
12 m
Max. indoor speed
12 kph
Turn radius (ø)
4 m
Volume object-unit
0,2 m3
Lane width
1,2 m
Direct accessibility | Bicycle| Lineair distribution 100
0.6m
101
What if... we would park our bicycle in front of our door?
Area Volume
47 m2 171 m3
Parking area
1,4 m2
Stopping distance
7,8 m
Acceleration distance
12 m
Max. indoor speed
12 kph
Turn radius (ø) Lane width
4 m 1,2 m
Direct accessibility | Bicycle | Loop distribution 102
0%
0.6m
103
What if... we would directly access the clusters of our apartment
25%
with a bicycle? Area Volume
47 m2 171 m3
Parking area
1,4 m2
Stopping distance
7,8 m
Acceleration distance
12 m
Max. indoor speed
12 kph
Turn radius (ø) Lane width
4 m 1,2 m
Direct accessibility | Bicycle | Loop distribution 104
0.6m
105
What if... we would directly access the rooms of our apartment
50%
with a bicycle? Area Volume
47 m2 171 m3
Parking area
1,4 m2
Stopping distance
7,8 m
Acceleration distance
12 m
Max. indoor speed
12 kph
Turn radius (ø) Lane width
4 m 1,2 m
Direct accessibility | Bicycle | Loop distribution 106
0.6m
107
What if... we would directly access the furniture in our apartment
75%
with a bicycle? Area Volume
47 m2 171 m3
Parking area
1,4 m2
Stopping distance
7,8 m
Acceleration distance
12 m
Max. indoor speed
12 kph
Turn radius (ø) Lane width
4 m 1,2 m
Direct accessibility | Bicycle | Loop distribution 108
0.6m
109
What if... we would directly access the objects in our apartment
100%
with a bicycle? Area Volume
47 m2 171 m3
Parking area
1,4 m2
Stopping distance
7,8 m
Acceleration distance
12 m
Max. indoor speed
12 kph
Turn radius (ø)
4 m
Volume object-unit
0,2 m3
Lane width
1,2 m
Direct accessibility | Bicycle | Loop distribution 110
0.6m
111
What if... we would park our one person car in front of our door?
Area Volume
47 m2 171 m3
Parking area
4,3 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
6,8 m
Lane width
1,8 m
Direct accessibility | One person car | Lineair distribution 112
0%
0.6m
113
What if... we would directly access the clusters of our apartment
25%
with a one person car? Area Volume
47 m2 171 m3
Parking area
4,3 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
6,8 m
Lane width
1,8 m
Direct accessibility | One person car | Lineair distribution 114
0.6m
115
What if... we would directly access the rooms of our apartment
50%
with a one person car? Area Volume
47 m2 171 m3
Parking area
4,3 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
6,8 m
Lane width
1,8 m
Direct accessibility | One person car | Lineair distribution 116
0.6m
117
What if... we would directly access the furniture in our apartment
75%
with a one person car? Area Volume
47 m2 171 m3
Parking area
4,3 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
6,8 m
Lane width
1,8 m
Direct accessibility | One person car | Lineair distribution 118
0.6m
119
What if... we would directly access the objects in our apartment
100%
with a one person car? Area Volume
47 m2 171 m3
Parking area
4,3 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
6,8 m
Volume object-unit
0,2 m3
Lane width
1,8 m
Direct accessibility | One person car | Lineair distribution 120
0.6m
121
What if... we would park our one person car in front of our door?
Area Volume
47 m2 171 m3
Parking area
4,3 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
6,8 m
Lane width
1,8 m
Direct accessibility | One person car | Loop distribution 122
0%
0.6m
123
What if... we would directly access the clusters of our apartment
25%
with a one person car? Area Volume
47 m2 171 m3
Parking area
4,3 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
6,8 m
Lane width
1,8 m
Direct accessibility | One person car | Loop distribution 124
0.6m
125
What if... we would directly access the rooms of our apartment
50%
with a one person car? Area Volume
47 m2 171 m3
Parking area
4,3 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
6,8 m
Lane width
1,8 m
Direct accessibility | One person car | Loop distribution 126
0.6m
127
What if... we would directly access the furniture in our apartment
75%
with a one person car? Area Volume
47 m2 171 m3
Parking area
4,3 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
6,8 m
Lane width
1,8 m
Direct accessibility | One person car | Loop distribution 128
0.6m
129
What if... we would directly access the objects in our apartment
100%
with a one person car? Area Volume
47 m2 171 m3
Parking area
4,3 m2
Stopping distance
2,4 m
Acceleration distance
1,8 m
Max. indoor speed
10 kph
Turn radius (ø)
6,8 m
Volume object-unit
0,2 m3
Lane width
1,8 m
Direct accessibility | One person car | Loop distribution 130
0.6m
131
What if... we would park our hot air balloon in front of our door?
Area Volume Parking area Radius balloon Heigth of balloon Max. altitude Footprint
Direct accessibility | Hot air balloon 132
0%
47 m2 171 m3 61 m2 3,8 m 12,2 m 3,7 km 0 m2
0.6m
133
What if... we would directly access the clusters of our apartment
25%
with a hot air balloon? Area Volume Parking area Radius balloon Heigth of balloon Max. altitude Footprint
Direct accessibility | Hot air balloon 134
47 m2 171 m3 61 m2 3,8 m 12,2 m 3,7 km 21,6 m2
0.6m
135
What if... the rooms of our apartment suspended from hot air
50%
balloons? Area Volume Parking area Radius balloon Heigth of balloon Max. altitude Footprint
Direct accessibility | Hot air balloon 136
47 m2 171 m3 61 m2 3,8 m 12,2 m 3,7 km 0 m2
0.6m
137
What if... our furniture suspended from hot air balloons?
Area Volume Parking area Radius balloon Heigth of balloon Max. altitude Footprint
Direct accessibility | Hot air balloon 138
75%
47 m2 171 m3 61 m2 3,8 m 12,2 m 3,7 km 0 m2
0.6m
139
What if... our stuff suspended from hot air balloons?
Area Volume Parking area Radius balloon Heigth of balloon Max. altitude Footprint
Direct accessibility | Hot air balloon 140
100%
47 m2 171 m3 61 m2 3,8 m 12,2 m 3,7 km 0 m2
0.6m
141
What if... we would park our skycar in front of our door?
Area Volume Parking area Footprint
Direct accessibility | Skycar 142
0%
47 m2 171 m3 4,3 m2 51,3 m2
0.6m
143
What if... we would directly access the clusters in our apartment
25%
with a skycar? Area Volume Parking area Max. footprint
Direct accessibility | Skycar 144
47 m2 171 m3 4,3 m2 51,3 m2
0.6m
145
What if... our rooms could fly on platforms and we would directly
50%
access them with a skycar? Area Volume Parking area Footprint
Direct accessibility | Skycar 146
47 m2 171 m3 4,3 m2 0 m2
0.6m
147
What if... our furniture could fly on platforms and we would
75%
directly access them with a skycar? Area Volume Parking area Footprint
Direct accessibility | Skycar 148
47 m2 171 m3 4,3 m2 0 m2
0.6m
149
What if... our stuff was carried around by drones and we would
100%
directly access from a skycar? Area
4,3 m2
Volume
6,5 m3
Parking area
4,3 m2
Footprint
Direct accessibility | Skycar 150
0 m2
0.6m
151
What if I would live in an ultimately comfortable house? Imagine an environment, in which everything anytime makes you feel comfortable, imagine a world, where nothing disturbs and annoys you, an environment providing you with an ultimate light comfort, air exchange, sound transmission, smell of pleasant memories and haptic feedback... In the world around you everything would contribute to your physical and psychical ease and well-being, hardship would not exist and a pleasant lifestyle is secured. All your senses are constantly stimulated to help you recreating experiences associated with pleasant memories. 152
What if... I would live in ULTIMATE COMFORT?
153
ULTIMATE COMFORT
154
What if... I would live with maximum exposure to sun?
155
What if... I would live with maximum exposure to the sun?
Area
234 m2
Volume
180 m3
Windows
0%
12 m2
144 m2 60 m3
Depth and Sequence 156
1.0m
157
What if... I would live with maximum exposure to the sun?
Area
184 m2
Volume
132 m3
Windows
25%
16 m2
81 m2 27 m3
2 Side Orientation 158
1.0m
159
What if... I would live with maximum exposure to the sun?
Area
200 m2
Volume
120 m3
Windows
50%
20 m2
77 m2 30 m3
3 Side Orientation 160
1.0m
161
What if... I would live with maximum exposure to the sun?
Area
245 m2
Volume
190 m3
Windows
75%
24 m2
144 m2 39 m3
Position 162
1.0m
163
What if... I would live with maximum exposure to the sun?
Area
245 m2
Volume
230 m3
Windows
100%
28 m2
144 m2 60 m3
Solar Path Optimalization 164
1.0m
165
ULTIMATE COMFORT
166
What if... I would live in absolute silence?
167
What if...
0%
I would live in ultimate silence?
Area
168 m2
Volume
144 m3
A/V Ratio
1.17 m2
Absorb. Area 12.38 m2 45 m2 27 m3
Local Noise Absorbtion 168
1.0m
169
What if...
25%
I would live in ultimate silence?
Area
216 m2
Volume
216 m3
A/V Ratio
1.00 m2
Absorb. Area 80.64 m2 45 m2 27 m3
Floor 170
1.0m
171
What if...
50%
I would live in ultimate silence?
Area
216 m2
Volume
216 m3
A/V Ratio
1.00 m2
Absorb. Area 340.6 m2 45 m2 27 m3
Floor & Wall 172
1.0m
173
What if...
75%
I would live in ultimate silence?
Area
216 m2
Volume
216 m3
A/V Ratio
1.00 m2
Absorb. Area 403.2 m2 Noise Level
Floor & Wall & Furniture 174
-20.6 dBA
45 m2 27 m3
1.0m
175
What if...
100%
I would live in ultimate silence?
Area
360 m2
Volume
384 m3
A/V Ratio
0.93 m2
Absorb. Area 806.4 m2 90 m2 54 m3
Maximizing A/V Ratio 176
1.0m
177
ULTIMATE COMFORT
178
What if... I would live in ultimately soft environment?
179
What if... I would live in ultimately soft environment?
Area
144 m2
Volume
108 m3
Soft Area
0%
36 m3
45 m2 27 m3
Pliability / Floor 180
1.0m
181
What if... I would live in ultimately soft environment?
Area
144 m2
Volume
108 m3
Soft Area
25%
92 m3
45 m2 27 m3
Floor & Wall 182
1.0m
183
What if... I would live in ultimately soft environment?
Area
144 m2
Volume
108 m3
Soft Area
108 m2
50%
45 m2 27 m3
Floor & Wall & Furniture 184
1.0m
185
What if... I would live in ultimately soft environment?
Area
144 m2
Volume
108 m3
Soft Area
144 m2
75%
45 m2 27 m3
Floor & Wall & Furniture & Object 186
1.0m
187
What if... I would live in ultimately soft environment?
Area
144 m2
Volume
108 m3
Soft Area
176 m2
100%
45 m2 27 m3
Density and Pliability 188
1.0m
189
ULTIMATE COMFORT
190
What if... our dwelling is shaped by ventilation?
191
What if... our dwelling is shaped by ventilation?
Area
144 m2
Volume
108 m3
Openings
0%
12 m2
90 m2 54 m3
Cross-ventilation 192
1.0m
193
What if... our dwelling is shaped by ventilation?
Area
144 m2
Volume
108 m3
Openings
25%
12 m2
90 m2 54 m3
Enhance & Extrude 194
1.0m
195
What if... our dwelling is shaped by ventilation?
Area
144 m2
Volume
108 m3
Openings
50%
11 m2
90 m2 38 m3
Cut Patio 196
1.0m
197
What if... our dwelling is shaped by ventilation?
Area
245 m2
Volume
165 m3
Openings
75%
16 m2
122 m2 82 m3
Taper and Chimney 198
1.0m
199
What if... our dwelling is shaped by ventilation?
Area
245 m2
Volume
165 m3
Openings
100%
10 m2
62 m2 38 m3
Wind Catcher & Tower 200
1.0m
201
ULTIMATE COMFORT
202
What if... our dwelling is shaped by ability to balance?
203
What if... our dwelling is shaped by ability to balance?
Area
90 m2
Volume
54 m3
Floor Area
90 m2
Walkable Area
72 m2
Passage Width
3 m
0%
54 m2 27 m3 X2
Uncontrolled Movement 204
1.0m
205
What if... our dwelling is shaped by ability to balance?
Area
144 m2
Volume
108 m3
Floor Area
36 m2
Walkable Area
24 m2
Passage Width
1 m
25%
18 m2 54 m3 X2
Sense for Orientation 206
1.0m
207
What if... our dwelling is shaped by ability to balance?
Area
50%
110 m2
Volume
66 m3
Floor Area
22 m2
Walkable Area
14 m2
Passage Width
0.6 m
13 m2 39 m3 X2
Minimizing Operating Area 208
1.0m
209
What if... our dwelling is shaped by ability to balance?
Area
135 m2
Volume
58 m3
Floor Area
20 m2
Walkable Area Passage Width
75%
9 m2 0.6 m
8 m2 24 m3 X2
Maximizing Continuity 210
1.0m
211
What if... our dwelling is shaped by ability to balance?
Area Volume
100%
141 m2 25 m3
Floor Area
2 m2
Walkable Area
2 m2
Passage Width 0.05 m
2 m2 4 m3 X2
Ultimation Proprioreception 212
1.0m
213
What would our house look like if we try to optimalize views. In this excersise I measured the eye height during different activities in the house. These numbers made me decide to lower or higher floor spaces in the house acoring to the eye height of the activity. Only the bathroom area is slightly lowered so it at least covers the torso, but still provides views. To enclose the house a sphere Is wrapped around with its centre point on eye level. This will make it possible to look down when standing close to the shell.
214
What if... I COULD GET MAXIMUM VIEWS?
215
What if...
0%
I COULD GET MAXIMUM VIEWS?
Area Volume
47 m2 171 m3
Wall area
views
The view 216
217
What if...
25%
I COULD GET MAXIMUM VIEWS?
Area Volume Wall area
47 m2 171 m3 24 m2
views
The view 218
219
What if...
50%
I COULD GET MAXIMUM VIEWS?
Area Volume Wall area
47 m2 171 m3 24 m2
views
m3
The view 220
221
What if...
75%
I COULD GET MAXIMUM VIEWS?
Area Volume Wall area
47 m2 171 m3 24 m2
views
The view 222
223
What if...
100%
I COULD GET MAXIMUM VIEWS?
Area Volume Wall area
47 m2 171 m3 24 m2
views
The view 224
225
The hyper dense environment will force us to shrink living space. Different fuctions in the house are measured, and if possible merged. The bed functions as chair, and the sink in the kitchen is also used as a bathroom sink. Circulation space is minimalized by putting all functions in reach when entering the door. The next step will be to look at the height of different funtions, so the m3 size can be reduced.
226
What if... WE LIVE IN A SINGLE LEVEL HYPER DENSE ENVIRONMENT?
227
What if... I COULD SLIDE FUNCTIONS IN MY HOME?
228
229
What if...
0%
I COULD SLIDE FUNCTIONS IN MY HOME?
Area Volume Wall area
47 m2 171 m3 m2
The slide 230
231
What if... I COULD SLIDE FUNCTIONS IN MY HOME?
Area Volume Wall area
25%
22 m2 43.4 m3 m2
The slide 232
233
What if... I COULD SLIDE FUNCTIONS IN MY HOME?
Area
19 m2
Volume
39 m3
Wall area
50%
m2
The slide 234
235
What if... I COULD SLIDE FUNCTIONS IN MY HOME?
Area
13.68 m2
Volume
26.78 m3
Wall area
75%
m2
The slide 236
237
What if... I COULD SLIDE FUNCTIONS IN MY HOME?
Area Volume Wall area
100%
11.52 m2 24.2 m3 m2
The slide 238
239
What if... AMBITION
240
WE COULD ROTATE OUR LIVING ENVIRONMENT?
241
What if... WE COULD ROTATE OUR LIVING ENVIRONMENT?
Area Volume
0%
47 m2 171 m3
Wall area Rotation Sides
15 m3
The Turn 242
243
What if... WE COULD ROTATE OUR LIVING ENVIRONMENT?
Area
20.16 m2
Volume
60.48 m3
Wall area
25%
m2
Rotation Sides
The Turn 244
245
What if... WE COULD ROTATE OUR LIVING ENVIRONMENT?
Area
10.8 m2
Volume
38.8 m3
Wall area
50%
24 m2
Rotation Sides
The Turn 246
247
What if... WE COULD ROTATE OUR LIVING ENVIRONMENT?
Area Volume Wall area
75%
7.2 m2 29.72 m3 24 m2
Rotation Sides
The Turn 248
249
What if... WE COULD ROTATE OUR LIVING ENVIRONMENT?
Area Volume Wall area
100%
0.2 m2 33.5 m3 24 m2
Rotation Sides
The Turn 250
251
What if... AMBITION
252
WE CAN FOLD OUR HOME?
253
What if...
0%
WE CAN FOLD OUR HOME?
Area Volume Wall area
47 m2 171 m3 m2
Folds
The Fold 254
255
What if...
25%
WE CAN FOLD OUR HOME?
Area Volume Wall area
7.2 m2 17.25 m3 24 m2
Folds
The Fold 256
257
What if...
50%
WE CAN FOLD OUR HOME?
Area
5.76 m2
Volume
13.8 m3
Wall area
24 m2
Folds
The Fold 258
259
What if...
75%
WE CAN FOLD OUR HOME?
Area Volume Wall area
4.32 m2 10.35 m3 24 m2
Folds
The Fold 260
261
What if...
100%
WE CAN FOLD OUR HOME?
Area
?? m2
Volume
?? m3
Wall area
?? m2
Folds
The Fold 262
263
What if... AMBITION
264
WE LIVE ON A 1.44M2 FOOTPRINT AND MERGE FUNCTIONS?
265
What if... WE LIVE ON A 1.44M2 FOOTPRINT AND MERGE FUNCTIONS?
Area Volume Wall area
0%
47 m2 171 m3 m2
The Column 266
267
What if... WE LIVE ON A 1.44M2 FOOTPRINT AND MERGE FUNCTIONS?
Area Volume Wall area
25%
1.44 m2 51 m3 m2
The Column 268
269
What if... WE LIVE ON A 1.44M2 FOOTPRINT AND MERGE FUNCTIONS?
Area Volume Wall area
50%
1.44 m2 37.15 m3 m2
The Column 270
271
What if... WE LIVE ON A 1.44M2 FOOTPRINT AND MERGE FUNCTIONS?
Area Volume Wall area
75%
1.44 m2 14.68 m3 m2
The Column 272
273
What if... WE LIVE ON A 1.44M2 FOOTPRINT AND MERGE FUNCTIONS?
Area
1.44 m2
Volume
4.32 m3
Wall area
100%
m2
The Column 274
275
What if... AMBITION
276
I LIVE ON A STAIR AND MERGE FUNCTIONS?
277
What if... I LIVE ON A STAIR AND MERGE FUNCTIONS?
Area Volume Wall area
0%
47 m2 171 m3 m2
Stair Stair angle
The Merge 278
279
What if... I LIVE ON A STAIR AND MERGE FUNCTIONS?
Area
2.88 m2
Volume
63.2 m3
Wall area
25%
m2
Stair Stair angle
The Merge 280
281
What if... I LIVE ON A STAIR AND MERGE FUNCTIONS?
Area
2.88 m2
Volume
42.8 m3
Wall area
50%
m2
Stair Stair angle
The Merge 282
283
What if... I LIVE ON A STAIR AND MERGE FUNCTIONS?
Area
2.88 m2
Volume
38.5 m3
Wall area
75%
m2
Stair Stair angle
The Merge 284
285
What if... I LIVE ON A STAIR AND MERGE FUNCTIONS?
Area
2.88 m2
Volume
29.5 m3
Wall area
100%
m2
Stair Stair angle
The Merge 286
287
What if... AMBITION
288
WE LIVE IN A SINGLE LEVEL HYPER DENSE ENVIRONMENT AND MERGE FUNCTIONS?
289
What if... WE LIVE IN A SINGLE LEVEL HYPER DENSE ENVIRONMENT AND MERGE FUNCTIONS?
Area Volume
0%
47 m2 171 m3
Wall area
24 m2
Merged functions
The Minimum 290
291
What if... WE LIVE IN A SINGLE LEVEL HYPER DENSE ENVIRONMENT AND MERGE FUNCTIONS?
Area Volume
25%
20 m2 48.3 m3
Wall area
m2
Merged functions
The Minimum 292
293
What if... WE LIVE IN A SINGLE LEVEL HYPER DENSE ENVIRONMENT AND MERGE FUNCTIONS?
Area Volume
50%
8.63 m2 20.69 m3
Wall area
m2
Merged functions
The Minimum 294
295
What if... WE LIVE IN A SINGLE LEVEL HYPER DENSE ENVIRONMENT AND MERGE FUNCTIONS?
Area
5.76 m2
Volume
13.8 m3
Wall area
75%
m2
Merged functions
The Minimum 296
297
What if... WE LIVE IN A SINGLE LEVEL HYPER DENSE ENVIRONMENT AND MERGE FUNCTIONS?
Area
5.76 m2
Volume
7.77 m3
Wall area
100%
m2
Merged functions
The Minimum 298
299
Wouldn’t it be amazing that every house would be fitted to their specific individual user? A house that fits like a suit and reflects you as a person. A dwelling that fits your habits, practice, traditions and living pasterns. A space would change from a pre-defined given fact or a choice in different typologies to an individual entity with no similarities to others.
What if we would customize?
It would create a diverse world. With houses in different shapes, materials and configurations.
DIVERSITY 300
301
What if...
25%
If we would construct from wood
Area Volume Surface area
DIVERSITY 302
47 m2 141 m3 82 m2
0.6m
303
What if...
50%
If we would construct from wood
Area
DIVERSITY 304
47 m2
Volume
141 m3
Surface area
161 m2
0.6m
305
What if...
75%
If we would construct from wood
Area
DIVERSITY 306
47 m2
Volume
141 m3
Surface area
255 m2
0.6m
307
What if... If we would construct from concrete
Area
DIVERSITY 308
100%
47 m2
Volume
141 m3
Surface area
255 m2
0.6m
309
What if... If we would construct from concrete
Area Volume Surface area
DIVERSITY 310
25%
47 m2 141 m3 82 m2
0.6m
311
What if... If we would construct from concrete
Area
DIVERSITY 312
50%
47 m2
Volume
141 m3
Surface area
161 m2
0.6m
313
What if... If we would construct from concrete
Area
DIVERSITY 314
75%
47 m2
Volume
141 m3
Surface area
255 m2
0.6m
315
What if... If we would construct from concrete
Area
DIVERSITY 316
100%
47 m2
Volume
141 m3
Surface area
255 m2
0.6m
317
What if...
25%
If we would construct from steel
Area Volume Surface area
DIVERSITY 318
47 m2 141 m3 82 m2
0.6m
319
What if...
50%
If we would construct from steel
Area
DIVERSITY 320
47 m2
Volume
141 m3
Surface area
161 m2
0.6m
321
What if... If we would construct from concrete
Area
DIVERSITY 322
75%
47 m2
Volume
141 m3
Surface area
255 m2
0.6m
323
What if... If we would construct from concrete
Area
DIVERSITY 324
100%
47 m2
Volume
141 m3
Surface area
255 m2
0.6m
325
What if...
0%
If we would construct from glas
Area Volume Surface area
DIVERSITY 326
47 m2 141 m3 0 m2
0.6m
327
What if...
25%
If we would construct from glas
Area Volume Surface area
DIVERSITY 328
47 m2 141 m3 82 m2
0.6m
329
What if...
50%
If we would construct from glas
Area
DIVERSITY 330
47 m2
Volume
141 m3
Surface area
161 m2
0.6m
331
What if...
75%
If we would construct from glas
Area
DIVERSITY 332
47 m2
Volume
141 m3
Surface area
161 m2
0.6m
333
What if...
100%
If we would construct from glas
Area
DIVERSITY 334
47 m2
Volume
141 m3
Surface area
255 m2
0.6m
335
What if...
25%
If we would construct triangular?
Area Volume Wall area
47 m2 141 m3 73 m2
The main volume transformed to a triangular shape
DIVERSITY 336
0.6m
337
What if...
50%
If we would construct triangular?
Area Volume
47 m2 141 m3
At 50%, the interior walls are shaped triangular as well.
DIVERSITY 338
0.6m
339
What if...
75%
If we would construct triangular?
Area Volume
47 m2 141 m3
At 75%, the interior elements are affected.
DIVERSITY 340
0.6m
341
What if...
100%
If we would construct triangular?
Area Volume
47 m2 141 m3
And at 100%, all the objects should be shaped triangular.
DIVERSITY 342
0.6m
343
What if...
25%
If we would construct triangular?
Area Volume
47 m2 141 m3
The main volume transformed to a circular shape
DIVERSITY 344
0.6m
345
What if...
50%
If we would construct triangular?
Area Volume
47 m2 141 m3
At 50%, the interior walls are shaped circular as well.
DIVERSITY 346
0.6m
347
What if...
75%
If we would construct triangular?
Area Volume
47 m2 141 m3
At 75%, the interior elements are affected.
DIVERSITY 348
0.6m
349
What if...
100%
If we would construct triangular?
Area Volume
47 m2 141 m3
And at 100%, all the objects should be shaped triangular.
DIVERSITY 350
0.6m
351
To customize is about altering a given framework, in this case the standard apartment, towards something that would fit the individual person. 000% - STANDARD
025% - TYPOLOGICAL
050% - TYPOFRAMED
It is about the ability to adjust or alter this framework into something that allows for the specific preference of the individual. In beginning it is the ability to choose from different options towards the idea of endless possibilities. When is this framework most presence and how does this inflict the living capabilities? And when does the framework disappears by the endless range of possibilities. In architecture, the 0% customized apartment is represented by the mass housing flats while the 100%. Extending this towards a minimum, would translate towards a range of set typologies (25%). Then a set typology could be arranged towards a typological framed composition of individual design elements (50%) and eventually interacting as individual character interacting with other (75%). Continuing this process would lead to a open framework (100%) made by compositions and interaction in typologies and design elements between the layers and overall design.
Finishing, Configuration, Shape, Roofs, Transparency. The diversification between the appartments is made through the physical elements that shape them. Then effecting the living-space through their performance, look and feels. In overall, the walls make the division of the apartment. Their shape, porosity, height, configuration and finishing create the living-space we use. Can the diversification of these topics result into personal designed space?
075% - COMPOSION
352
353
What if... we customize configuration
25% TYPOLOGIES
50% TYPOFRAMED
75% COMPOSITION
Transforming sub-spaces
DIVERSITY 354
100% OPEN
0.6m
355
Porosity “the quality or state of being porous; the ratio of the volume of interstices of a material to the volume of its mass”. Porous,” possessing or full of pores; permeable to outside influences” Interstices, “a space that intervenes between things”. Are their different variations of the concept porosity? Different level of relationship with the external conditions// difference in permeability.
What if... The urban environment is in the state of being porous.
Porosity is a tool of achieving certain qualities, it is a Mediator. 356
357
Every dwelling is in a few steps stretched, while maintaining the original sq.m. The consequence are an altered dwelling organisation and increase in facade area.
358
What if... Every dwelling is maximised for length?
359
What if... Every dwelling is maximised for length?
Area Volume Facade area
Rectangle to Line 360
0%
47 m2 141 m3 22 m2
0.6m
361
What if... Every dwelling is maximised for length?
Area Volume Facade area
Rectangle to Line 362
25%
47 m2 141 m3 31 m2
0.6m
363
What if... Every dwelling is maximised for length?
Area Volume Facade area
Rectangle to Line 364
50%
47 m2 141 m3 40 m2
0.6m
365
What if... Every dwelling is maximised for length?
Area
Rectangle to Line 366
75%
47 m2
Volume
141 m3
Facade
49 m2
0.6m
367
What if... Every dwelling is maximised for length?
Area Volume Wall area
Rectangle to Line 368
100%
47 m2 171 m3 58 m2
0.6m
369
Like the length rudimental transformation in height and depth of the building; do qualities come to the fore or evaporate.
370
What if... Every dwelling is maximised for height
371
What if... Every dwelling is maximised for height?
Area Volume Wall area
Up up and away. 372
0%
47 m2 141 m3 22 m2
0.6m
373
What if... Every dwelling is maximised for height?
Area Volume Facade area
Up up and away. 374
25%
47 m2 141 m3 40 m2
0.6m
375
What if... Every dwelling is maximised for height?
Area Volume Wall area
Up up and away. 376
50%
47 m2 141 m3 58 m2
0.6m
377
What if... Every dwelling is maximised for height?
Area Volume Wall area
Up up and away. 378
75%
47 m2 141 m3 76 m2
0.6m
379
What if... Every dwelling is maximised for height?
Area Volume Facade area
Up up and away. 380
100%
47 m2 141 m3 94 m2
0.6m
381
Variation on the heigth translation, each storey a recess creating a stepped arrangement.
382
What if... Every dwelling is configured in a stepped arrangement?
383
What if... Every dwelling is configured in a stepped arrangement?
Area Volume Facade area
Stepped 384
0%
47 m2 141 m3 24 m2
0.6m
385
What if... Every dwelling is configured in a stepped arrangement?
Area Volume Facade area
Stepped 386
25%
47 m2 141 m3 24 m2
0.6m
387
What if... Every dwelling is configured in a stepped arrangement?
Area Volume Facade area
Stepped 388
50%
47 m2 141 m3 24 m2
0.6m
389
What if... Every dwelling is configured in a stepped arrangement?
Area Volume Wall area
Stepped 390
75%
47 m2 141 m3 24 m2
0.6m
391
What if... Every dwelling is configured in a stepped arrangement?
Area Volume Facade area
Stepped 392
100%
47 m2 141 m3 24 m2
0.6m
393
Maintaining the original sqm, a patio is inserted in the center. When does the dwelling start to reorientate itself.
394
What if... Every dwelling would have a patio?
395
What if... Every dwelling would have a patio?
Area Volume Wall area
Re-Orientation 396
0%
47 m2 141 m3 18 m2
0.6m
397
What if... Every dwelling would have a patio?
Area Volume Facade area
Re-Orientation 398
25%
47 m2 141 m3 28 m2
0.6m
399
What if... Every dwelling would have a patio?
Area Volume Facade area
Re-Orientation 400
50%
47 m2 141 m3 32 m2
0.6m
401
What if... Every dwelling would have a patio?
Area Volume Facade area
Re-Orientation 402
75%
47 m2 141 m3 36 m2
0.6m
403
What if... Every dwelling would have a patio?
Area Volume Facade area
Re-Orientation 404
100%
47 m2 141 m3 40 m2
0.6m
405
Environment
406
407
What if... We lived with an extended family?
408
409
tle
What if...
0%
0.6m
410
411
Title
tle
What if...
25%
0.6m
412
413
Title
tle
What if...
50%
0.6m
414
415
Title
tle
What if...
75%
0.6m
416
417
Title
tle
What if...
100%
0.6m
418
419
What if... we had too many guests?
420
421
tle
What if...
0%
0.6m
422
423
Title
tle
What if...
25%
0.6m
424
425
Title
tle
What if...
50%
0.6m
426
427
Title
tle
What if...
75%
0.6m
428
429
Title
tle
What if...
100%
0.6m
430
431
Can building materials generate electricity ? This fascination explores a series of scenario where we can save up spaces used to produce electricity by integrating energy production to building components such as wall,floor,roof and furniture. Would we generate more energy!
432
What if... solar panels would become a building material?
433
What if...
0%
solar panels would become a building material?
Footprint
78 m2
House area
47 m2
Solarpanels
31.3 m
RoomVolume
171 m3
1.62 m2
2
Average Electricity Consumption Total Electricity produced Each Solar Panel produced # of solar panels
30 kWh/day (US) 30.1 kWh 1.436 kWh@ 25% efficiency 21 panels
typical connection? 434
435
What if...
25%
solar panels would become a building material?
Footprint
47 m2
House area
47 m2
Solarpanels
48.4 m
RoomVolume
186 m3
1.62 m2
2
Average Electricity Consumption Total Electricity produced Each Solar Panel produced # of solar panels
30 kWh/day (US) 40.2 kWh 1.436 kWh@ 25% efficiency 28 panels
wall? 436
437
What if...
50%
solar panels would become a building material?
Footprint
47 m2
House area
47 m2
Solarpanels
81.3 m2
RoomVolume
186 m3
36 m2
Average Electricity Consumption
30 kWh/day (US)
Total Electricity produced
72 kWh
Each Solar Panel produced # of solar panels
1.436 kWh@ 25% efficiency 50 panels
wall+floor? 438
439
What if...
75%
solar panels would become a building material?
Footprint
47 m2
House area
47 m2
Solarpanels
133 m2
RoomVolume
230 m3
51.84 m2
Average Electricity Consumption
30 kWh/day (US)
Total Electricity produced
117.7 kWh
Each Solar Panel produced
1.436 kWh@ 25% efficiency
# of solar panels
82 panels
wall+floor+roof? 440
441
What if...
100%
solar panels would become a building material?
Footprint
47 m2
House area
47 m2
Solarpanels
150.6 m2
RoomVolume
230 m3
18 m2
Average Electricity Consumption
30 kWh/day (US)
Total Electricity produced
133.5 kWh
Each Solar Panel produced
1.436 kWh@ 25% efficiency
# of solar panels
93 panels
wall+floor+roof+furniture? 442
443
Can building materials generate electricity ? This fascination explores a series of scenario where we can save up spaces used to produce electricity by integrating energy production to building components such as wall,floor,roof and furniture. Would we generate more energy!
444
What if... wind turbine would become a building material?
445
What if...
0%
wind turbine would become a building material?
Footprint
47 m2
House area
47 m2
Turbine Ă˜
6 m
RoomVolume 140.4 m3
Average Electricity Consumption
30 kWh/day (US)
Total Electricity produced
30.1 kWh
Each Turbine produced
32.9 kWh@ 25% efficiency 5.5m/s
# of turbines
1 turbine
typical connection? 446
447
What if...
25%
wind turbine would become a building material?
Footprint
47 m2
House area
47 m2
Turbine Ă˜
0.6 m
RoomVolume 140.4 m3
Average Electricity Consumption
30 kWh/day (US)
Total Electricity produced
37.72 kWh
Each Turbine produced
0.328 kWh@ 25% efficiency 5.5m/s
# of turbines
115 turbine
wall? 448
449
What if...
50%
wind turbine would become a building material?
Footprint
47 m2
House area
47 m2
Turbine Ă˜
0.6 m2
RoomVolume 140.4 m3
Average Electricity Consumption
30 kWh/day (US)
Total Electricity produced
50.84 kWh
Each Turbine produced
0.328 kWh@ 25% efficiency 5.5m/s
# of turbines
155 turbine
wall+floor? 450
451
What if...
75%
wind turbine would become a building material?
Footprint
47 m2
House area
47 m2
Turbine Ă˜
0.6 m2
RoomVolume
230 m3
Average Electricity Consumption Total Electricity produced Each Turbine produced # of turbines
30 kWh/day (US) 59.6 kWh 0.328 kWh@ 25% efficiency 5.5m/s 182 turbine
wall+floor+roof? 452
453
What if...
100%
wind turbine would become a building material?
Footprint
47 m2
House area
47 m2
Turbine Ă˜
0.6 m2
RoomVolume
230 m3
Average Electricity Consumption
30 kWh/day (US)
Total Electricity produced
61 kWh
Each Turbine produced # of turbines
0.328 kWh@ 25% efficiency 5.5m/s 186 turbine
wall+floor+roof+furniture? 454
455
This fascination explores a series of scenarios where a living unit could become energy self-sufficient, namely from solar, wind. By manipulating and reconfiguring typology of rooms
456
What if... I could reconfigure my spaces to generate self-efficient house with solar panels?
457
What if... I could reconfigure my spaces to generate self-efficient house
0%
with solar panels? Footprint
47 m2
House area
47 m2
Solarpanels
0 m2
Average Electricity Consumption Total Electricity produced Each Solar Panel produced # of solar panels
458
30 kWh/day (US) 0 kWh 1.436 kWh@ 25% efficiency 0 panels
459
What if... I could reconfigure my spaces to generate self-efficient house
25%
with solar panels? Footprint
48 m2
House area
48 m2
Solarpanels
9.72 m2
Average Electricity Consumption
30 kWh/day (US)
Total Electricity produced
8.6 kWh
Each Solar Panel produced # of solar panels
460
1.436 kWh@ 25% efficiency 6 panels
461
What if... I could reconfigure my spaces to generate self-efficient house
50%
with solar panels? Footprint
52 m2
House area
52 m2
Solarpanels
18.6 m2
Average Electricity Consumption Total Electricity produced Each Solar Panel produced # of solar panels
462
30 kWh/day (US) 15.8 kWh 1.436 kWh@ 25% efficiency 11 panels
463
What if... I could reconfigure my spaces to generate self-efficient house
75%
with solar panels? Footprint
56 m2
House area
56 m2
Solarpanels
23.5 m2
Average Electricity Consumption Total Electricity produced Each Solar Panel produced # of solar panels
464
30 kWh/day (US) 20.8 kWh 1.436 kWh@ 25% efficiency 14.5 panels
465
What if... I could reconfigure my spaces to generate self-efficient house
100%
with solar panels? Footprint
58 m2
House area
58 m2
Solarpanels
34 m2
Average Electricity Consumption Total Electricity produced Each Solar Panel produced # of solar panels
466
30 kWh/day (US) 30.1 kWh 1.436 kWh@ 25% efficiency 21 panels
467
This fascination explores a series of scenarios where a living unit could become energy self-sufficient, namely from solar, wind. By manipulating and reconfiguring typology of rooms
468
What if... I could reconfigure my spaces to generate self-efficient house with wind turbines?
469
What if...
0%
I could reconfigure my spaces to generate self-efficient house with wind turbines? Footprint
47 m2
House area
47 m2
Turbine Ă˜
0.6 m2
Average Electricity Consumption
470
30 kWh/day (US)
Total Electricity produced
0 kWh
Each Turbine produced
0 kWh@ 25% efficiency 5.5m/s
# of turbines
0 turbine
471
What if...
25%
I could reconfigure my spaces to generate self-efficient house with wind turbines? Footprint
43.2 m2
House area
100 m2
Turbine Ă˜
0.6 m2
Average Electricity Consumption
30 kWh/day (US)
Total Electricity produced
8.4 kWh
Each Turbine produced
1.2 kWh@ 25% efficiency 5.5m/s
# of turbines
472
7 turbine
473
What if...
50%
I could reconfigure my spaces to generate self-efficient house with wind turbines? Footprint
32.4 m2
House area
100 m2
Turbine Ă˜
0.6 m2
Average Electricity Consumption Total Electricity produced
474
30 kWh/day (US) 15.6 kWh
Each Turbine produced
1.2 kWh@ 25% efficiency 5.5m/s
# of turbines
13 turbine
475
What if...
75%
I could reconfigure my spaces to generate self-efficient house with wind turbines? Footprint
22.3 m2
House area
100 m2
Turbine Ă˜
0.6 m2
Average Electricity Consumption Total Electricity produced
476
30 kWh/day (US) 25.2 kWh
Each Turbine produced
1.2 kWh@ 25% efficiency 5.5m/s
# of turbines
21 turbine
477
What if...
100%
I could reconfigure my spaces to generate self-efficient house with wind turbines? Footprint
16.7 m2
House area
100 m2
Turbine Ă˜
0.6 m2
Average Electricity Consumption Total Electricity produced
478
30 kWh/day (US) 32.4 kWh
Each Turbine produced
1.2 kWh@ 25% efficiency 5.5m/s
# of turbines
27 turbine
479
Food is one of the first things to take control of in order to become self sufficient. What do you need to eat? How much do you need to eat? What do you want to eat? How do you grow your food? How much space does that take? Diet and technology have a big impact on the amount of land used for the production of our food. These scenarios show the impact of the combinations of these factors.
480
What if... I would produce my own food?
481
What if...
0%
we produce our own food with standard technology? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 3400
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
374 136 34 136 1156 1054 510 7400 10800
current US diet (BAS) nutrient type daily intake per capita energy (kcal/day) 2844 protein (g/day) 92 fat (g/day) 120 carboydrates (g/day) 363
... and follow the US diet? 482
483
What if...
0%
we produce our own food with standard technology? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 2000
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
360 200 100 20 660 600 60 4500 6500
less meat (OMNI 60) nutrient type daily intake per capita energy (kcal/day) 2153 protein (g/day) 84,2 fat (g/day) 72 carboydrates (g/day) 306,1
... and eat less meat? 484
485
What if...
0%
we produce our own food with standard technology? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 1500
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
345 195 165 15 480 300 0 1000 2500
even less meat (OMNI 20) nutrient type daily intake per capita energy (kcal/day) 2153 protein (g/day) 79 fat (g/day) 71 carboydrates (g/day) 315
... and eat even less meat? 486
487
What if...
0%
we produce our own food with standard technology? Land type Cropland
Subtype
Land use (m2) 1400
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
350 196 210 14 434
Grazing land Total
196 0 24 1424
vegetarian (OVO) nutrient type daily intake per capita energy (kcal/day) 2153 77,5 protein (g/day) Highlight = direct human consumption
fat (g/day) carboydrates (g/day)
71 320
... and follow a vegetarian diet? 488
489
What if...
0%
we produce our own food with standard technology? Land type Cropland
Subtype
Land use (m2) 1300
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
351 208 442 13 286
Grazing land Total
0 0 0 1300
vegan (VEG) nutrient type daily intake per capita energy (kcal/day) 2153 74 protein (g/day) Highlight = direct human consumption
fat (g/day) carboydrates (g/day)
66 336
... and follow a vegan diet? 490
491
What if...
25%
we produce our own food with biointensive farming? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 1700
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
187 68 17 68 578 527 255 3700 5400
current US diet (BAS) nutrient type daily intake per capita energy (kcal/day) 2844 protein (g/day) 92 fat (g/day) 120 carboydrates (g/day) 363
... and follow the US diet? 492
493
What if...
25%
we produce our own food with biointensive farming? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 1000
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
180 100 50 10 330 300 30 2250 3250
less meat (OMNI 60) nutrient type daily intake per capita energy (kcal/day) 2153 protein (g/day) 84,2 fat (g/day) 72 carboydrates (g/day) 306,1
... and eat less meat? 494
495
What if...
25%
we produce our own food with biointensive farming? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 750
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
172,5 97,5 82,5 7,5 240 150 0 500 1250
even less meat (OMNI 20) nutrient type daily intake per capita energy (kcal/day) 2153 protein (g/day) 79 fat (g/day) 71 carboydrates (g/day) 315
... and eat even less meat? 496
497
What if...
25%
we produce our own food with biointensive farming? Land type Cropland
Subtype
Land use (m2) 700
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
175 98 105 7 217
Grazing land Total
98 0 24 724
vegetarian (OVO) nutrient type daily intake per capita energy (kcal/day) 2153 77,5 protein (g/day) Highlight = direct human consumption
fat (g/day) carboydrates (g/day)
71 320
... and follow a vegetarian diet? 498
499
What if...
25%
we produce our own food with biointensive farming? Land type Cropland
Subtype
Land use (m2) 650
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
175,5 104 221 6,5 143
Grazing land Total
0 0 0 650
vegan (VEG) nutrient type daily intake per capita energy (kcal/day) 2153 74 protein (g/day) Highlight = direct human consumption
fat (g/day) carboydrates (g/day)
66 336
... and follow a vegan diet? 500
501
What if...
50%
we produce our own food with hydroponics? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 680
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
74,8 27,2 6,8 27,2 231,2 210,8 102 1480 2160
current US diet (BAS) nutrient type daily intake per capita energy (kcal/day) 2844 protein (g/day) 92 fat (g/day) 120 carboydrates (g/day) 363
... and follow the US diet? 502
503
What if...
50%
we produce our own food with hydroponics? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 400
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
72 40 20 4 132 120 12 900 1300
less meat (OMNI 60) nutrient type daily intake per capita energy (kcal/day) 2153 protein (g/day) 84,2 fat (g/day) 72 carboydrates (g/day) 306,1
... and eat less meat? 504
505
What if...
50%
we produce our own food with hydroponics? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 300
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
69 39 33 3 96 60 0 200 500
even less meat (OMNI 20) nutrient type daily intake per capita energy (kcal/day) 2153 protein (g/day) 79 fat (g/day) 71 carboydrates (g/day) 315
... and eat even less meat? 506
507
What if...
50%
we produce our own food with hydroponics? Land type Cropland
Subtype
Land use (m2) 280
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
70 39,2 42 2,8 86,8
Grazing land Total
39,2 0 24 304
vegetarian (OVO) nutrient type daily intake per capita energy (kcal/day) 2153 77,5 protein (g/day) Highlight = direct human consumption
fat (g/day) carboydrates (g/day)
71 320
... and follow a vegetarian diet? 508
509
What if...
50%
we produce our own food with hydroponics? Land type Cropland
Subtype
Land use (m2) 260
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
70,2 41,6 88,4 2,6 57,2
Grazing land Total
0 0 0 260
vegan (VEG) nutrient type daily intake per capita energy (kcal/day) 2153 74 protein (g/day) Highlight = direct human consumption
fat (g/day) carboydrates (g/day)
66 336
... and follow a vegan diet? 510
511
What if...
75%
we produce our own food with aeroponics? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 340
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
37,4 13,6 3,4 13,6 115,6 105,4 51 740 1080
current US diet (BAS) nutrient type daily intake per capita energy (kcal/day) 2844 protein (g/day) 92 fat (g/day) 120 carboydrates (g/day) 363
... and follow the US diet? 512
513
What if...
75%
we produce our own food with aeroponics? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 200
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
36 20 10 2 66 60 6 450 650
less meat (OMNI 60) nutrient type daily intake per capita energy (kcal/day) 2153 protein (g/day) 84,2 fat (g/day) 72 carboydrates (g/day) 306,1
... and eat less meat? 514
515
What if...
75%
we produce our own food with aeroponics? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 150
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
34,5 19,5 16,5 1,5 48 30 0 100 250
even less meat (OMNI 20) nutrient type daily intake per capita energy (kcal/day) 2153 protein (g/day) 79 fat (g/day) 71 carboydrates (g/day) 315
... and eat even less meat? 516
517
What if...
75%
we produce our own food with aeroponics? Land type Cropland
Subtype
Land use (m2) 140
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
35 19,6 21 1,4 43,4
Grazing land Total
19,6 0 24 164
vegetarian (OVO) nutrient type daily intake per capita energy (kcal/day) 2153 77,5 protein (g/day) Highlight = direct human consumption
fat (g/day) carboydrates (g/day)
71 320
... and follow a vegetarian diet? 518
519
What if...
75%
we produce our own food with aeroponics? Land type Cropland
Subtype
Land use (m2) 130
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
35,1 20,8 44,2 1,3 28,6
Grazing land Total
0 0 130
vegan (VEG) nutrient type daily intake per capita energy (kcal/day) 2153 74 protein (g/day) Highlight = direct human consumption
fat (g/day) carboydrates (g/day)
66 336
... and follow a vegan diet? 520
521
What if...
100%
we produce our own food with vertical farming? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 180
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
37,4 13,6 3,4 13,6 115,6 105,4 51 740 920
current US diet (BAS) nutrient type daily intake per capita energy (kcal/day) 2844 protein (g/day) 92 fat (g/day) 120 carboydrates (g/day) 363
... and follow the US diet? 522
523
What if...
100%
we produce our own food with vertical farming? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 108
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
36 20 10 2 66 60 6 450 650
less meat (OMNI 60) nutrient type daily intake per capita energy (kcal/day) 2153 protein (g/day) 84,2 fat (g/day) 72 carboydrates (g/day) 306,1
... and eat less meat? 524
525
What if...
100%
we produce our own food with vertical farming? Land type Cropland
Grazing land Total
Highlight = direct human consumption
Subtype
Land use (m2) 81
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
345 195 165 15 480 300 0 100 181
even less meat (OMNI 20) nutrient type daily intake per capita energy (kcal/day) 2153 protein (g/day) 79 fat (g/day) 71 carboydrates (g/day) 315
... and eat even less meat? 526
527
What if...
100%
we produce our own food with vertical farming? Land type Cropland
Subtype
Land use (m2) 76
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
35 19,6 21 1,4 43,4
Grazing land Total
19,6 0 24 100
vegetarian (OVO) nutrient type daily intake per capita energy (kcal/day) 2153 77,5 protein (g/day) Highlight = direct human consumption
fat (g/day) carboydrates (g/day)
71 320
... and follow a vegetarian diet? 528
529
What if...
100%
we produce our own food with vertical farming? Land type Cropland
Subtype
Land use (m2) 71
grains fruit/veg nuts/pulses sweeteners feed grains/ oilseeds hay pasture
35,1 20,8 44,2 1,3 28,6
Grazing land Total
0 0 0
vegan (VEG) nutrient type daily intake per capita energy (kcal/day) 2153 74 protein (g/day) Highlight = direct human consumption
fat (g/day) carboydrates (g/day)
66 336
... and follow a vegan diet? 530
531
What if...
0%
we integrated vertical farming with our house?
House area
54 m2
Farm area
71 m2
“vertical farming� means aeroponic farming with LED lighting here.
Foodify 532
0.6m
533
What if...
25%
we integrated vertical farming in structural walls?
House area
54 m2
Farm area
88 m2
“vertical farming� means aeroponic farming with LED lighting here.
Foodify 534
0.6m
535
What if...
50%
we integrated vertical farming with partition walls?
House area
43 m2
Farm area
120 m2
“vertical farming� means aeroponic farming with LED lighting here.
Foodify 536
0.6m
537
What if...
75%
we integrated vertical farming with floors?
House area
43 m2
Farm area
144 m2
“vertical farming� means aeroponic farming with LED lighting here.
Foodify 538
0.6m
539
What if... we integrated vertical farming with furniture?
100%
House area Farm area
43 m2 ~160 m2
“vertical farming� means aeroponic farming with LED lighting here.
Foodify 540
0.6m
541
Diet ingredients Food group
Food subgroup
Unit
BAS
OMNI 60
OMNI 20
OVO
VEG
Grains
Whole and refined grains
grams
217,2
198,7
198,7
198,7
198,7
Vegetables
Total vegetables
grams
Dark green vegetables
grams
24,0
39,0
39,0
39,0
39,0
Red and orange vegetables
grams
45,0
123,0
123,0
123,0
123,0
Dry beans, lentils, and peas
grams
16,5
39,0
39,0
39,0
39,0
Starchy vegetables
grams
69,0
120,0
120,0
120,0
120,0
Other vegetables
grams
79,5
97,5
97,5
97,5
97,5
Fruits
All fruit
grams
129,0
288,0
288,0
288,0
288,0
Dairy
All dairy
grams
Cow’s milk products
grams
403,2
444,0
484,8
540,0
0,0
Fluid milk and yogurt
grams
163,2
379,2
412,8
460,8
0,0
Cheese and other dairy
grams
240,0
67,2
72,0
81,6
0,0
Soy milk
grams
n/a
0,0
0,0
0,0
693,6
All protein foods
grams
189,1
164,4
164,4
164,4
164,4
Dry beans, lentils, and peas
grams
n/a
14,5
28,6
43,4
57,3
Nuts
grams
21,8
32,9
46,8
64,9
64,9
Tofu
grams
n/a
18,7
37,1
56,1
42,0
Beef
grams
51,0
26,6
8,8
0,0
0,0
Pork
grams
33,7
17,6
6,0
0,0
0,0
Chicken
grams
42,8
22,4
7,4
0,0
0,0
Turkey
grams
11,1
6,0
2,0
0,0
0,0
Eggs
grams
15,0
19,3
25,2
0,0
0,0
Fish
grams
13,6
7,1
2,3
0,0
0,0
Plant oils
grams
64,5
28,0
28,0
28,0
28,0
Dairy fats
grams
7,3
1,1
1,1
1,1
0,0
Animal fat (lard and tallow)
grams allowed in diet
2,9
0,3
0,1
0,0
0,0
All sweeteners
grams
101,2
25,31
15,19
15,19
15,19
Protein
Added fats
Sweeteners
Assumptions regarding diet + tech land use Technology The factors for increasing farming output because of improved technology are averaged between different sources. Yield improvement factors vary wildly for the level of advancement of the applied technology and for specific crops. Assumed yield improvement factors: bio: x2, hydro: x5, aero: x10. Grazing land Grazing land is both for growing animal food and their need for movement. The diets were modeled with animals grazing and eating harvested crops. When hydroponics/aeroponics are used to grow the food for animals, the grazing land and the cropland are reduced by the general land reduce factor. Assumed is that an increasing share of the animal food is cultivated and harvested. For the vegetarian diet there is no grazing land at all. For these diets food rations for animals were modeled with only harvested crops. A minimum land need to keep these animals is used as grazing land.
Table format and data for diets taken from: https://www.elementascience.org/articles/116/tabs/figures_and_data
542
543
Products
544
545
What if... We lived in a data center?
546
547
tle
What if...
0%
0.6m
548
549
Title
tle
What if...
25%
0.6m
550
551
Title
tle
What if...
50%
0.6m
552
553
Title
tle
What if...
75%
0.6m
554
555
Title
tle
What if...
100%
0.6m
556
557
What if... we had a lot of furniture to store things?
558
559
tle
What if...
0%
0.6m
560
561
Title
tle
What if...
25%
0.6m
562
563
Title
tle
What if...
50%
0.6m
564
565
Title
tle
What if...
75%
0.6m
566
567
Title
tle
What if...
100%
0.6m
568
569
What if... We used the floor as a storage?
570
571
tle
What if...
0%
0.6m
572
573
Title
tle
What if...
25%
0.6m
574
575
Title
tle
What if...
50%
0.6m
576
577
Title
tle
What if...
75%
0.6m
578
579
Title
tle
What if...
100%
0.6m
580
581
What if... We needed to keep everything on display?
582
583
tle
What if...
0%
0.6m
584
585
Title
tle
What if...
25%
0.6m
586
587
Title
tle
What if...
50%
0.6m
588
589
Title
tle
What if...
75%
0.6m
590
591
Title
tle
What if...
100%
0.6m
592
593
Imagine living in a block where you have access to whatever you please in your house, whether it be a climbing wall, a runing circuit, a pool, a garden ,welding machines and more.
594
What if... I would live in a house with climbing walls?
595
What if... I would live in a house without climbing walls?
Area Volume Footprint
0%
47 m2 171 m3 47 m2
Climable wall
0 m2
Grip density(S)
10 1/m2
Grip density(M) 7.5 1/m2 Grip density(L)
The Tree 596
5 1/m2
0.6m
0.6
m .6m 0
597
What if... I would live in a house accessible with climbing walls?
Area Volume
25%
47 m2 162 m3
Footprint
12 m2
Climable wall
7.2 m2
Grip density(S)
10 1/m2
Grip density(M) 7.5 1/m2 Grip density(L)
The Tree 598
5 1/m2
0.6m
0.6
m .6m 0
599
What if... I would live in a house with climbing walls?
Area Volume Footprint Climable wall Grip density(S)
50%
42 m2 150 m3 6 m2 19.8 m2 10 1/m2
Grip density(M) 7.5 1/m2 Grip density(L)
The Tree 600
5 1/m2
0.6m
0.6
m .6m 0
601
What if... I would live in a house with climbing walls?
Area Volume
75%
42 m2 100.5 m3
Footprint Climable wall Grip density(S)
3.6 m2 33.5 m2 10 1/m2
Grip density(M) 7.5 1/m2 Grip density(L)
The Tree 602
5 1/m2
0.6m
0.6
m .6m 0
603
What if... I would live in a house with climbing walls?
Area Volume
100%
28 m2 153.8 m3
Footprint Climable wall Grip density(S)
3.6 m2 23.8 m2 10 1/m2
Grip density(M) 7.5 1/m2 Grip density(L)
The Tree 604
5 1/m2
0.6m
0.6
m .6m 0
605
Imagine living in a block where you have access to whatever you please in your house, whether it be a climbing wall, a runing circuit, a pool, a garden ,welding machines and more.
606
What if... I would live in a house with climbing walls?
607
What if... I would live in a house without climbing walls?
Area Volume Footprint
0%
47 m2 171 m3 47 m2
Climable wall
0 m2
Grip density(S)
10 1/m2
Grip density(M) 7.5 1/m2 Grip density(L)
The Ladder 608
5 1/m2
0.6m
0.6
m .6m 0
609
What if... I would live in a house accessible with climbing walls?
Area Volume
25%
47 m2 162 m3
Footprint
12 m2
Climable wall
7.2 m2
Grip density(S)
10 1/m2
Grip density(M) 7.5 1/m2 Grip density(L)
The Ladder 610
5 1/m2
0.6m
0.6
m .6m 0
611
What if... I would live in a house with climbing walls?
Area Volume Footprint Climable wall Grip density(S)
50%
42 m2 150 m3 6 m2 19.8 m2 10 1/m2
Grip density(M) 7.5 1/m2 Grip density(L)
The Ladder 612
5 1/m2
0.6m
0.6
m .6m 0
613
What if... I would live in a house with climbing walls?
Area Volume
75%
42 m2 100.5 m3
Footprint Climable wall Grip density(S)
3.6 m2 33.5 m2 10 1/m2
Grip density(M) 7.5 1/m2 Grip density(L)
The Ladder 614
5 1/m2
0.6m
0.6
m .6m 0
615
What if... I would live in a house with climbing walls?
Area Volume
100%
28 m2 153.8 m3
Footprint Climable wall Grip density(S)
3.6 m2 23.8 m2 10 1/m2
Grip density(M) 7.5 1/m2 Grip density(L)
The Ladder 616
5 1/m2
0.6m
0.6
m .6m 0
617
Imagine living in a block where you have access to whatever you please in your house, whether it be a climbing wall, a runing circuit, a pool, a garden ,welding machines and more.
618
What if... I would live in a house with a running track?
619
What if... I would live in a house without a running track?
Area Volume Footprint Track
New York 620
0%
47 m2 171 m3 47 m2 0 m2
0.6m
0.6
m .6m 0
621
What if... I would live in a house accessible with a running track?
Area Volume
New York 622
25%
85 m2 257 m3
Footprint
85 m2
Track
39 m2
0.6m
0.6
m .6m 0
623
What if... I would live in a house with a running track?
Area
115 m2
Volume
349 m3
Footprint
115 m2
Track
New York 624
50%
73 m2
0.6m
0.6
m .6m 0
625
What if... I would live in a house with a running track?
New York 626
Area
131 m2
Volume
394 m3
Footprint
131 m2
Track
89.4 m2
75%
0.6m
0.6
m .6m 0
627
What if... I would live in a house with a running track?
New York 628
Area
99.7 m2
Volume
300 m3
Footprint
99.7 m2
Track
79.9 m2
100%
0.6m
0.6
m .6m 0
629
Imagine living in a block where you have access to whatever you please in your house, whether it be a climbing wall, a runing circuit, a pool, a garden ,welding machines and more.
630
What if... I would live in a house with an olympic swimming pool?
631
What if... I would live in a house without a pool?
Temperature
26.5 ËšC
Area
Light
1500 lux
Volume
Long pool
50 m
Short pool
25 m1
Lane
2.5 m1
The River 632
1
Footprint Pool
0%
47 m2 171 m3 47 m2 0 m2
0.6m
0.6
m .6m 0
633
What if... I would live in a house with a pool?
Temperature
26.5 ËšC
Area
Light
1500 lux
Volume
Long pool
50 m
Short pool
25 m1
Lane
2.5 m1
The River 634
1
25%
85 m2 257 m3
Footprint
85 m2
Pool
39 m2
0.6m
0.6
m .6m 0
635
What if... I would live in a house with a pool?
Temperature
26.5 ËšC
Area
115 m2
Light
1500 lux
Volume
349 m3
Footprint
115 m2
Long pool
50 m
Short pool
25 m1
Lane
2.5 m1
The River 636
1
Pool
50%
73 m2
0.6m
0.6
m .6m 0
637
What if... I would live in a house with a pool?
Temperature
26.5 ËšC
Area
131 m2
Light
1500 lux
Volume
394 m3
Footprint
131 m2
Pool
89.4 m2
Long pool
50 m
Short pool
25 m1
Lane
2.5 m1
The River 638
1
75%
0.6m
0.6
m .6m 0
639
What if... I would live in a house with a pool?
Temperature
26.5 ËšC
Area
99.7 m2
Light
1500 lux
Volume
300 m3
Footprint
99.7 m2
Pool
79.9 m2
Long pool
50 m
Short pool
25 m1
Lane
2.5 m1
The River 640
1
100%
0.6m
0.6
m .6m 0
641
Imagine living in a block where you have access to whatever you please in your house, whether it be a climbing wall, a runing circuit, a pool, a garden ,welding machines and more.
642
What if... I would live in a house with a basketball court?
643
What if... I would live in a house without a basketball court
Temperature Light
18 ËšC 1000 lux
Area Volume Footprint Court
The River 644
0%
47 m2 171 m3 47 m2 0 m2
0.6m
0.6
m .6m 0
645
What if... I would live in a house accessible with a basketball court?
Temperature Light
18 ËšC 1000 lux
The River 646
Area Volume
25%
85 m2 257 m3
Footprint
85 m2
Court
39 m2
0.6m
0.6
m .6m 0
647
What if... I would live in a house accessible with a basketball court?
Temperature Light
18 ËšC 1000 lux
Area
115 m2
Volume
349 m3
Footprint
115 m2
Court
The River 648
50%
73 m2
0.6m
0.6
m .6m 0
649
What if... I would live in a house accessible with a basketball court?
Temperature Light
18 ËšC 1000 lux
The River 650
Area
131 m2
Volume
394 m3
Footprint
131 m2
Court
89.4 m2
75%
0.6m
0.6
m .6m 0
651
What if... I would live in a house accessible with a basketball court?
Temperature Light
18 ËšC 1000 lux
The River 652
Area
99.7 m2
Volume
300 m3
Footprint
99.7 m2
Court
79.9 m2
100%
0.6m
0.6
m .6m 0
653
MAINFRAME 655 654
The Makers Overview During exercise one, the different scenarios propose different houses based on a transformation of a standard scenario. These different approaches are analysed and put into a ‘housemaker’ that can recreate the previously shown scenarios. Additionally the world is analysed, from this a context should derive which poses constraints for the posed scenarios, hence the ‘contextmaker’. As the different scenarios are combined into the block, an environment of negotiation should be created. This is where the role of the ‘blockmaker’ is introduced.
W World Collector
C Context Maker
B Block Maker
H H H House Maker
What if...? 656
657
Context Maker CONTEXT MAKER
To create an environment for the block to be in, the world data is converted into parameters used as a reference. These parameters can be adjusted to fit a what if scenario.
HOUSE MAKER
The user’s needs are predefined using a standard house and converted into parameters. These will change accordingly to the users desires, defined by the what if scenario.
BLOCK MAKER
The information from the contextmaker and the housemaker are combined and assembled. The blockmaker functions as a forum for the user’s desires to debate corresponding to the constraints given by the context.
658
World City World average
WC
Input
Output Reference City
City /location
RC
Density Diversity Porosity Collectiveness Accesibility What If...?
(y)our City
YC 659
House Maker CONTEXT MAKER
To create an environment for the block to be in, the world data is converted into parameters used as a reference. These parameters can be adjusted to fit a what if scenario.
HOUSE MAKER
The user’s needs are predefined using a standard house and converted into parameters. These will change accordingly to the users desires, defined by the what if scenario.
BLOCK MAKER
The information from the contextmaker and the housemaker are combined and assembled. The blockmaker functions as a forum for the user’s desires to debate corresponding to the constraints given by the context.
660
World House World average
WH
Input User Needs Sleeping area Bathing area Dressing area Cooking area Seating area Storage area Entrance area
Parameters Area Volume Adjacency Light Noise Ventilation Organization typology Ceiling height
What If...?
User Desires Ceiling height Large kitchen Organization typology
Geometry of: Needs Wants Shares
Output Reference House
Parameters Area Volume Adjacency Light Noise Ventilation Organization typology Ceiling height
RH
Geometry of: Needs Wants Shares
(y)our House
YH
Geometry of: Needs Wants Shares
661
Block Maker CONTEXT MAKER
To create an environment for the block to be in, the world data is converted into parameters used as a reference. These parameters can be adjusted to fit a what if scenario.
HOUSE MAKER
The user’s needs are predefined using a standard house and converted into parameters. These will change accordingly to the users desires, defined by the what if scenario.
Input
Input
CM
HM
City /location Density Diversity Porosity Collectiveness Accesibility
BM
Geaometry of: Needs Wants Shares
BLOCK MAKER
The information from the context maker and the house maker are combined and assembled. The block maker functions as a forum for the user’s desires to debate corresponding to the constraints given by the context.
662
Output Arrangement Number of houses acces/pipes
663
Credits
STUDENTS
Floris van der Burght Sietse van Elderen Matteo Faduto Cheuk Ming Cheung Josef Odvรกrka Roman Oost Veerasu Sae-Tae Minck Simonis Boudewijn Thomas Annelot Wartna
TEACHERS
Javier Arpa Fernandez Patrick Janssen Winy Maas Adrien Ravon Arend van Waart
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