dripps + phinney studio | summer 2013
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dripps + phinney studio | summer 2013
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robin dripps
lucia phinney
emily ashby
nick knodt
sarah miller
silvi stefi
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early concepts
water research
field + site
program + concepts
work flow diagrams
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21
35
51
111
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1early concepts
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2 terraced landform unit aggregation
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3strips field strips field
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4 strips field rerouted driveway concept
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5shed site concept
conceptual plan showing connectivity of new structure to existing garden and wa-tershed
conceptual sketches of hurricane house on south site, with towers and tendrils
landform towers
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6 drainage + movement
site plan showing existing drainage paths and conceptual collection basin interven-tions
drainage + intervention
[t] site plan showing water and people movement[b] site plan and section showing potential patterning of drainage pools and occupia-ble space
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7diverted water flow regrading details
site plan of diverted water flow and views after proposed intervention of catchment basins
detail plan of conceptual regrading strate-gy
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8 tower + landform concepts aggregation + module concepts
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9embedded shapes + landform studies case studies | embedded buildings + mounds
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10 case study sketches field + wall studies
case studies with module permutation, ag-gregation, and folded surfaces
[t] spatial modification studies of walls and storage[b] field of bioswales
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11case studies | circulation + spatial organization notes + sketches
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12 reorganizing geometry | exterior + interior structural studies
studies of reorganizing the geometry of the triangulated roof surface to create columns and partitions on the interior
using triangulation as a guide, diagram-ming how the points of the triangles could be transformed into column grids, parti-tions, or volumes on a building interior
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13structural support spatial organization + circulation
diagrams illustrating ways of reducing the column total on the interior of the space by tapering the supports to a single point on the floor or moving all of the columns to the exterior edges
[t] spatial diagram of the shed site with a re-routed driveway and resultant program-matic arrangement of space[b] conceptual diagram for spatial organi-zation based on first identifying circulation patterns and creating pockets of space around the perimeter
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14 embedded building + drainage basins
the first grasshopper definition makes a volume embedded in the landscape. the second definition divides the cut and fill along the curve.
balancing cut + fill along a curve
rhino model of built structure, based on the lines of the existing shed, extending along the driveway and partially embed-ded in the landform. tiered basins along the driveway and down into the northern gully accomodate drainage.
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15cut + lift topography using graphmapper
this definition uses graphmapper in grass-hopper to create a volume embedded in the landscape by lifting one edge profile related to a graph.
the graph can be edited to have several openings, which could serve different func-tions on the site or relate to views.
cut + lift topography using graphmapper
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16 work-flow with meshes in rhino/grasshopper
this definition series tests different work-flows to create openings and towers in meshes. the experiments vary from almost no grasshopper to solely grasshopper.
work-flow with meshes in rhino/grasshopper
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17water flows + existing topography with replacement of new object water flows + removal of landform
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18 flows + openings ground level changing with apertures + flows
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19landform flow lines inhabitation inside flows
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20 land division based on flow lines
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21
water research
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22 aeration swale aggregation studies
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23drainage solution studies design narrative
potential drainage solutions, including wet-land, swale field, and net and pan
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24 drainage field sectional studies spiral space organization | site plan
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25water flow plan swale field | drainage diagrams
studies of bioswale shape and patterning to determine best fit for swale field on the hill-side south of the drive
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26 bioswale research bioswale research
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27keyline swale study keyline swale study
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28 patterns of mounds + swales patterns of mounds + swales
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29patterns of mounds + swales exploration of site
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30 land configuration based on intervention water towers
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31intervention with a water tower generative solar + water tower
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32 thinking of water water + structure
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33system + water swales
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34 stormwater
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35
field + site
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36 contour structure contour structure
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37cartesian grid to landform grid diagramsfield + waterflow
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38 waterflow mesh + early bioswale iterationscartesian grid to landform grid diagrams
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39field of waterflow redirectors waterflow tests + bioswale early iterations
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40 redefined topo as triangulation
plan of existing shed showing topography, drainage, and water collection areas along the driveway and south side of the shed
shed site | drainage
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41drainage plan sketches + notes from team meeting
site plans of existing shed and surrounding site with drainage patterns, major axes and sectional study
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42 drainage strategy | mounds + swales module aggregation
conceptual strategy showing the potential for a bioswale field with a mixture of occu-piable mounds and catchment cups
module aggregation through triangula-tion and 3d form-making [paper model]
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43module studies | modules spatial organization
spatial models based on a triangulated vol-umetric module, combining to form drain-age swales and a berm out of the landform
diagrams to convey circulation through the space and site using orthogonal shapes on the ground plane and triangulation above
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44 sectional studies of inhabited berm landform building + occupation
[t] section studies of inhabited berm, show-ing variation in function across the site[b] circulation diagram of the berm
spatial diagrams and sectional studies showing various way of organizing pro-gram and relating to the existing house and structures
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45landform + building strategy links to the landscape
building strategy derived from existing shed structure and flow lines, embedded in the landform [berm] to create a storage tunnel and living space accessible from both the existing drive and parking court
sectional studies and plan diagrams illus-trating how the conceptual building could connect to the landscape through triangu-lation
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46 boxes located on a curve relating to pond and ridge merge boxes to landscape
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47embed space as landform
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48 spatial operations path through grid
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49sectional operations | rotation + seams
studies of bioswale shape and patterning to determine best fit for swale field on the hill-side south of the drive
studies of reorganizing the geometry of the triangulated roof surface to create columns and partitions on the interior
box aggregation iteration using grids
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50 box aggregation iteration using grids
diagrams to convey circulation through the space and site using orthogonal shapes on the ground plane and triangulation above
structure + panel field
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51
program + concepts
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52 program sketch
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53concept sketch concept sketch
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54 early concept sketch sketch plan
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55sketch plan sketch axonometric
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56 sketch axonometric sketch perspective
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57structure axonometric axonometric renderings
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58
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59
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60
work court
courtyardfabricationstudio
storage
studioapartment
garden storage
terrace
parking and garden court
balcony
terrace
plank roadtree buer
program derivation diagrams
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61exploded axonometric
planted and occupiable roof
eld of bioswales, meadows,and retention ponds
ribbed structure
garden storage and courtyard
studio apartment
general storage
fabrication studio
courtyard
existing structureswork court
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62 circulation
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63water flow program + circulation
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64 site analysis
sitecontours
structuremesh
programdrainage
accessible bermleveled berm
contours + mesh | existing topography re-graded, building up the sloped area of the existing grade to a level point [ ] creating an occupi-able space entirely built into the landform
contours + mesh | existing topography re-graded, building up the sloped area of the existing grade into a secondary berm, creating an occupiable space accessible from both the drive and private garden [ ] while retaining a connection to the land
program
routes
views
site as structure | contours create a structured base for guiding drainage on the site, with notable topographic features being the occupiable berm hurricane house and secondary berm to direct water ow around the garden
cross sections indicate the relationship between hurricane house and landform, with the connection centering on the garden and radiating out to the larger landscape
structural members describe the shape of the habitable landform
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65connectivity
sitecontours
structuremesh
programdrainage
accessible bermleveled berm
contours + mesh | existing topography re-graded, building up the sloped area of the existing grade to a level point [ ] creating an occupi-able space entirely built into the landform
contours + mesh | existing topography re-graded, building up the sloped area of the existing grade into a secondary berm, creating an occupiable space accessible from both the drive and private garden [ ] while retaining a connection to the land
program
routes
views
site as structure | contours create a structured base for guiding drainage on the site, with notable topographic features being the occupiable berm hurricane house and secondary berm to direct water ow around the garden
cross sections indicate the relationship between hurricane house and landform, with the connection centering on the garden and radiating out to the larger landscape
structural members describe the shape of the habitable landform
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66 zones of habitation
1
2
3
45678
9
1 panelized roof structure 3x3 triangular panels [glass + solar collector + green roof + fabric]2 greenhouse + garden storage thickened wall of storage for garden tools3 storage divided open space with partition walls4 shaded outdoor area outdoor area between live/work + storage areas, covered with shade fabric panels5 sleeping area / studio apartment loft6 parking area7 studio work space open room divided by staircase + enclosed room, thickened wall of storage8 garage garage made accessible for parking cars9 work court + parking court
private garden protected by berm experimental planting area / overow parking
entry
storage
studio
bathroom
fabrication
storage
bedroom
outdoor areastorage
greenhouse
work
store
1
store
live
store
2
step 0
step 1
step 2
step 3
step 4
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67program
1
2
3
45678
9
1 panelized roof structure 3x3 triangular panels [glass + solar collector + green roof + fabric]2 greenhouse + garden storage thickened wall of storage for garden tools3 storage divided open space with partition walls4 shaded outdoor area outdoor area between live/work + storage areas, covered with shade fabric panels5 sleeping area / studio apartment loft6 parking area7 studio work space open room divided by staircase + enclosed room, thickened wall of storage8 garage garage made accessible for parking cars9 work court + parking court
private garden protected by berm experimental planting area / overow parking
entry
storage
studio
bathroom
fabrication
storage
bedroom
outdoor areastorage
greenhouse
work
store
1
store
live
store
2
step 0
step 1
step 2
step 3
step 4
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68 panelization + structure extrusion
structure
panelization 1 fabric 2 light 3 earth
1
2
3
panelization + materiality | earth _ the occupiable berm is a product of landform building, thus much of the roof surface is earthen [constructed of interchangeable green roof panels] providing insulation and temperature regulation
light _ given that the berm is an landform condition, light to the subterranean workspaces is limited leading to the need for a mixture of sky light and solar collector panels for sunlight and heat absorption
fabric _ portions of the accessible berm are semi-enclosed outdoor spaces, protected by shade fabric panels
fabric
light
earth
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69materiality
structure
panelization 1 fabric 2 light 3 earth
1
2
3
panelization + materiality | earth _ the occupiable berm is a product of landform building, thus much of the roof surface is earthen [constructed of interchangeable green roof panels] providing insulation and temperature regulation
light _ given that the berm is an landform condition, light to the subterranean workspaces is limited leading to the need for a mixture of sky light and solar collector panels for sunlight and heat absorption
fabric _ portions of the accessible berm are semi-enclosed outdoor spaces, protected by shade fabric panels
fabric
light
earth
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70 concept rendering
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71merging house grid with topography sectional studies
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72 merging two systems through heat chimney heat chimney mediating systems
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73sectional system mediation
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74 field study + topographic grid division
AB
1234
AB a
b
intersection of original topography with constructed mounds and swales
smoothed mesh to mimic erosion over time
nd an area of topographic lines at a set distance z by intersecting a series of planes with the surface
divide the lines by length and connect correlating points to form a new topographic grid
nd intersections with topography and divide the length to form a new topographic grid
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75field study + topographic grid division
AB
1234
AB a
b
intersection of original topography with constructed mounds and swales
smoothed mesh to mimic erosion over time
nd an area of topographic lines at a set distance z by intersecting a series of planes with the surface
divide the lines by length and connect correlating points to form a new topographic grid
nd intersections with topography and divide the length to form a new topographic grid
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76 intersecting grids to inhabit landform
intersect grid with topography
trim edges emerging from topographylift topography to inhabit landform
extend existing grid module
trim edges along extisting grid
grid becomes structure, scaold, and partition
catchment basin
berm
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77intersecting grids to inhabit landform
intersect grid with topography
trim edges emerging from topographylift topography to inhabit landform
extend existing grid module
trim edges along extisting grid
grid becomes structure, scaold, and partition
catchment basin
berm
intersect grid with topography
trim edges emerging from topographylift topography to inhabit landform
extend existing grid module
trim edges along extisting grid
grid becomes structure, scaold, and partition
catchment basin
berm
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78 programmatic connections
greenhouse
studio apartment
storage: tractor
storage: studio apartment
storage: garden tools
circulation determines ground plane
extrude volumes from roof introduce transparency
studio work court
rooftop garden
garden prep space
indoor
outdoor
earthskylight
shade fabricvines
south-facingnorth-facing
N
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79panel materiality determined by solar orientation
greenhouse
studio apartment
storage: tractor
storage: studio apartment
storage: garden tools
circulation determines ground plane
extrude volumes from roof introduce transparency
studio work court
rooftop garden
garden prep space
indoor
outdoor
earthskylight
shade fabricvines
south-facingnorth-facing
N
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80 continuity of inhabitable landform
AB
a b
c
a
b
c
A
B
N
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81relationship to land through views
AB
a b
c
a
b
c
A
B
N
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82 topographic logic
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83topographic logic + connectivity
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84 aggregation
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85logic system
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86 site geometry
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87roof logic
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88 roof configuration
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89structural logic
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90 intersection of roof + structural logic
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91intervention in the landform
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92 topographic configuration based on triangulation
landform derived by triangulation conguration
Intersection of triangulation vertices with existing topographic contours
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93formation of aggregation based on topographic logics
aggregation formation based on connection points
extrusion of roof structure based on topographic system
vertical extrusion of connection vertices
vertical extrusion of connection vertices
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94 connectivity of existing + generated grids
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95
storage
circulation and spatial division based on generated grid
greenhouse
garden food preparation
studio
gardenprivate living space
courtyard and fabrication
programmatic + circulation configuration based on grid modular logic
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96
Points derived from the intersection of generated grid and topographic contours
roof configuration based on existing organic landform + generated structural logic
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97configuration of spatial qualities + structural system based on gridded logic
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98 structure manipulation based on grid system + landform
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99structure generated by existing topographic logic + modular system
Structure generated by existing topographic logic and modular systems
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100 curve relates axis to dam with the driveway
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101points selected close to the curve
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102 points lifted proportionally to distance from curve
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103roof modules for new landform
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104 roof rotated for view to the mountains
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105waffle roof structure
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106 southwest facing vine wall
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107terraced axial decks
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108 topographic connection to studio
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109garden courtyard with vine walls
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110 topographic context
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111
work flow
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112
diagramming
sketching
research
modeling
site visit
grasshopper
rhino
group work
solo work
early research
early concepts
nick knodt | workow
water research
site analysis and eld condition
program and concepts
early research early concepts
water research
site analysis and eld condition
program and concepts
sarah miller | workow
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113
diagramming
sketching
research
modeling
site visit
grasshopper
rhino
group work
solo work
early research
early concepts
nick knodt | workow
water research
site analysis and eld condition
program and concepts
early research early concepts
water research
site analysis and eld condition
program and concepts
sarah miller | workow
-
114
early research
programs and concepts
early concepts
water research
site analysis and eld condition
emily ashby | workow
early research
early concepts
program and concepts
water research
site analysis and eld conditionsilvi ste | workow
-
115
early research
programs and concepts
early concepts
water research
site analysis and eld condition
emily ashby | workow
early research
early concepts
program and concepts
water research
site analysis and eld conditionsilvi ste | workow
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