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Chang Ting Fu is a designer in the field of Architecture, and urban planning, recently completing studies of MA Landscape Urbanism at the Architectural Association, London. The thesis " Littoral Negotiations" concerned about sedimentation as landscape scale machine to manufacture ground in between land and sea, with disciplinary and metabolism consideration to the contemporary society. Previously work in Taiwan, Ting Fu mainly engaged in Facade design for residential tower and a landscape renovation project for Taiwanese Tobacco and Liquid company in Fieldoffice Architects. In the gap year before AA, ran a personal studio for commercial facade design and 3D model rendering.
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Portfolio |Chang Ting Fu2006-2015 academic+professional work
Chang Ting Fu / CV
nationality: TaiwanLanguage: fluent Englsih, MandarinEmail: [email protected]
Chang Ting Fu is a designer in the field of architecture, and urban planning, recently completing studies of Ma Landscape urbanism at the architectural association, London. The thesis " Littoral negotiations" concerned about sedimentation as landscape scale machine to manufacture ground in between land and sea, with disciplinary and metabolism consideration to the contemporary society. Previously work in Taiwan, Ting Fu mainly engaged in Facade design for residential tower and a landscape renovation project for Taiwanese Tobacco and Liquid company in Fieldoffice architects. in the gap year before aa, ran a personal studio for commercial facade design and 3D model rendering.
QuLaiFiCaTionS2014-2015| Ma Landscape urbanism, architectural assoication school of architectural, London2005~2009|Bachelor of Science in architecture, national Cheng Kung university,Taiwan
ExPEriEnCE2013~2014| Personal Studio,Taiwan
3D Model rendering, Façade Design
2011~2013| Project Designer,TaiwanChou Wen-pin architects & Lu Chia-lung architects, Taiwanreal Estate design development and site supervisor
2009~2010| Fieldoffice architects,Taiwan TLL’s architecture and landscape reservation
2010~2011| Military Services,2010Corporal
inTErn2009,Summer| EDS group.School schematic design for Sichuan earthquake arearesidential space schematic design
2008, Summer| Keystone architectsSchool schematic design
LEaDErShiP2008~2009| Chief-Coordinator of graduation design exhibition,nCKu2007~2008| President of Lecture Club in architecture Dep,nCKu2005~2006| President of art Club,nCKu
TEChniCaL SKiLLSCoding: grasshopper, Python 2D graphic: autoCaD, indesign, illustrator, Photoshop3D Modelling : rhino, Sketchup rendering: 3D max , V-rayMapping: arcgiS, arcgiS online, MapboxFlim editing: Primiere, Moviemaker
inTErnaTionaL aCTiViTiES2004/2005| representative of art Club to Kazanawa,Japan2008|international Cinemetrics workshop
ExhiBiTion2015|aa project review Landscape urbanism 2009|graduation Design Exhibition,20092007|Painting,Sculpture Joint exhibition of Chang Ting Fu, Su Tzu Ching
rEFErEES alfredo ramirez, Director of aa landscape urbanism & ground labemail: [email protected] rico, Director of aa landscape urbanism & Senior Engineer, arup,Londonemail:[email protected]
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the invasion of captialismThe drawing presents the situation of west-Mediterranean sea on economcial and political development and consequent
TLL's Architecture & Landscape Renovation
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Location: Yilan,Taiwan
PoSition: Project Designer
ParticiPantS:architect: Sheng-yuan huang
Project Manager: Tsung-hung Pai
Project Designer: Yao-ting WuTing-fu Chang
Masterplan has done by former designers and architects.
SkiLL &taSkS:Schematic Development Design DevelopmentConstruction Documentissued for Permitissued for ConstructionPhsical Modelling:1/100 and 1/50 modelDetail DesignSite Supervisor
WebSite:http://frezzingman.wix.com/chang-ting-fu
wine's regeneraTion2009-2010
urbanLandScaPerenovation
Fieldoffice Architects
This project is a transformation project, which from an old factory to be a local park and art center for the city area. My duty in this project started from schematic design, detail design to the construction and supervision. i also explored my ability not only on modeling and material but also my imagination from the concept to the reality.
Master Planning The master-plan of this project is trying not only revive a half abandon wine factory but also provide a chance to create a green shadow, continuing the green avenue from the local train station to the river. [1.1 green shadow path in Yilan city]
Schematic planour goal was to convince the TTL company that rather than being an isolated and close factory, open space can bring more benefits for wine factory whether at social, educational or commercial. and to open a gate on the old factory wall also established a milestone for the factory.
Design StrategyThe shade system adopts the burning sun and heavy rain environment, providing a shadow area and forming as a guideline for tourism.[1.2 tube guideline and shade system] We also proposed an alternative use of the old manufactured house, to be the stand food market and exhibition room. on the other hand, the eccentric space of the old house which stands for local industrialization after WWii survives from demolishing.
green shadow path in Yilan citY [1.1]
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tube guideline and canopy [1.2]
schematic model 1/100 [1.3]
Material StudyThe design work process operated by the physical modeling mainly rather than only on drawing. From 1/500 model of planning to 1/100 model of factory plan [1.3 schematic model 1/100]and to the 1/50 model of detail study, the material designed directly on the model to test the harmony and the joint part. hence, the model is not only a studying process but also represents our the idea of space, material, and color plan.
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The collage practice presents an imagination for our client which merged the schematic model and site photo together. The collage also brings us some poetic imagination. In a section in the Invisible city, mentions a forest of pipes that end in taps, showers, spouts, overflows. It was built before the bricklayer begin, etc.
collage practice [1.4]
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site plan [1.5]
The plan Shows the layout of pipe truss, penetrating through several buildings to the end of the factory and connecting green space to the factory houses and stores.1F plan1. Fermentation room2. Gift shop3. Introduction of wine4.Gate5. Coffee house6. History of factory (Previous design work)7.Wedding ceremony restaurant8.Wine store
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steel manufacture drawing[1.7]
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construction study model street furniture & canopY studY model 1/50[1.6]
The truss frame is complex work process. The tubes connect one column to the others in different position. The hand-made study model[1.6 construction study model] developed in detail by several draft models. By module and random element, the structure became complex and organic. Think back and forth to sure the function and variation of it. also, the 3D operation easier to understand and organize tube in space.
joint of tube[1.8]
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3d model adjustment[1.10]Discussion drawing for the steel manufactory
ConSTruCTIon STuDy MoDel 1/50[1.7]
Adjustment study of structure[1.10]With the low-tech draft model, the structure can be studied further by the mechanic engineer. For an experienced structural engineer, the model functions as the real structure to present its weakness or strength.on manufacture plan of the 3D model, examined the joint and quantity in further from both aesthetics point and mechanic point: 1.To enforce construction design. 2. To adjust design work.
finished steel construction[1.9]
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FInISHeD CanoPy anD Tube TruSS[1.11]
THe FrInGe DeSIGn oF brICk raMP [1.12]
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THe FrInGe DeSIGn oF PlanT Hole[1.13]The fringe of plant hole formed as the vegetation penetrated the pavement to the sky. The green as a symbol of newborn, which presents that the factory has a new generation from the local community.
Location: Taipei, Taiwan
ParticiPantS:architect:Chia-lung Lu Project designer:Ting-fu Chang
creditS:Project designer
SkiLL &taSkS:Land Evaluation Phsical ModellingSchematic Development Design DevelopmentConstruction Documentissued for PermitSketchup Modeling3D Max renderingadobe SuiteSupervisor
WebSite:http://frezzingman.wix.com/chang-ting-fu
real esTaTe ProjeCTs 2011-2013
reSidentiaL
Between 2011-2013, Ting Fu served in the architect firm where we focus on real estate/ residential building tower mainly. The process is from the land evaluation, floor area calculation, to the schematic design, detail design, facade rendering,and to the issued of permit and supervision.
Schematic development[2.1] The sketch process makes sure the logic and basic proposal. Furthermore, 3D modeling help to evaluate the possible scenario and to analyze the advantages and disadvantages. Modeling is to express the relationship between elements. The model is not necessary too real but to form a target we can pursue and be persuasive to the clients. The skill of modeling advanced in aa study. grasshopper made the logic thinking process smoothly and more sophisticated for applications.
Apartment block in Neihu district[2.2]This project was a small trapezoid space with four small flat units on each floor. The shade system not only covers the private space but also covers the sundry clothing when people live in. however, there is no intention to make any pattern, however, the pattern of shade system is customized,marking the living track and varying the pattern of usage.
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Chou Wen-pin architects & Lu Chia-lung architects
schematic development [2.1]
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apartment block in neihu districtt [2.2]
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ApArtment block in neihu district[[2.3]
We used the concept of a breathing organism to link the public spaces with the private spaces and integrate the building as a whole, and to help control environmental factors such as heat, wind and humidity.
explosion map of apartment block[[2.4] air circulation [[2.5]
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apartment and garden on hill[2.1]
The garden/ retaining wall project broke the 7 meters height retaining wall into scatters, within minimum visual impact and as a supporting structure for the sidewalk adjacent.
apartment on hill[2.6]Site supervision and detail design
retaining wall and adjacent garden[2.1]
Location: Taipei, Taiwan
ParticiPantS:architect:Chia-lung Lu Project designer:Ting-fu Chang
creditS:Project Designer
SkiLL &taSkS:Sketchup Modeling3D Max renderingadobe SuiteautoCaD issued for Permit
WebSite:http://frezzingman.wix.com/chang-ting-fu
FaCade design 2011-2014
reSidentiaL
Chou Wen-pin architect & Lu Chia-lung architect
Personal Studio
Between2011-2013, Ting Fu engaged in Facade Design of residential tower mainly whereas in architect firm or at personal studio. The process started from the floor plan, mass modeling, sketching,3D modeling,to the material study, rendering, and presentation.
Apartment in Neihu district[3.1] is a six stores flats with parking space on the ground level and sky garden on the top. The facade design shows the rhythm of stone and shadow of steel. The detail expression on stone cutting varys with the polishing face and flamed face.
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rendering of apartment in neihu district[3.1]
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rhythm of stone[3.2]The pattern of stone plays the rhythm of stone to form a depth of window and invisible of the column.
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reFleCTIon oF GlaSS[3.4] apartment tower in Taipei
the shade and stone[3.5] apartment in Taipei central
rhYthm of punched-plate[3.3]apartment tower in Taipei
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skY garden [3.6]apartment tower of twins
The expression of glass, metal and stone[3.4,3.5,3.6]These three projects show the different facade design work while adjusting the portion of building mass, figuring the edge
of the balcony and providing shade for private. repetition of patterns is essential of facade design. The pattern creates rhythm, suggesting the logic behind of facade and expression of the building.
reflection of glass [3.7]apartment tower of twins
twin towers[3.8]
Location: Mediterranean,Egypt
tutorS:alfredo ramirezEduardo ricoClara olorizDouglas SpencerTom Smithgustavo romanillosVincenzo realegiancarlo Torpiano
creditS:o n e y e a r g r o u p p r o j e c t undertaken with Liam Mourtiz ans hu xiabin
SkiLL &taSkSgroup WorkCartography Mapping,arcgiSonline Map& MapboxC o a s t a l E v o l u t i o n M o d e l SimulationPython Scriptinggrasshopper Phsical ModellingCnC Frabricationsadobe Suite
WebSitehttp://littoralnegotiatio.wix.com/littroalnegotiation
liTToral negoTiaTions 2014-2015
Architectural Assocaition
This project explores the blurred interface between the land and the sea known as the littoral zone. The very matter from which this condition is constructed is wet sand or sediment. This is the material from which we begin to envision alternative design scenarios for the littoral zone of the Mediterranean Sea.
it is often claimed we live in a new geological era known as the ‘anthropocene’, in which human influences characterize a distinct layer of the geologic record. in this new era, humans have the capacity to hack the environmental processes which govern the form of the earth’s surface. in our case, the processes of interest are those which mould the planets shifting, sedimentary coastal zones.
This Atlas[4.1] documents the sediment movement in both artificial way and nature movement.in the Mediterranean Sea, sediment is in short supply, largely due to the damming of its many rivers.The sediment that does make it the ocean flows via littoral cells along the coast, crossing the borders of 25 different nations and affecting almost half a billion people that live along the Mediterranean Coast[4.2]. This cross-political situation has forced numerous conflicts and cooperation’s, in which any sand extraction or intervention within the coast will invariably have some impact on the downstream region. Despite this, there exists no Mediterranean Scale action plan, framework, or precedents in how to manage sediment, as exists with other important resources and issues such as the management of fisheries, or the management of pollution on a Mediterranean Scale, as dictated by multi-national agreements such as the Barcelona Convention.
Focusing on the erosive littoral zone of Lake Manzala, situated between the mouths of the nile and the Suez Canal, we have begun to envision scenarios of sediment negotiation and redistribution, combining the economic model and strategy, in which land expansion begins to reconfigure new territory.
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conceptual drawing of sediment movemnet [4.1]
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MA
LAG
AM
OT
RIL
ALG
ECIR
AS
HO
RNIL
LOM
AR
MEN
OR
CA
RTA
GEN
A
VA
LEN
CIA
MA
HO
ND
ELT
EBRE
BA
RCA
LON
A
PORT
LEU
CA
TE
MA
RSEI
LLE
VIL
LEFT
RAN
CH
E
MO
NA
CO
RAD
A D
I VA
DO
LA S
PEZI
AV
AD
A
CA
LVI
PORTO SANTA STEFANO
FIUMICINO
MESSINA
GIOIA TAURO
VENICE LAGOON
GRADO AND MARANO
TARANTO
DUBROVNIK
VLORES
KERKINA
PATRI
PIRAEVS
NEON KARLOVAS
GEBZE IZMUT
ISTANBUL
ANTALYA
AL LADHIQIYAH
TARTUS
BAYRUT
SAYDA
HAIFA
ASHDOD
KYRENIA
EL HAMRA
ALEXANDRIA
LAKE BOROLLUS
LAKE MANZALA
PORT SAID
AL-ADABIYA
MISRATAH
AS SIDR
EZ ZUEITINA
BANGHAZI
DARNAH
MERSA TOBRUQ
MERSA MATRUH
MERS EL KEBIR
TENES
COLLO
ANNABA
BANZART
TUNIS
SOUSSE
HOUMT SOUK
MARSA SABRATAH
TANGIER
PORT DAL HORMA
PORT NADOR
GHAZAOUET
BENI SAF
S E D I M E N T AT L A SMEDITERRANEAN SEA
SAND MINING PORT DREDGI N G LAGOON SHIPPING LINES SEDIMENT MOVEMENT WATER CIRCULATION MARITIME BOUNDARY LOCATION DIAGRAM
sediment atlas in the medterranean sea [4.1]
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coastline in mediterranean [4.2]
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GLOBAL SAND RELOCATION
MEDITERRANEAN SEA& THE LITTORAL CELL
SUEZ CANALAS CATALYST
SIMULATIONS & INVESTIGATIONS
COASTAL EVOLUTION MODEL
LAKE MANZALA, EGYPT
NADOR LAGOON, MOROCCO
MAR MENOR LAGOON, SPAIN
RHONE DELTA, FRANCE
EROSION &SILTATION
LAKE MANZALA
FISHERIES PRODUCTION SYSTEM
LAKE MANZALA
CATALOGUE L-SYSTEM
SPIT VARIATIONS
CATALOGUE
VARIATIONS
OF FISHERIES TYPES
WEAVING &
THREADING
PHYSICAL STRUCTURES
POLITICS OF SEDIMENT
LAND-SCRIPT
ATLAS REVISION
CHARTER FOR SEDIMENTS IN THE MEDITERRRANEAN SEA
MEDITERRANEAN SEA
TRANSBOUNDARY SEDIMENT
MOVEMENT
TERRITORIALFORMATION
NILE DELTA NEGOTIATEDTERRITORY
DAMIETTA SPIT
SHIFTING PLAN
TECTONICINTERSECTIONS
CO-OPERATIVE SPIT
FORMATIONS
NEW
RES
EARC
H
absTraCT land-sCripT TransboundarY sedimenT moVemenT
TerriTorial formaTion
negoTiaTed TerriTorY shifTing plan TeCToniC inTerseCTionsWeaVing & Threading - phYsiCal sTruCTures
project chapters[4.4]
method diagram[4.3]
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erosion and silTaTion fisheries produCTion sYsTem
Co-operaTiVe spiT formaTions
ChapTer for sedimenTs in The mediTerranean
GLOBAL SAND RELOCATION
MEDITERRANEAN SEA& THE LITTORAL CELL
SUEZ CANALAS CATALYST
SIMULATIONS & INVESTIGATIONS
COASTAL EVOLUTION MODEL
LAKE MANZALA, EGYPT
NADOR LAGOON, MOROCCO
MAR MENOR LAGOON, SPAIN
RHONE DELTA, FRANCE
EROSION &SILTATION
LAKE MANZALA
FISHERIES PRODUCTION SYSTEM
LAKE MANZALA
CATALOGUE L-SYSTEM
SPIT VARIATIONS
CATALOGUE
VARIATIONS
OF FISHERIES TYPES
WEAVING &
THREADING
PHYSICAL STRUCTURES
POLITICS OF SEDIMENT
LAND-SCRIPT
ATLAS REVISION
CHARTER FOR SEDIMENTS IN THE MEDITERRRANEAN SEA
MEDITERRANEAN SEA
TRANSBOUNDARY SEDIMENT
MOVEMENT
TERRITORIALFORMATION
NILE DELTA NEGOTIATEDTERRITORY
DAMIETTA SPIT
SHIFTING PLAN
TECTONICINTERSECTIONS
CO-OPERATIVE SPIT
FORMATIONS
NEW
RES
EARC
H
Methodology [4.3]and Chapters[4.4]
The project separates into twelve chapters, which mainly uses the map as a powerful tool.The illustration documents the conflicts and questions rising to do with sediment trading,illegal sand mining, and land reclamation.
Land-script shows how does Costal evolution model work to simulation the long-shore drift effect.Transboundary sediment movement documents the sediment data and littoral cell in the Mediterranean Sea. Territorial formation documents the food production system and urbanisation related to shipping and network in nile delta region. Erosion and siltation describe the sand movement in lake Manzala whereas erosion on nile river mouth but shrinking inside the lake due to sedimentation caused by fishery industry operations.
Fishery production system documents the fishery industry development in lake Manzala water area, whereas at the north it’s more intensive and on the southern part, it’s more extensive and illegal operation. Negotiated territory suggests the a sediment bargain system while inland people dredge unnecessary sediment to the coast. This sand supplier as stockholders to share the interest of sediment benefit rather than sell the sand in money.Shifting plan in further suggests the negotiation in a profitable way. The scheme is concluded the whole lake Manzala area, proposing fishery industry should shift from land side to the seaside, from nile riverside to the East side to revive fishery industry and decrease burden of environmental impact.
Techtonic intersection explains the scheme in spit group scale. Those spits grow through time, engaging with the fishery village development and intensified by fishery operation.Weaving and threading physical structure tests the idea of fishery village in single spit scale, whereas suggesting the process of sedimentation and the formation of infrastructure. Cooperative spit formation in advance test physical modelling experience in 3D model which proposes a possible relationship among sedimentation, community and housing development.
Chapter for sediment in the Mediterranean expresses the possible policy when the sediment cross-over of political boundary and the negotiation among littoral cell.
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GEoMorPhoLoGY STuDY
Coastal evolution model[4.5]The following modeling experiments allowed us to comprehend the detailed patterns and created flying spit[4.4], island intervention[4.5] and at the real situation[4.6]. We also use the simulation model to create spit pattern which made by island provoker, pitcher, and catcher system and spit branch and hook.
Nile river mouth spit[4.6] The geomorphology drawing shows the spit formation of nile river mouth forming the Damietta Spit. Beginning in 1700, the spit grew toward the sea and gradually formed the general figure of today’s coastline. after 1960’s, aswan dam blocked the sediment supply which cause the land at the mouth of the river has actually eroded away forming the 10km long spit.
Social formation[4.7]The social formations within Lake Manzala show the fishery production system and land management. The conflicts between different groups of people: First, the government tries to repel some illegal fish farmer to occupy public water area.Second, fish farmers compete with water resource due to the strict policy of fresh water usage. These relationships largely affects the production network whereas the drawing indicates the networks which support the various fisheries types, marking the inputs (blue) which fuel them and the outputs (red), being their food production.
1700
BEFORE1700
1912
1800
1984
1973
1945
1912
1984
1973
1945
1912
17001800
2000
1700 1912 1984 2015
YEAR 0YEAR 2YEAR 4YEAR 6YEAR 8
YEAR 10YEAR 12YEAR 14YEAR 16YEAR 18YEAR 20YEAR 22YEAR 24YEAR 26YEAR 28YEAR 30YEAR 32YEAR 34YEAR 36YEAR 38YEAR 40YEAR 42YEAR 44YEAR 46YEAR 48YEAR 50YEAR 52YEAR 54YEAR 56YEAR 58YEAR 60YEAR 62YEAR 64YEAR 66
YEAR 68YEAR 70
YEAR 72
YEAR 74YEAR 76YEAR 78YEAR 80
YEAR 82
YEAR 84YEAR 86
ADDITIONAL SEDIMENT &INTERVENTIONS
ADDITIONAL SEDIMENT &INTERVENTIONS
ADDITIONAL SEDIMENT &INTERVENTIONS
ADDITIONAL SEDIMENT &INTERVENTIONS
ADDITIONAL SEDIMENT &INTERVENTIONS
YEAR 88
30 KMYEAR 0
45 KM
YEAR 2
YEAR 4
YEAR 6YEAR 8
YEAR 10
YEAR 12YEAR 14
YEAR 16YEAR 18YEAR 20
YEAR 22YEAR 24
YEAR 26
YEAR 28
YEAR 30YEAR 32
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YEAR 40
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YEAR 50
YEAR 52
YEAR 54
YEAR 56
YEAR 58
YEAR 60
YEAR 62
YEAR 64
YEAR 66
YEAR 68
YEAR 70
YEAR 72
INTERVENTIONS
ADDITIONAL SEDIMENT &INTERVENTIONS
ADDITIONAL SEDIMENT &INTERVENTIONS
ADDITIONAL SEDIMENT &INTERVENTIONS
EXISTING WALL
YEAR 0
40 KM
YEAR 3YEAR 6YEAR 9
YEAR 12YEAR 15YEAR 18YEAR 21YEAR 24YEAR 27YEAR 30YEAR 33YEAR 36YEAR 39YEAR 42YEAR 45YEAR 48YEAR 51YEAR 54
YEAR 57YEAR 60YEAR 63YEAR 66YEAR 69YEAR 72
YEAR 75YEAR 78YEAR 81
YEAR 84
YEAR 87
YEAR 90
YEAR 93YEAR 96
YEAR 99YEAR 102YEAR 105
YEAR 108YEAR 111
YEAR 114
YEAR 117YEAR 120
YEAR 123
flYing spit simulation[4.5]
coastal evolution model[4.5]
nile river mouth spit [4.6]
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social formation [4.7]
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shifting plan of fish farming [4.9]
FRESH WATER
BRACKISH WATER
SEA WATER
SEA WATER
BRACKISH WATER
FRESH WATER
HIGHLOW
WATER DISTRIBUTION
EUTROFICATION AREA
LAND BASED INTEGRATED SPECIES
MAIN ECONOMICAL SPECIES
ALGAE CLEANER
LOW VALUE FISH CLEANER
WASTE DECOMPOSER
RIVER DISCHARGE
FISH FEED
Fishery strategy oF lake manzala
The following diagrams show how these different aquaculture strategies could be applied within a spit-lagoon formation in our project. on water quality and species redistribution of lake Manzala [4.8], it represents the strategy of shifting fishery production system toward the sea. and the Shifting plan of fish farming [4.9], it suggests the combination of species could be functional not only to manure other species but also reduce the problem caused by intensive fish farming. For ex-ample, in the lake, herbivorous fish can control the source of eutrophication such as algae and aquatic plants. on the coastal interface, the polyculture and ecosystem approach method could be used taking advantage of the clean sea water. another strategy could be to introduce semi-inten-sive, polyculture breeding and ecosystem approach of aquaculture breeding within the smaller lagoon areas created by the spit
Negotiated territory [4.10] describes a strategy for how sediment might be ne-gotiated within lake Manzala region. as part of the countries need for more land in order to feed itself, the geomorpholog-ical ability of the spit to transport sedi-ment could be tied with the fish farming industry as a mechanism to both control and provoke its growth. This new land-scape formation could be encouraged by the government as a valuable resource for coastal defense while simultaneously im-proving the local economy.
The Cartogenesis panel[4.11] represents one possible scenario of deployment for multiple spit generations in time accord-ing to the conditions found within the Lake Manzala site. having developed a thorough understanding of coastal spit morphology using CEM, we created a log-ic around how the spit could be deployed, using an L-system as a generative tool.
Cartogenesis shows spit shifts in time as a part of shifting plan, both in terms of sediment, but also the human populations may migrate along with it, moving to are-as with greater productivity. The drawing documents the spit growth, with each col-our representing 10-year intervals. This frame becomes a skeleton from which the spit may fatten up with sediment, or if supplies begin to deplete, it may shrink away.
PRESENT
FRESH WATER BRACKISH SEA WATER
PESTICIDE/CHEMICALINDUSTRIAL EMISSION
EXTENSIVEFISH POND
INTENSIVEFISH POND
INTENSIVEFISH POND
WATER CONSUMPTIONPOLLUTION
WATER CONSUMPTIONPOLLUTION
cattle piggrass�ish
duckgrass�ish
duckgrass�ish
duck�ish
FISHSHRIMPOYSTER
AGRICULTURE
SHIFTING TOWARDSEA
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WaTer qualITy anD SPeCIeS reDISTrIbuTIon oF lake mAnzAlA[4.8]
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C A R T O G E N E S I S
10thYEAR
FISHERY CLUSTER
20th YEAR 30th YEAR 40th YEAR 50th YEAR
VILLAGE FISH POND DYKE
POTENTIALSPIT PATH
SPIT SPINFROM SEA
SPIT SPINFROM LAND
WAVE DIRECTION
N E G O T IAT E D T E R R I T O RY
SUEZ CANALSEDIMENT
INNER LAKESEDIMENT
EX-FISH FARMSEDIMENT
ERODED BEACHSEDIMENT
INTENSIVEFISH FARMS
EXTENSIVEFISH FARMS
cartogenesis[4.11]
negotiated terrtroY[4.10]
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SPiT ForMATioNThe Spit Sedimentation model [4.12] explores the larger scale of spit system. The modelled allowed us to consider how the sediment might form over time, consolidating in certain areas adjacent to fish pen walls, forming a terrain suitable for certain industries such as fish farming.potentially, the logic could be scripted into the computer and reapplied testing different scenarios on the larger scale.
Spit bathymetry[4.13] shows the result of sedimentation and reconfigure the new territory of spit. The deep blue line as a division affects the population to settle down and redistribute fish farm.
Fishery production system evolution[4.14] shows with more population move in and people engage in the process of sedimentation. under certain condition, this population forms different level of activity such as fish farm, fish feed factory, fish market and fishery village.
CooPErATivE ForMATioN Fishery village [4.15] shows the scenarios where the system has evolved into a village. This example is one formed of cooperation and collaboration, in which a series of clusters of buildings have developed over time. having begun with a collection of sticks and nets accumulating sediment over time, a shared platform, or podium can be formed between several structures. These in turn form the infrastructure for a communal building or house to emerge. if the density is great enough, a second level could be added, which in turn gives the group the opportunity to remove the lower story and open it up as a shared communal space. These ideas have been developed in part from some of the communities studied in indonesia, such as Bajau sea villages built on stilts.
Fish farm section[4.16] describes the fishery village formation process, which is from sedimentation, profit ownership, bio-farming cooperation and the activities.
SUPPLIERFISH MARKET
FISH FEEDFACTORY
5
10
15
20
35
30
40
45
50
INTENSIVEFISH FARM
SEMI-INTENSIVEFISH FARM
EXTENSIVEFISH FARM
120 hec.
25 hec.
2-10 hec.
<1 hec.
<1 hec.
<1 hec.
FISHERY VILLAGE
PHYSICAL SIZE
INPUTS
TIM
E TA
KEN
TO
EVOL
VE (Y
EARS
)
YEAR 2-4
SEDIMENT ACCUMULATES AROUND STICKS
YEAR 0-2
FISH PENS DEPLOYED ALONG L-SYSTEM
YEAR 4-6
FISH PENS DEVELOP SHARED INFRASTRUCTURE
YEAR 6-8
HARD WALLS ALLOW INTENSIVE PRODUCTION
YEAR 8-10
SEDIMENT DEPLETES CAUSING DEVOLUTION
spit sedimentation[4.12]
spit bathymetry[4.13]
fishery production system evo-lution diagram[4.14]
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fisherY village[4.15]
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fish farm sections[4.16]
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10% INTEREST SUEZ CANAL SEDIMENT
4% INTEREST ERODED BEACH & RIVER SEDIMENT
4% INTEREST INNER LAKE SEDIMENT
80% INTEREST FOR FISH POND
2% INTEREST EX-FISH POND SEDIMENT
7% INTEREST SUEZ CANAL SEDIMENT
5% INTEREST ERODED BEACH & RIVER SEDIMENT
3% INTEREST INNER LAKE SEDIMENT
3% INTEREST EX-FISH POND SEDIMENT
82% INTEREST FOR RECREATION POND
10% INTEREST SUEZ CANAL SEDIMENT
6 % INTEREST ERODED BEACH & RIVER SEDIMENT
3% INTEREST INNER LAKE SEDIMENT
1% INTEREST EX-FISH POND SEDIMENT
80% INTEREST FOR INTENSIVE FISH POND
FISHERY STORAGE
FISH FEED FACTORY
SEMI-INTENSIVE FISH FARM FISH MARKETRESIDENTIAL SPACE
GRASS CARPSARDINE
ALGEA
SEA GRASS
BIGHEAD CARP
SEA BASS
SHRIMP
SEA BREAM
MUSSEL
10% INTEREST SUEZ CANAL SEDIMENT
4% INTEREST ERODED BEACH & RIVER SEDIMENT
4% INTEREST INNER LAKE SEDIMENT
80% INTEREST FOR FISH POND
2% INTEREST EX-FISH POND SEDIMENT
12% INTEREST SUEZ CANAL SEDIMENT
6% INTEREST ERODED BEACH & RIVER
3.5% INTEREST INNER LAKE
3.5% INTEREST EX-FISH POND
75% INTEREST FOR RECREATION
80% INTEREST FOR INTENSIVE FISH
10% INTEREST SUEZ CANAL SEDIMENT
4% INTEREST ERODED BEACH & RIVER SEDIMENT
4% INTEREST INNER LAKE SEDIMENT
2% INTEREST EX-FISH POND SEDIMENT
SEDiMENTATioN ProCESS ProFiT ShAriNG
21% EGYPTIAN GOVERNMENT
SUEZ CANAL SEDIMENT
ERODED BEACH & RIVER SEDIMENT
INNER LAKE SEDIMENT
EX-FISH POND SEDIMENT
9% PRIVATE GROUP
15% EGYPTIAN GOVERNMENT
15% PRIVATE SEDIMENT GROUP
70% FISH FARMER
9% EGYPTIAN GOVERNMENT
21% PRIVATE SEDIMENT GROUP
70% FISH FARMER
70% FISH FARMER
20% EGYPTIAN GOVERNMENT
20% PRIVATE SEDIMENT GROUP
60% RECREATION ACTIVITIES
EXTENSIVE POND: ALGAE FARM
SEMI-INTENSIVE POND:
INTENSIVE POND:
RECREATION POND:
21% EGYPTIAN GOVERNMENT
SUEZ CANAL SEDIMENT
ERODED BEACH & RIVER SEDIMENT
INNER LAKE SEDIMENT
EX-FISH POND SEDIMENT
9% PRIVATE GROUP
15% EGYPTIAN GOVERNMENT
15% PRIVATE SEDIMENT GROUP
70% FISH FARMER
9% EGYPTIAN GOVERNMENT
21% PRIVATE SEDIMENT GROUP
70% FISH FARMER
70% FISH FARMER
20% EGYPTIAN GOVERNMENT
20% PRIVATE SEDIMENT GROUP
60% RECREATION ACTIVITIES
EXTENSIVE POND: ALGAE FARM
SEMI-INTENSIVE POND:
INTENSIVE POND:
RECREATION POND:
21% EGYPTIAN GOVERNMENT
SUEZ CANAL SEDIMENT
ERODED BEACH & RIVER SEDIMENT
INNER LAKE SEDIMENT
EX-FISH POND SEDIMENT
9% PRIVATE GROUP
15% EGYPTIAN GOVERNMENT
15% PRIVATE SEDIMENT GROUP
70% FISH FARMER
9% EGYPTIAN GOVERNMENT
21% PRIVATE SEDIMENT GROUP
70% FISH FARMER
70% FISH FARMER
20% EGYPTIAN GOVERNMENT
20% PRIVATE SEDIMENT GROUP
60% RECREATION ACTIVITIES
EXTENSIVE POND: ALGAE FARM
SEMI-INTENSIVE POND:
INTENSIVE POND:
RECREATION POND:
21% EGYPTIAN GOVERNMENT
SUEZ CANAL SEDIMENT
ERODED BEACH & RIVER SEDIMENT
INNER LAKE SEDIMENT
EX-FISH POND SEDIMENT
9% PRIVATE GROUP
15% EGYPTIAN GOVERNMENT
15% PRIVATE SEDIMENT GROUP
70% FISH FARMER
9% EGYPTIAN GOVERNMENT
21% PRIVATE SEDIMENT GROUP
70% FISH FARMER
70% FISH FARMER
20% EGYPTIAN GOVERNMENT
20% PRIVATE SEDIMENT GROUP
60% RECREATION ACTIVITIES
EXTENSIVE POND: ALGAE FARM
SEMI-INTENSIVE POND:
INTENSIVE POND:
RECREATION POND:
21% EGYPTIAN GOVERNMENT
SUEZ CANAL SEDIMENT
ERODED BEACH & RIVER SEDIMENT
INNER LAKE SEDIMENT
EX-FISH POND SEDIMENT
9% PRIVATE GROUP
15% EGYPTIAN GOVERNMENT
15% PRIVATE SEDIMENT GROUP
70% FISH FARMER
9% EGYPTIAN GOVERNMENT
21% PRIVATE SEDIMENT GROUP
70% FISH FARMER
70% FISH FARMER
20% EGYPTIAN GOVERNMENT
20% PRIVATE SEDIMENT GROUP
60% RECREATION ACTIVITIES
EXTENSIVE POND: ALGAE FARM
SEMI-INTENSIVE POND:
INTENSIVE POND:
RECREATION POND:
We utilize the fish pen to accumulate sediment. The fabric material between stick can slow down the wave's speed and build a shadow area, similar to the effects used of a “turbidity curtain” used in conventional land reclamation. as each layer accumulates in time, the shadow area is increased. a series of sticks and fabric systems gradually gather sand forming an island.
The spit is composed of several different sources of sediment, giving rise to the potential for co-ownerships of the resulting fish ponds. given some supplies of sediment come from the government and others coming from the fish farmers, this might give rise to the potential for shared profit and shared production.
TARGET SHAPE OF SPIT
T1
T2
T3
T4
T5
T6
T7
10% INTEREST SUEZ CANAL SEDIMENT
4% INTEREST ERODED BEACH & RIVER SEDIMENT
4% INTEREST INNER LAKE SEDIMENT
80% INTEREST FOR FISH POND
2% INTEREST EX-FISH POND SEDIMENT
7% INTEREST SUEZ CANAL SEDIMENT
5% INTEREST ERODED BEACH & RIVER SEDIMENT
3% INTEREST INNER LAKE SEDIMENT
3% INTEREST EX-FISH POND SEDIMENT
82% INTEREST FOR RECREATION POND
10% INTEREST SUEZ CANAL SEDIMENT
6 % INTEREST ERODED BEACH & RIVER SEDIMENT
3% INTEREST INNER LAKE SEDIMENT
1% INTEREST EX-FISH POND SEDIMENT
80% INTEREST FOR INTENSIVE FISH POND
FISHERY STORAGE
FISH FEED FACTORY
SEMI-INTENSIVE FISH FARM FISH MARKETRESIDENTIAL SPACE
GRASS CARPSARDINE
ALGEA
SEA GRASS
BIGHEAD CARP
SEA BASS
SHRIMP
SEA BREAM
MUSSEL
10% INTEREST SUEZ CANAL SEDIMENT
4% INTEREST ERODED BEACH & RIVER SEDIMENT
4% INTEREST INNER LAKE SEDIMENT
80% INTEREST FOR FISH POND
2% INTEREST EX-FISH POND SEDIMENT
12% INTEREST SUEZ CANAL SEDIMENT
6% INTEREST ERODED BEACH & RIVER
3.5% INTEREST INNER LAKE
3.5% INTEREST EX-FISH POND
75% INTEREST FOR RECREATION
80% INTEREST FOR INTENSIVE FISH
10% INTEREST SUEZ CANAL SEDIMENT
4% INTEREST ERODED BEACH & RIVER SEDIMENT
4% INTEREST INNER LAKE SEDIMENT
2% INTEREST EX-FISH POND SEDIMENT
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10% INTEREST SUEZ CANAL SEDIMENT
4% INTEREST ERODED BEACH & RIVER SEDIMENT
4% INTEREST INNER LAKE SEDIMENT
80% INTEREST FOR FISH POND
2% INTEREST EX-FISH POND SEDIMENT
7% INTEREST SUEZ CANAL SEDIMENT
5% INTEREST ERODED BEACH & RIVER SEDIMENT
3% INTEREST INNER LAKE SEDIMENT
3% INTEREST EX-FISH POND SEDIMENT
82% INTEREST FOR RECREATION POND
10% INTEREST SUEZ CANAL SEDIMENT
6 % INTEREST ERODED BEACH & RIVER SEDIMENT
3% INTEREST INNER LAKE SEDIMENT
1% INTEREST EX-FISH POND SEDIMENT
80% INTEREST FOR INTENSIVE FISH POND
FISHERY STORAGE
FISH FEED FACTORY
SEMI-INTENSIVE FISH FARM FISH MARKETRESIDENTIAL SPACE
GRASS CARPSARDINE
ALGEA
SEA GRASS
BIGHEAD CARP
SEA BASS
SHRIMP
SEA BREAM
MUSSEL
10% INTEREST SUEZ CANAL SEDIMENT
4% INTEREST ERODED BEACH & RIVER SEDIMENT
4% INTEREST INNER LAKE SEDIMENT
80% INTEREST FOR FISH POND
2% INTEREST EX-FISH POND SEDIMENT
12% INTEREST SUEZ CANAL SEDIMENT
6% INTEREST ERODED BEACH & RIVER
3.5% INTEREST INNER LAKE
3.5% INTEREST EX-FISH POND
75% INTEREST FOR RECREATION
80% INTEREST FOR INTENSIVE FISH
10% INTEREST SUEZ CANAL SEDIMENT
4% INTEREST ERODED BEACH & RIVER SEDIMENT
4% INTEREST INNER LAKE SEDIMENT
2% INTEREST EX-FISH POND SEDIMENT
ALGAE FArMFroM FiSh PoND To viLLAGE
STORAGE ROOM
BUILDING MATERIAL
FISH NET STRUCTURE
FISH FEED MIXER
FISH FEED INGREDIENTS
FISH DRYING
RESIDENTIAL UNIT
COMMUNITY CENTER
HOUSING CLUSTER
FISH MARKETFISHERY PORT
WHOLESALE MARKET
low value fish
bio FiLTEr
SHELL FISH
DUNG
ALGAE FiSh FEED
phytoplankton
hErbivorES FiSh FArM
CArNivorES /oMNivorESFiSh FArM
CArNivorES FiSh FArM
clam life cycle
The evolution of fish pond transitions from more extensive fish production to more intensive fish production. Each production system can assist each other. although the extensive system produces less fish, it serves more of an ecological function, filtering water and decreasing eutrophication similar to the Veta La Palma example we studied earlier. The diagrams document the evolution of the spit from a simple storage facility to fish feed, housing cluster to fish port market and finally a village evolved beyond fish farming uses.
Location: Taipei, Taiwan
tutor:Yuchang Liang
creditS:graduation project summited by individual
SkiLL &taSkS:Cartography Mapping Phsical ModellingSketchup ModelingautoCaDadobe Suite
WebSitehttp://frezzingman.wix.com/chang-ting-fu
homeless& reverse-2009
National Cheng Kung University
About the title[5.2]This project is by recycling to rebuild a relationship between the citizen and the homeless people. The concept of recycling is “ The shorter path for recycling, the more efficiency they get”. in this exchanging system, these drifters are delivery, collecting recycling material to exchange living resource[5.1] as food, clothing and hot bath. Through this process, homeless people not also are being the agent but also surviving in the system.This project also aims to decrease the discriminations among different groups of people.By second hand exchanging and providing basic facilities for homeless. By this, they can get rid of the notorious name, however, they create some benefit for this society. history of drifters and vendors[5.3] shows the flourishing time of Wan hua after 1950. it provided major commercial harbor and modernize Taipei city. Drifters gathered here for jobs as shipping porter The Long-Shan Temple, was popular visiting place and attracted vendors to settle down.retrospectively, drifters and stand vendors grew with Wan hua’s economy.
The recycling system[5.4] drive from three groups of people.red stands for general consumption, from citizen and exhausting producers.Blue means delivery, collecting and carrying recycling into the system.green people are the consumers, which means to buy or reuse green resources. hence, the groups of people compose the recycling system for this local recycling circulation.
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urbanrecycLinginfraStructure
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recycle circulation in Long-Shan temple area
living resource in longshan area[5.1]
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recycling system in the pArk[5.2]
histroY of drifters and vendors[5.3]
The bath[5.5] follows the recycling path and forms a bath-island independent to space of the sunken plaza. The recycle path, flea market, and pathway tangle around sunken. The corridor provides the temporary shelter from burning sun or chilly wind.
The layout [5.6]of new recycling park, rearranges a plaza facing Longshan temple, connecting the wet market and night market.
recycling path[5.7]The map shows the context in Wan hua area, which potentially forms several recycling paths.Food recycling collects leftovers from offerings, vendors, and traditional markets. in this system, waste food can largely reduce and become energy for needy. The heat from parking and underground can be transfer into bath water. Vintage and clothing commonly abounded in the surroudning area.hence, this system converts the useless resource becoming useful. With management of recycling current, the system can be independent of government or foundation financial support. be independent from government or foundation financial support.
recYcling sYstem in section[5.4]
bath place[5.5]
birdview of recYcling park[5.6]
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recYcling path[5.7]
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This project is a transformation of hill park into a visualizing sunken plaza where reorganizing a public space to different groups of people, based on their characteristic and custom.
imagination of territoryThe topology drawing by Mitsumasa anno [6.1] The elves occupied on each corner of drawing, however, they are independent and situated in different events, which reminds me the situation in the park.
Territory in terrains a bowl-shape plaza[6.2,6.3,6.4], organized by several small sunken space around the basin space. Earth replaces with the empty parking bays in the first underground floor, planting trees and forming terrains with remnant structure. hence, people are easy to establish their territory by inside, half inside and outside of the frame When people sit in small sunken[6.5,6.6], they only see trees and sky around them. Children can have a secret place to play, and gamblers can ignore others and enjoy their game. it seems like the terrain separate people, on the other hand, people on the bridge watch all corners clearly. Therefore, it forms a relationship between supervisors and people beneath them, keeping safe with a transparent view.
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LandScaPeterritory
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hide and seek-2009
National Cheng Kung Universitythe secrete space in citt park
Location: Tainan, Taiwan
tutor:Yuchang Liang
creditS:individualdesign Practice
SkiLL &taSkS:Cartography Mapping Phsical Modellingadobe Suite
WebSite:http://frezzingman.wix.com/chang-ting-fu
analYsis drawing of mitsumasa anno[6.1]
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a bowl-shape plaza[6.2]
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sunken palaza in rendering[6.3]
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sunken palaza in section[6.4]
The terrain and the remnant structure provide a landscape boundary for park user who can hide in a secret place While the people who on the skywalk as the spy to monitor the park. The visible and the invisible balance in people's activities.
in musician house, the building material and space tangle as the singing group in the choir. one material will outstand somewhere when it comes to solo, and merges with other parts whereas the harmony. Based on the logic of choir singing group, different material which standard for the unique characteristic as the soprano, alto, tenor, bass in a movement as we organize these materials in space.Every space has unique property, such as open to outdoor or indoor, soft or hard sense of texture. This project is more like to compose notes in space to form daily life belongs to a musician. The unfolding plan[7.2] expresses the idea of the singing group in detail. indoor pathway, timber path forms a semi-outdoor space between interior and exterior. on the south face, the corridor is broadened with the vision of waterscape. on the other hand, it is narrow with space and garden area. Private space includes a master room, a parents' room and a studio in the ground floor, and children's room in the first floor. Concrete forms as a linear space climbing on and tangling with the open space.
The material in section[7.1] shows the combination of material in further, shade material blur the exterior to be semi-indoor and stone-made corridor ends with grass field. Plant shadows grow on the bamboo structure, forming a double skin for residential space, which is essential for housing in the south Taiwan. Especially, in brick and stone structure, heat releases for hours after sunset.
The whole project organized the circulation as a composition.at each turn, the rhyme changes its characteristic like a change from a movement to another. it presents not merely harmoniously, but also rhythmically with the residential environment.
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reSidentiaL
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Chorus: Tangle & TwisT -2006
National Cheng Kung Universitymusician’s house
Location: Tainan, Taiwan
tutor:Cheng-Luen hsueh
creditS:individualdesign Practice
SkiLL &taSkS:3D modellingPhsical modellingadobe suite
WebSite:http://frezzingman.wix.com/chang-ting-fu
material in section[7.1]
Sunken Palaza In renDerInG[6.4]
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GREEN
OUTDOORPATH
INDOORPATH
PRIVATESPCE
OPENSPCE
SHADESPCE
TIMBER CONCRETE STONE BAMBOO CLIMBER
unfolding plan[7.2]
Portfolio |Chang Ting Fu2006-2015 academic+professional work