key design parameters towards urban resilience - insights
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2016/5/11
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Key design parameters towards urban resilience
- Insights into the transforming city of Tainan
Yi-Chang Chiang
Department of Architecture and Urban Design Chinese Culture University, Taiwan
Yi-Chuang Huang
Department of Landscape Architecture and Horticulture, National Taiwan University
Chia-Lung Wu
Department of Architecture and Urban Design Chinese Culture University, Taiwan
4TH INTERNATIONAL CLIMATE CHANGE ADAPTATION CONFERENCE. ROTTERDAM, NETHERLANDS, 10-13 MAY 2016
Outline
1. Background
2. Method
3. Result
4. Discussion
5. Conclusion
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1. Background
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Tainan City Government
China Town
Chungcheng Road
Hai'an Rd
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1. Background
China Town
Hai'an Rd West Central Dist
Tainan City, Taiwn
Chungcheng Road
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1. Background
Won First place
The Urbanists Collaborative + MVRDV
Design By The Urbanists Collaborative and Dutch MVRDV
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2. Method
Get & Manage Information
Analyze & Assess Information
Create or Recreate
Manage Geo-Spatial Information
Analyze Geo-Spatial Information
Geo-Spatial Design
“Geodesign”
Data Analysis Design
GIS
Technology
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Data
Collection Flood Risk City Model Key design
parameters
2. Method
STEP 1 STEP 2 STEP 3 STEP 4
Design Data Analysis Evaluate
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Data collection STEP 1
3. Result
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1Day, Rain 300mm
1Day, Rain 450mm
1Day, Rain 600mm
Flood Potential Flood Risk STEP 2
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Sea Level 0 +2M
Sea Level 0 +4M
Sea Level 0 +6M
DEM
Sea Level 0 +2M
Flood Risk STEP 2
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Buffer Analysis Flood Risk STEP 2
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1.Input Parcel
2.Input road
City Model STEP 3
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3.Input River &Green Space 4.Input DEM
City Model STEP 3
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5.Rule-base Modeling
Rule & Rule Editor Design Window Parameters
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Key Design Parameters STEP 4
3.Flood Potential
2.DEM
1.River Buffer
Flood Impact
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1.River Buffer 2.DEM 3.Flood Potential Flood Impact
Raster Calculation
STEP 4 Key Design Parameters
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Flood Impact 0m Flood Impact 0.5m Flood Impact 1.0m Flood Impact 1.5m
STEP 4
F Flood
B Building
Land L
BUILDING+0.0公尺 BUILDING+1.5公尺 BUILDING+3.0公尺 BUILDING+4.5公尺
Route+0.0公尺
Key Design Parameters
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Design parameters Building- Floor Hight
STEP 4 Key Design Parameters
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Design parameters Green Space design
STEP 4 Key Design Parameters
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Green Space design
STEP 4 Key Design Parameters
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4. Discussion
Design By The Urbanists Collaborative and Dutch MVRDV
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5. Conclusion
Co-Design Platform
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Thanks for your attention
4TH INTERNATIONAL CLIMATE CHANGE ADAPTATION CONFERENCE. ROTTERDAM, NETHERLANDS, 10-13 MAY 2016
Chia-Lung Wu
Department of Architecture and Urban Design Chinese Culture University, Taiwan
E-MAIL:MARCW2205@GMAIL.COM
References Adger, W.N., 2009: Are there social limits to adaptation to climate change? climate change 93, pp. 335-354.
Barnett, J., O’Neill, S., 2010: Maladaptation. Global Environmental Change 20, pp. 211-213.
Chiang, Y.C., Tsai, F.F., Chang, H.P., Chen, C.F., Huang, Y.C., 2014: Adaptive society in a changing environment: Insight into the social resilience of a rural region of Taiwan. Land Use .
Cutter, S., 2003: Social vulnerability to environmental hazards 84. Social Science Quarterly, pp. 242-261.
Dangermond, J., 2009: GIS: Designing Our Future. ArcNews.
Engle, N.L., 2011: Adaptive capacity and its assessment. Global Environmental Change 21, pp. 647–656.
Grove J.M., Roy C.R., Childers D., 2015: Co-Design, Co-Production, and Dissemination of Social-Ecological Knowledge to Promote Sustainability and Resilience: Urban Experiences from the U.S. Long Term Ecological Research(LTER) Network. GLP News.
Wheeler, C., 2010: Designing geodesign. ArcUser Spring 2010. http://www.esri.com/news/arcuser/0410/files/geodesign.pdf (accessed 2015.10.10)
MVRDV unveils plans for sunken lagoon park in Taiwan_dezeen magazine
http://www.dezeen.com/2015/11/13/mvrdv-tainan-taiwan-chinatown-shopping-centre-mall-sunken-
l agoon-park/
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