challenge the future delft university of technology 3d printing for urban planning: a physical...
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Challenge the future
DelftUniversity ofTechnology
3D PRINTING FOR URBAN PLANNING: A PHYSICAL ENHANCEMENT OF SPATIAL PERSPECTIVE
Tarun Ghawana Integrated Spatial Analytics Consultants, India
Sisi ZlatanovaDelft University of Technology, GIS Technology Section, Delft, Netherlands
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• BACKGROUND
• 3D PRINTING
• COMPARING 3D PRINTING and 3D VISUALIZATION
• 3D PRINTING AND GIS
• CHALLENGES IN 3D PRINTING OF GIS LAYERS
• 3D PRINTING AND CITYGML
• CASE STUDY OF DWARKA SUBCITY OF DELHI, INDIA
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Background
• 3D Models are more commonly used now for various planning sectors
• 3D visualization enhances spatial aspects in an interacting thematic concerns environment
• 3D physical models have been largely used for urban planning for presenting new developments
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• 2007, TUDelft• Wind simulation
Skepticism
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3D Printing
• Additive manufacturing or 3D printing is a process of making 3D solid objects from a digital model.
• 3D Printing technique deposits material layer by layer. No waste of material
• Numerous 3D printing technologies out there; stereo lithography (SLA), selective laser sintering (SLS) and fuse depositing modelling (FDM)
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Examples
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Comparing 3D Printing and 3D Visualization
Criteria 3D Digital Visualization 3D printed models
Visual Perception Shading, texturing, rotating and zooming
Shading, texturing and rotating
Scale and Resolution Variation
Depending on input data Depending on input data
Large Group Discussions
Digital display system requirement as inhibitor
Detailed printed model as enabler
Ease to Explore Minimum expertise level required for 3D rendering
Easy to handle and explore by inexperienced users
Object Selection Single query based multiple object selection
Need to tag manually different objects
Editing Relatively easier feature editing Limited editing
Analyzing Objects Objects analysis requires 3D expertise
Objects analysis by non-expert users
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3D Printing and GIS (1/2)
• Virtual scenes generated in 3D GIS environment enhance user understanding
• Visualization process has passed many stages towards
realistic scenes
2D Paper / Other Material Maps (Colour/ B & W)
Colour / B & W Scanned 2D Images (non-interactive)
GIS 2D Data (Interactive & Attributes Attached)
GIS 3D Data (Interactive & Attributes Attached, Virtual Models)
Fly-thru 3D Simulation Tours, recorded as motion video
Handmade 3D Models of 3D Data (Physical Models)
Digital 3D printing of 3D Data with Z properties (Physical Models)
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3D Printing and GIS (2/2)
• single piece objects creation unless impossible by other means of production
• possible to print objects within objects, hollow parts, interconnected parts
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Challenges in 3D Printing of GIS Layers
• Translation of various GIS data formats into STL file format
• Reducing data loss while translating DEM data into STL file format
• 3D printing is not necessarily a cheap process
• High level resolution and accuracy of a 3D print but for depending on the size of the model
• Work with valid 3D digital models, i.e. closed volume
• GIS data varies on compression and projections so it needs to be put back in its original shape
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3D Printing and CityGML (1/2)• CityGML is currently the only standard for 3D vector data along
with semantics, topology and appearance associated with the data
Detail Levels
Implementation Scale
Buildings Details Positional and Height Accuracy
Minimum Object Size
LOD0 Regional, Landscape
Footprint or roof edge polygons
LOD1 City, Region Blocks model comprising prismatic buildings with flat roof structures
5 m or less 6 x 6 m
LOD2 City Districts, Projects
Differentiated roof structures and thematically differentiated boundary surfaces
2 m or less 4 x 4 m
LOD3 Architectural Models (Outside), Landmarks
Architectural models with detailed wall and roof structures potentially including doors and windows
0.5 m 2 x 2 m
LOD4 Architectural Models (Interior)
Buildings composed of rooms, interior doors, stairs and furniture
0.2 m or less
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3D Printing and CITYGML (2/2)• 3D printing characteristics matched with relevant
CityGML characteristics (Zprint, Zcorp)
Printer
Type
Resolution and
Layer Thickness
for Printing
Minimum Object
Size for Printing
Build Size for Printing Vertical Build
Speed for
Printing
Minimum
Object Size
in CityGML
LOD
250 Resolution: 300 x 450 dpi; Layer Thickness 0.1 mm
0.4 mm (236 x 185 x 127 mm)
(0.236 x 0.185 x 0.127 m)
20 mm / hour
6 x 6 m
350 Resolution: 300 x 450 dpi; Layer Thickness 0.089- 0.102 mm
0.15 mm (203 x 254 x 203 mm)
(0.203 x 0.254 x 0.203 m)
20 mm / hour
4 x 4 m
650 Resolution: 600 x 540 dpi; Layer Thickness 0.089- 0.102 mm
0.1 mm (254 x 381 x 203 mm)
(0.254 x 0.381 x 0.203 m)
23 mm/ hour
2 x 2 m
http://www.zcorp.com/en/Products/3D-Printers/spage.aspx
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Case Study of Dwarka Subcity, Delhi (1/5)
• Dwarka sub-city developed recently for approximately 1 million people in Delhi
• 29 sectors planned covering around 5,650 hectares • Dwarka landuse distribution follows a distinct
hierarchical pattern from sub-city level to sector level
Landuse Area (%)
Gross Residential 48.54
Commercial 7.05
Government 0.94
Public/Semi-Public 6.20
Recreational 19.94
Transport 14.33
Utilities 3.00
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Case Study of Dwarka Subcity, Delhi (2/5)
• one sample of sector 6 in Dwarka with total area of 93 hectares
• Allocated Residential landuse: 41 hectares /410,000 sq. mtrs approx.
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Case Study of Dwarka Subcity, Delhi (3/5)
• Some residential apartment’s society premises are marked on
both sides of a road in sector 6
• The covering areas of societies measured as:
Maximum: 170 m x 125 m x 40 m Minimum: 80 m x 80 m x 40 m
• Disconnected blocks or
connected through only a
viaduct.
• On average, the dimensions
of these blocks are around 30
m x 30 m x 40 m in X, Y,
Z terms
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Case Study of Dwarka Subcity, Delhi (4/5)
• Single Block Printing Size and Scaling Requirements
Single piece maximum printing object size
Actual Object Size Scale Required
250 mm x 380 mm x 200 mm 30 m x 30 m (X,Y) x 40 m (Z) 1:120 x 1:78 (X,Y) x
1:200 (Z)
• Average scale of 1:160 for the building block, allows printing of a window 2 x 2 m (200 cm/2000 mm) in 12 x 12 mm
• 3-4 such building blocks exists in each society, allowing 3D printing in manageable units
• Vertical speed of 0.9 inch/hour (23 mm/hour), allows printing a window of 2 x 2 m in a few minutes
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Case Study of Dwarka Subcity, Delhi (5/5)
• Feasible Level of Detail (LOD) as per CityGML, references to 3D print the area of interests on different scales:
Area of Interest CityGML: Level of Detail (LOD)
Single Block Building (30 m x 30 m x 40 m) LOD 3 With doors and windows
A society complex of 3 or 4 building blocks and green / cemented open space in between (100 m x 50 m x 40 m)
LOD 3 with doors and windows, trees, open parking spaces and green patches
A neighborhood of individual society complexes along a road of 300-500 m in length (300 m x 100 / 150 m x 40 m)
LOD 2 with thematically differentiated surfaces and buildings without detailed facades
An entire sector of a subcity in 100 hectares LOD1 with blocks model comprising prismatic buildings with flat roof structures
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Conclusions and Recommendations• Physical enhancement of spatial perspective for the users.
• More realistic interfaces for stakeholders negotiations and presenting new development
• Detailed 3D model printing possible of landscape, buildings, road furniture etc. for street level planning
• Value addition for planners due to the ability to print subsurface utilities, terrain and groundwater variations
• 3D printed models can be used in Delhi by various planning agencies
• 3D printed model can expedite the negotiations process in city development and planning