Find out how you can easily integrate GIS, CAD, BIM, and other spatial data to create accurate 3D representations using FME. You'll discover how to manipulate 3D data across popular formats like CityGML and SketchUp, as well as transform BIM data to load only the required information into your GIS. You'll also hear how FME enabled one customer to take vintage 2D CAD data and create informative 3D PDFs and 3D AutoCAD DWG files to help in the decommissioning of a nuclear power plant
5. Questions are Encouraged!
This Morning’s Q&A Support:
Mark Stoakes
Manager Professional Services
(and FME Rockstar)
Safe Software
Dave Campanas
FME Product Specialist
(and 3D Guru)
Safe Software
6. Questions are Encouraged!
This Morning’s Q&A Support (continued):
Dmitri Bagh
FME Scenario Creation Specialist
(and 3D Transformation Master)
Safe Software
10. FME Capabilities
Transform Data to Use and Share
Convert spatial data between
hundreds of formats
Transform spatial data into the
precise data model you need
Integrate multiple different data
types into a single data model
Share spatial data with people
where, when and how they need it
41. shadow
shadow
shadow
shadow
Complex Shadows
(Generated in a minute)
42. Facilities
Management
http://fme.ly/umass
Niels la Cour, Alexander Stepanov,
Senior Physical Planner GIS Architect
University of Massachusetts University of Massachusetts
43. Connecting The Dots
Geo-design
Intellectual maps
Computational Geography
Analytical Tools
Bringing Analytics to Facilities Management
SAS ( Bridge for
GIS as a Decision Support System for FM ESRI)
Analytical Tools
Design/Scenario Planning Interface
Network X ( LANL)
Visualization R-project (py)
NumPy
Visualization SciPy
FM specific analytical functions CGAL (py)
Analysis Boost Graph (py)
ArcGIS Server Platform
Data Interoperability Extension (FME Subset)
Format A Format B Format N
44. Registering CAD Drawings
Image Registrations: area of active research ( medicine, remote
sensing, image recognition …)
More than 1000 research papers published in 1993-2003
Variety of techniques
Need to find rotation, offset parameters ( scale is known )
Match for buildings is known ( building id in CAD document, and id of
GIS feature )
45. Registering CAD Drawings
Minimize total sq. distance from observation
points to “nearest” control points
by modifying two parameters: rotation & offset
(dx,dy)
52. Credits
Barsebäck nuclear power plant
•Lars-Olof Jönsson
•Lars Karlsson
•Lars Håkansson
and
SWECO co workers
ulf.mansson@sweco.se
53. Sustainable engineering and design
- the continuation of a longstanding tradition within Sweco
7 600 employees
Established in 12 countries Flood protection in
Poland
A modern flood protection
system for the area
around the Nysa Klodzka
River in Poland will protect
from future flooding
catastrophes.
Ignalina nuclear power A new hydroelectric
station power station in
Sweco has prepared Bulgaria
design works for several Sweco’s assignment
disassembly and comprises geological
decontamination projects surveys, design,
at the Ignalina nuclear production of drawings
power station in Lithuania. and other technical
services.
ulf.mansson@sweco.se
53 53
54. 1969 – Order of Unit 1
1975 – Delivers
Electricity
1980 – Referendum
1999 – Unit 1 closed
2005 – Unit 2 closed
54
55. Geospatial IT
Decommissioning planning demands a radiological survey
- What and how much is contaminated?
A 3D model could help with:
• Planning, acquisition and visualization of sampling data
• Quality assurance
• Logistics
ulf.mansson@sweco.se
56. Geospatial IT – current documentation
ulf.mansson@sweco.se ►
57. Concept: 2D to 3D
Transformation
Walls / Floors
Overview Information
Visualize results
ulf.mansson@sweco.se
57
59. 3D PDF, DWG etc.
DEM
2D-BUILDING
.dwg
2D GeoPDF, shp, png etc.
LANDUSE
.shp •Read different formats
•Georeference – to one coordinatesystem
•Generate 3D
•Connect tabular data
•Maintain a data model
•Produce 3D and 2D output
MAPDATA
TABULAR DATA
.xls, Oracle, etc.
59
81. FME & 3D Mashups: Summary
3D is the “Format of Human Beings”
Visualizing data in 3D improves decision
making
3D datasets can painlessly be synthesized
by transforming non-3D data with FME
82. The limitations to think in 2D (even if all
data are 2D) are artificial. With FME 3D
transformations we really can think in
3D, being format agnostic, and solve
difficult problems faster and in a more
elegant way. Nothing prevents us
from constructing 3D objects from
spatial and non-spatial data sources.
The knowledge of subject domain is
important, but the technology is here!
Niels la Cour, Alexander Stepanov,
Senior Physical Planner GIS Architect
University of Massachusetts University of Massachusetts
83. Poll: What New 3D Functionality
Should be Added To FME??
84. Learn More About FME
Get Acquainted:
FME Desktop Intro Webinar
http://fme.ly/intro
FME Free Evaluation
http://www.safe.com
FMEpedia 3D Section
http://www.fmepedia.com
Upcoming webinars http://fme.ly/webinars
How to Process Real-Time Data with FME - June 7
How to Improve Data Exchange with Intergraph
Products - June 21