Unleashing the Power of Data Interoperability - UMass Amherst
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Transcript of Unleashing the Power of Data Interoperability - UMass Amherst
Unleashing the Power of Data Interoperability
Facilities & Campus Planning
Niels P. la Cour & Alexander Stepanov
UMass Amherst
2Facilities & Campus Planning
� 26,360 Students
� 5,200 Employees
� 10.7 Million square feet
� 200+ Major Buildings (main campus)
� 1,450 acre campus
Rich GIS Data Environment
GIS Basemapping Update
Flyover April 13, 2009:
•New 0.25’ Digital Orthophotos
•Color Infrared Photography
•LiDAR Data
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•LiDAR Data
•Digital Terrain Model
•1’ Contour Data
•New Planimetric Data (ie. Roads,
Hydrology, Building Footprints,
Utility Poles, Fences, etc.
Rich CAD (Utilities) Environment
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Dynamic Environment
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FundingBudgets House Docs
Accounting/Finance
Recharge/Billing
Time & Attendance Project
Funding
Purchasing
Processes
Available
WorkManagement
Planning/Design
FacilityConditions
I. Compartmentalized Data
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Drawings
Project Data
FundingBudgets
Details
Attendance
Time
Billing Contracts
House DocsAccountingGL/AP
Schedules
People Soft Horizon Quicken Excel MS Project
GIS MPAC
Databases
Accessed
Available
Data
CAD
FacilityConditions
FAS
I. Compartmentalized Data (b)
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I. Solution Vision
� Create Enterprise Information Systems
CAFM, GIS, CAD, BIM
� Maintain Data Ownership
� New Workflows with Minimal Disruption
� Keep Data Up-to-date
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� Keep Data Up-to-date
� Eliminate Data Redundancy
� Data Interoperability is HUGE!!
Data Interoperability enables each of these aspects by
providing powerful tools to Extract Transform and Load data from one platform or place to another or manipulating the data within the same software
I. Not lost in translation
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I. Not lost in translation
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I. Not lost in translation
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I. Not lost in translation
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I. Not lost in translation
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II. Examples & Discussion
� Reporting tools ( AutoCAD + DBMS)
� Campus 3D Model (AutoCAD + DBMS)
� Storm Water Utility Data ( Civil 3D / LandXML )
� Water Distribution Network (AutoCAD)
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� Discussion of general framework ( ArcGIS Server/SDE as a central GIS Data Warehouse )
� Discussion of ETL procedures
� Simplifying workflows with existing tools
II. Data InterOp WorkBench
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Sources (E) Destinations (L)Transformation (T)
•Visual programming•Visual debugging•Log files
II. Example 1: Report Generator
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Space Management Database ( SQL Server ~30,000 records )
AutoCAD Floor Plans (~700 floor plans, > 20 layers each)
III. Report Generation ( CAD + DB + GIS )
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II. Report Generation : Process Diagram
CAD Floor
Plans
(BBB-FF)
Buildings
Floors
Data Transformation/Aggregation
Tool
Building, Floor, RName
Floor SVG
Graphics
Apache Batik RasterizerFormat change
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Floors
Rooms
Space
Departm
ents
SMDBCOLOR DBTRANSFORMATION
•Move *Scale *RotateELEVATION
Auxiliary DBs
Scan ‘world’ files DEM+Footprints Designers
Crystal Reports
II. Report Generating: User’s viewpoint
•“Regular” tool in a Toolbox•Batch mode•Centralized location•Shared by users
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III. Workflows/Tools
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II. Example 2: Campus 3D model
•Campus as a complex system
•Interior vs. exterior environment
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•Interior vs. exterior environment
•Importance of homogenous
information layer
•Applications
II. Example 2: Campus 3D model
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Existing campus-wide GIS layers ( exterior environment)
Space Management Database ( SQL Server ~30,000 records )
AutoCAD Floor Plans (~700 floor plans, > 20 layers each) Spatial DB ( ArcSDE)
Existing campus-wide CAD layers ( exterior environment)
III. Example 2: 3D representation of rooms
0318_04_0020A
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Spatial database is a collection of rooms, which are registered in physical space and have unique “global” campus ID.
Connection to the enterprise DB
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III. Example 2: Campus 3D model
Floor 10
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Interior environment exterior environment
III. Campus 3D tool: Process Diagram
Process
Requirements:
“Seamless”
Repeatable
Easy-to-use
CAD Floor
Plans
(BBB-FF)
Buildings
Floors
Spatial DB
( ROOMS)
Data Transformation/Aggregation
Tool
Building, Floor, RName
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Floors
Rooms
Space
Departm
ents
SMDBCOLOR DBTRANSFORMATION
•Move *Scale *RotateELEVATION
Auxiliary DBs
Scan ‘world’ files DEM+Footprints Designers
ArcSDE
III. Campus 3D tool: Implementation
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Transformation ( geometry and attribute manipulation )Sources
4 CAD Layers
ESRI File Geodatabase
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Discussion of potential applications
III.
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II. Incorporating BIM data
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Revit Models > IFCGML
CityGML
GIS
AEC GIS
Data extrusion
III. Maintaining Utilities ( Civil 3D to GIS DB)
AutoCAD layers ( legacy data )
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Civil 3D ( new projects )
Need to incorporate into GIS WH
III. Maintaining Utilities ( Civil 3D to GIS DB)
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Image: SEA Consultants
Toolset: Civil 3D, Revit, NavisWorks Stormwater, Sewer networksPipe networks: structures, pipes,
fittings, etc.
Surveys, Surfaces
Image: SEA Consultants
III. Maintaining Utilities ( Civil 3D to GIS DB)
Data Models
UML
Case Tools
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Civil 3D ArcGIS Server/SDE
“physical” data model
“logical” data model
?
III. Maintaining Utilities ( Civil 3D to GIS DB)
LandXML
Data Models
UML
Case Tools
Data InterOperability Ext
Pipe Networks
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Civil 3D ArcGIS Server/SDE
Data InterOperability Ext
III. Maintaining Utilities ( Civil 3D to GIS DB)
LandXML LandGML
GML
Data Models
UML
Case Tools
Data InterOperability Ext
Pipe Networks
OGC: LandGML.xls
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Civil 3D ArcGIS Server/SDE
Data InterOperability Ext
III. Maintaining Utilities ( Civil 3D to GIS DB)
LandXML LandGML
GML
Data Models
UML
Case Tools
Data InterOperability Ext
xfMap Geometry
App schema: Pipe Networks
Pipe Networks
OGC: LandGML.xls XML + fxMap
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Civil 3D ArcGIS Server/SDE
Data InterOperability Ext
III. Maintaining Utilities ( Civil 3D to GIS DB)
LandXML LandGML
GML
Data Models
UML
Case Tools
Data InterOperability Ext
xfMap Geometry
App schema: Pipe Networks
Pipe Networks
OGC: LandGML.xls XML + fxMap
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Civil 3D ArcGIS Server/SDE
Data InterOperability Ext
RDBMS
III. Maintaining Utilities ( Civil 3D to GIS DB)
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Demo: Building 3D geometry ( edges, junctions ) from attribute data ( RDBMS -> GIS )
III. Maintaining Utilities ( Civil 3D to GIS DB)
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LandXML3D GIS geometric network
III. Maintaining Utilities ( Civil 3D to GIS DB)
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Civil 3D > LandXML > LandGML > …. GIS
III. Maintaining Utilities ( Civil 3D to GIS DB)
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3D GIS geometric network: all data on Structures, Pipes, Fittings, Valves, etc.
III. Workflows/Tools
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III. Example 3: Water Distribution Network
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AutoCADCentralized WH Editing tools “Delivery” tools
multi-user env.
III. Example 3: Water Distribution Network: DB Design
•Water Distribution Network Data Model ( ESRI RC)Network
Edges
Main lines
Lateral lines ( hydrant & service)
Nodes
Fittings
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Fittings
Hydrants
Service lateral points
Valves ( main, hydrant, building & PI)
•Customization•ArcDiagrammer & Geo XRay Case Tools
( DB Diagram DB Schema )
•ArcCatalog ( XML workspace -> GeoDB)
III. Example 3: Water Distribution Network: ETL
ETL Steps:
•Etl valves
•Etl hydrants
•Main Lines (candidates)
•Lateral lines ( candidates)
•Service Points
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•Service Points
•Fittings ( joins )
•QA/QC
•Errors
III. Example 3: Water Distribution Network: Editing
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III. Workflows/Tools
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III.
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Future Development
3D models for navigation and routing ( building + Campus)
Moving to BISDM data model and
adding textures to Campus 3D model
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Analytical models for water networks
Explore in depth use of ArcGIS for AutoCAD
Summary
� DataInterOp extension allows us to aggregate and maintain up-to-date campus-wide spatial database without changing existing work processes ( work flows).
� Data Models
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� Data Models
� Editing Templates
� CASE Tools
� Water Utilities Team ( materials )
are available from ESRI Resource Center
Data Interoperability Extension
Q&A
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Q&A
III. Report Generating: EPS vector graphics
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•Important for designers•Ready to use for publishing