Civil Integrated Management 3, 4, 5, xD Modeling in Highway Design & Construction.
-
Upload
alex-arbon -
Category
Documents
-
view
217 -
download
3
Transcript of Civil Integrated Management 3, 4, 5, xD Modeling in Highway Design & Construction.
Civil Integrated Management
3, 4, 5, xD Modeling in Highway Design & Construction
About Parsons Brinckerhoff
Founded in 1885 by General William Barclay Parsons
Approx. 14,000 Staff in 150 Offices Worldwide
Active in All Major Infrastructure Markets
Transportation is Key Area of Expertise
Services Across the Life Cycle of a Project
Key Company under Balfour Beatty
About Rachel Arulraj
Dr. Rachel K. Arulraj, Asst. Vice President at Parsons Brinckerhoff (PB)
Active in Geographic Information Systems (GIS) and Building Information Modeling (BIM) Industries
Manages a multi-million dollar BIM project for a $16B Construction Oversees IT & BIM for design projects Doctorate in Geographic Information Systems with focus on AEC
industry. Participates in AEC Industry Advisory Boards, Professional
Association Boards, Transportation Research Board committees, etc. Won industry awards for the projects she manages Is an award-winning speaker at international conferences. Also a Certified Project Manager and Principal Professional
Associate for Information Technology at PB.
Objectives of Presentation
Show how CIM is the collection, organization
and managed accessibility to accurate data and
information related to a highway facility
Introduce basic principles of CIM
Briefly touch upon tools and technologies
Provide project examples where 3D, 4D, 5D has
worked in design and construction projects
CIM For Transportation
Civil Integrated Modeling = CIM
CIM benefits with 3D Data (Instead of 2D)
The transportation industry requires more 4D &
5D than most other industries using CIM
CIM needs computing investments
3D is for representing graphic civil objects in an
infrastructure, 4D for time and 5D for cost
Technology Adoption Life-cycle
Adapted From: Geoffery Moore (1991)
Innovators (Techies)
Early Adopters (Visionaries)
Early Majority (Pragmatists)
Late Majority (Conservatives)
Laggards (Skeptics)
The Chasm
GPS in 2012
CIM in 2012
CIM
Dat
aM
anag
emen
tSy
stem
s
MappingPresentation
Portals
Information Technology, Web, Database Management Systems, Project Controls, SchedulersEstimators
Geospatial Technologies (CAD, GIS, GPS Laser Scanning)
Visual Graphics,Presentation
Material,CAVE
Integration of Technologies
Laser Scanning Technology for CIM
4D Technologies for CIM
C2A Alternative Steel Gas Main
C1 Water and Sewer in East Side Walk
C1 Steel Conduit
C1 North Cut-Off Wall
7’-0”
10’-0”
CAVE Technology for CIM
Computer Analysis and Visualization Environment
De s
ign,
Con
stru
ctio
n an
d B
e yon
d
Traditional Tools
2D drawings
Design - Weekly Meetings
Issue 2D Drawings for Construction
Design Reviews at 30%, 60%, 90%
Integrate into Facility Management
3D drawings
Develop 3D modelDesign Drawings Extracted
Multi-discipline coordination
Use Model for O&M
xD
Future Tools
Tie Construction Schedules
Review Construction SequencingQC As-builts
CIM in 3D, 4D, 5D, xD
Cost Planning & Estimating
Benefits of CIM in 3D, 4D & 5D
Minimize RiskMinimize CostEnhance Value and Quality of DesignAutomate Data ManagementAvoid rework and delaysBetter design & construction procurementImprove project scheduling and planningEnhance project coordinationCommunicateSee before investing
CIM for Infrastructure Life Cycle
Conceptual Design – 3D Preliminary Engineering – 3D Detailed Design – 3D, 4D, 5D Construction Phase – 3D, 4D, 5D Program Cost Management – 5D Operations & Maintenance – xD Supply Chain Management – xD
CIM @ Conceptual Phase
CIM @ Conceptual Phase
CIM @ Design Phase
Support a Referendum
CIM @ Design Phase
Communicate Design to Stakeholders
Cost Management – Final Design
5D Cost Estimates from BIM
CIM @ Construction
Operations & Maintenance
Operations & Maintenance
Operations & Maintenance
Supply Chain Management
Risk Management
Enhancing Stakeholder Experience
Better CommunicationFaster ApprovalsEnhanced Experience For the future of the built environment