141113 bim technology - the future starts now v.1.02...
TRANSCRIPT
© 2015 HDR TMK, all rights reserved.Tag der offenen Tür - HDR TMK Berlin
BIM TECHNOLOGYTHE FUTURE STARTS NOW!
BIM TECHNOLOGYTHE FUTURE STARTS NOW!
BIM Execution Plan• BIM vs. Traditional Planning• BIM-Specifications and Guidelines• Requirements and Execution
BIM Execution Plan• BIM vs. Traditional Planning• BIM-Specifications and Guidelines• Requirements and Execution
Benefits of the BIM Technology• For the Client and the Users• For the Architects and Engineers• For the Construction Companies• For the Facility Management
Benefits of the BIM Technology• For the Client and the Users• For the Architects and Engineers• For the Construction Companies• For the Facility Management
Building Information Modeling• 2D Design vs. 3D Design• Definition of BIM and Revit• General Developments
Building Information Modeling• 2D Design vs. 3D Design• Definition of BIM and Revit• General Developments
ConclusionsConclusions2
BUILDING INFORMATION MODELLINGBUILDING INFORMATION MODELLINGBIM TECHNOLOGYBIM TECHNOLOGY
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CAD simply describes the process of using a computer to draft technical drawings.
Traditionally stored in multiple files and planed within a 2D environment.
High risk of different interpretations.
Many CAD applications already allow to plan within a 3D environment.
Possibility to improve the error-free interpretations.
Sou
rce:
Wol
ff &
Mül
ler,
E. S
amtn
er, 2
013
2D DESIGN VS. 3D DESIGN2D DESIGN VS. 3D DESIGNBUILDING INFORMATION MODELLINGBUILDING INFORMATION MODELLING
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DEFINITION OF BIM AND REVITDEFINITION OF BIM AND REVIT
Building Information Modelling (BIM) is a process that involves creating and using anintelligent 3D model to inform and communicate project decisions.
Design, visualization, analysing and collaboration enabled by BIM software solutions providegreater clarity for all stakeholders across the project lifecycle.
Revit is BIM-capable software for architects, structural engineers, MEP engineers, designersand contractors.
It allows users to design a building and structure and its components in 3D, annotate the modelwith 2D drafting elements and access non-graphical information from the models database.
BUILDING INFORMATION MODELLINGBUILDING INFORMATION MODELLING
Modelling
InformationPlanning
Collaboration
AnalysingProductivity
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GENERAL DEVELOPMENTSGENERAL DEVELOPMENTSBUILDING INFORMATION MODELLINGBUILDING INFORMATION MODELLING
The traditional design and planning process is facing new challenges:Design during construction & design changes due to challenges during constructionHigh flexibility and a high range of design options Low level of process orientation respectively an orientation by function
BIM improves the process by changing the traditional planning methods!
General improvement of the planning process by using the BIM database: Improved workflow (Collaboration and Coordination) Improved planning quality and productivity Improved collective understanding of complex design solutionsChanges are shared directly to all project membersAlignment of quantities and properties
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BIM EXECUTION PLAN BIM EXECUTION PLAN BIM TECHNOLOGYBIM TECHNOLOGY
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Effo
rt
Prep
arat
ion
Conc
ept
Desig
n
Deve
lope
dDe
sign
Appr
oval
Cons
truct
ion
Even
t of D
elay
Lega
l Act
ion
Oper
atio
nMa
inte
nanc
e
BIM VS. TRADITIONAL PLANNINGBIM VS. TRADITIONAL PLANNINGBIM EXECUTION PLANBIM EXECUTION PLAN
Sou
rce:
acc
ordi
ng to
Pat
rick
Mac
Leam
y, H
OK
/ D
r. Th
omas
Lie
bich
, AE
C3
Deu
tsch
land
Gm
bH, 2
013
Impact Costs Costs of Changes
TraditionalBIM
Cost Benefit
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** it‘s not a standard 2007 2008 2009 2010 2011 2012 2013 2014* BIM Level 2 as a minimum by 2016
BIM-SPECIFICATIONS AND GUIDLINESBIM-SPECIFICATIONS AND GUIDLINESBIM EXECUTION PLANBIM EXECUTION PLAN
Finland Senate BIM Req / COBIMNorway Statsbygg BIM ManualDenmark bips BIM Manual F102Canada AEC (CAN) BIM ProtocolUSA GSA BIM Guide
NBIMSVA BIM Guide
Singapore BIM GuideBIM Essential Guides
Australia NATSPEC National BIM Guide
Germany BIM-Guide for Germany **
UK AEC (UK) BIM Standards
BSI PAS 1192-3 *BSI PAS 1192-2 *COBie-UK-2012
V2.0V1.0
Revision
V1.0
V1.0
V1.0
COBIM V1Senate V1
V1.2V1.0
V1.0 Revision
V0.9 Draft
V1.0
V1.0
V1.0
V2.0
V2.0V1.0
V1.0
V1.0
V1.1
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REQUIREMENTS AND EXECUTIONREQUIREMENTS AND EXECUTIONBIM EXECUTION PLANBIM EXECUTION PLAN
BIM Requirements: Client / Owner
Project and BIM goals Type of BIM Execution Data Exchange Requirements Data Management Requirements Quality of BIM Execution
BIM Execution: Contractor
Roles and Responsibilities Cooperation and Processes Data Management System Software Solutions Quality Management
Authoringof the BIM
Execution Plan
BIM ModelsAuthoringIntegration
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BENEFITS OF THE BIM TECHNOLOGYBENEFITS OF THE BIM TECHNOLOGYBIM TECHNOLOGYBIM TECHNOLOGY
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FOR THE CLIENT AND THE USERSFOR THE CLIENT AND THE USERS
Client
Improved communication using 3D models(design changes are easier to understand)
Improved coordination (minimizing project risks, improved reliability of costs and scheduling)
Improved certainty of costs during execution and lower-costs during operation
Improved project controlling using progress tracking and monitoring of objectives
Comprehensible visualization, presentation and process simulation of alternative design solutions using the 3D model
Creating a model-based information database(basis for facility management)
BENEFITS OF THE BIM TECHNOLOGYBENEFITS OF THE BIM TECHNOLOGY
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FOR THE ARCHITECTS AND ENGINEERSFOR THE ARCHITECTS AND ENGINEERSBENEFITS OF THE BIM TECHNOLOGYBENEFITS OF THE BIM TECHNOLOGY
Engineer
New possibilities and potential through interdisciplinary collaboration
Improved communication in decision-making and planning processes
Improved coordination in decision-making and planning processes
Improved data quality based on a redundant data management system
Clear model based definition of deliverables between all disciplines
Comprehensible presentation and simulation of alternative design solutions using the 3D model
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FOR THE CONSTRUCTION COMPANIESFOR THE CONSTRUCTION COMPANIESBENEFITS OF THE BIM TECHNOLOGYBENEFITS OF THE BIM TECHNOLOGY
Construction
Transfer of a coordinated data model as the basis for the execution
Improved certainty of costs by model-based quantity and cost evaluation
Improved quantity take-off, quality and work scheduling allows risks minimization
Multi-dimensional models allowing 4D and 5D simulation for work scheduling
4D models allowing progress control on the model
Use for automation in prefabrication(precast construction)
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FOR THE FACILITY MANAGEMENTFOR THE FACILITY MANAGEMENTBENEFITS OF THE BIM TECHNOLOGYBENEFITS OF THE BIM TECHNOLOGY
Facility Manager
Transfer of a fully coordinated data model as the basis for the facility management
Complete documentation with architectural, structural and technical details
Possibility of subsequent checking of requirements if changes of the legal regulations taking place
Improved basis for the estimation of effort for refurbishment and retrofitting
Issues of a consistent data flow for the reuse of information within the model
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SUMMARYSUMMARYBIM TECHNOLOGYBIM TECHNOLOGY
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CONCLUSIONSCONCLUSIONS
Definition of clear expectations and goals
Collaboration and communication are the key factors
Promotes more efficient designs
Promotes more collaborative and efficient workflows
Allows for critical and cost saving decisions to be made earlier during design
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