CIV- E2010 BIM in Construction Management Course overview and requirements Vishal Singh 2 nd November 2017
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CIV- E2010BIM in Construction Management
Course overview and requirements
Vishal Singh 2nd November 2017
Learning outcomes● Demonstrate BIM-related modeling skills● Create a project BIM execution plan● Explain and analyze BIM from multiple perspectives● Assess and describe how BIM and other parametric design tools can be
customized for specific needs and functionalities ● Conduct a SWOT analysis of BIM tools and applications
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People
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Vishal SinghResponsible
Teacher
Sunil SuwalTeacher,
Modeling and tools
Mehmet YalcinkayaBIMServer,
VisuaLynk, FM
Maria LennoxVirtual Design
and Construction, NCC (Guest)
Heini KivirantaVirtual Design
and Construction, NCC (Guest)
Miika KostamoAs-built data,
BIM InfrastructureSymetri (Guest)
Scope of Activities
● Project work (team)● Individual essays (1500 words, related to project work)● Presentation (team) and oral examination (questions to individuals)
Some theoretical discussion & presentations (including industry examples)
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Grading and evaluation
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Project work* Models BIM execution plan + brief documentation
Estimations & Analyses + 4D animation
COBie + As-built
FM output Innovation/Value add
65% + Bonus
Individual essays (1500 words)
Topic and content. Relevance and examples.Connection to BIM
Academic references and state-of-the- art
Influence on or reflection on project work
15%
Presentation/ oral exam
Participation in group presentation
Clarity of individual contributions in the presentation
Answers to questions 20%
*Exceptional project work as a team will reduce the % contribution of individual submissions, presentation and oral examination
Schedule
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Milestone People
2-11-2017 Introduction- About the course, about the project
Team formation, Clarifications VS, SS
3-11-2017 Execution plan- Industry exampleStart design phase
Preliminary execution plan- working document
VS, SS, HK
9-11-2017 Discussion- Special assignment topics. Some theoretical aspects
- VS, ML
10-11-2017 Discussion- Project progress. Finalize choice of special assignments
VS, SS, HK, ML
16-11-2017 Short presentation- Industry example - VS, SS, HK, MK
17-11-2017 Discussion- Project progress Coordination model, Handover to PPM team
VS, SS, ML, MY
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23-11-2017 Scope agreement Cost estimation report VS, SS, ML, HK
24-11-2017 - Schedule/ LOB VS, SS, HK
30-11-2017 - 4D animation VS, SS, HK
1-12-2017 As-built scanning Handover to FM team VS, SS, MK, ML, HK
7-12-2017 Project data on VisuaLynk VS, ML
8-12-2017 Final presentation VS, SS, HK
Schedule
Project work
Multi-utility buildingService coreDifferent types of construction
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Project site
Site area2800 m2
*assumed flat surface
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Project work
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Project work
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Regular/ Non-volumetric prefab construction
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Volumetric construction
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STACKABLE MODULAR UNITS
● Simple and easy to install.● Load bearing modules.● Poor in taking lateral load.● Low rise buildings.● Ex. Site offices made of
shipping containers
CONCRETE CORE:
● Lateral load transferred to core through module.
● Gravity load taken by module.
● Low-mid rise buildings.
STEEL FRAME: ● Frames will take lateral as
well as module load.● Module has to take only its
dead load. ● Flexibility in space design.● High rise buildings.
Structural System
CORE STRUCTURE MEP LIFTING MECHANISM
ModulesClassifications:
Four Sided
Partially Open
Fully Open
Design Features:
● Rigged to be mobile
● Demonstrates utility resource
independence
● Easily alterable/maintainable
● Efficient access management
● Has intelligent sensing capabilities
● Collapsible design
● Unique utility distribution schema.
MEP SYSTEM
Team formation
Team size- 5 members per groupSkill matching (facilitated)Each of the five members need to lead some of the activitiesRoles and responsibilities need to be worked out in the execution plan
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Projects and teams
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Grp A1 Grp B1 Grp C1
Block 1 Design FM PPM
Block 2 PPM Design FM
Block 3 FM PPM Design
Grp A2 Grp B2 Grp C2
Block 1 Design FM PPM
Block 2 PPM Design FM
Block 3 FM PPM Design
Grp A3 Grp B3 Grp C3
Block 1 Design FM PPM
Block 2 PPM Design FM
Block 3 FM PPM Design
Type1- Regular Prefab Constr. Type 2- Volumetric Prefab constr. with no frame
Type 3- Volumetric Prefab Constr. with frame
Grp A4 Grp B4 Grp C4
Block 1 Design FM PPM
Block 2 PPM Design FM
Block 3 FM PPM Design
Grp A5 Grp B5 Grp C5
Block 1 Design FM PPM
Block 2 PPM Design FM
Block 3 FM PPM Design
Grp A6 Grp B6 Grp C6
Block 1 Design FM PPM
Block 2 PPM Design FM
Block 3 FM PPM Design
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Roles and responsibilities in the team1. Execution plan and documentation2. Architectural design and modeling3. Structural design and modeling4. MEP design and modeling5. Coordination model and coordination with PPM team6. Quantity take-offs and estimation (cost, BOM)7. Scheduling and 4D animations8. COBie output and handover for FM9. As-built integration
10. Final documentation for FM
Bonus points (design innovation, performance analysis, software development,etc)
BIM Execution plans (BEP , BxP)
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BIM Execution plans (BEP , BxP)
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Penn State http://bim.psu.edu/
You will find many more BEPs through the internet. Penn State’s BEP is most widely used. Some of other BEP’s are listed below:
AEC UK BIM Protocol Project BEP
https://aecuk.files.wordpress.com/2012/09/aecukbimprotocol-bimexecutionplan-v2-0.pdf
BCA singapore https://www.bca.gov.sg/BIM/others/BIM_Execution_Plan.doc
Georgia Tech BEP template
http://www.facilities.gatech.edu/files/DC/GT%20BIM%20Execution%20Plan%20Template%20v1.5.docx
MIT design standards http://web.mit.edu/facilities/maps/MIT_BIM_execution_plan.pdf
Execution plan - PSU
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Refer to Penn State BEP Guide for more details
BIM uses
Other mapping approaches- e.g. DSM
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● Adjacency matrix● Dependencies/ relationships
DSM- Mapping of different aspects
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DSM application For modelling Analysis
Component-Based or Architecture DSM
system architectures; mapping subsystems relationships
Clustering
Team-Based or Organization DSM
organization structures based on people and/or groups and their interactions
Activity-Based or Schedule DSM Processes and activities based on information flow and other dependencies
Sequencing
Parameter-Based (or Low-Level Schedule) DSM
low-level relationships between design decisions and parameters, subroutines, etc
Potential types of component interactions
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Spatial needs for adjacency or orientation between two elements
Energy needs for energy transfer/exchange between two elements
Information needs for data or signal exchange between two elements
Material needs for material exchange between two elements
Activity (task)-based DSM
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Big Room
Think in a structured way about...
● Interaction within a group● Interaction with other groups… One-to-One or Many-to-Many?
● Interaction between software packages
● Interaction between design requirements, people skills, and software packages… etc.
How to apply what you already know from experience and other courses!
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Quick run through sample essay topics
● Volumetric construction- execution plans
● Volumetric construction- ecosystem requirements
● Volumetric construction- state of the art
● Volumetric construction- supply chain requirements
● Volumetric construction- fabrication and installation/ DFMA
● Volumetric construction- site management
● Volumetric construction- building services
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Quick run through sample essay topics
● Volumetric construction- direct digital manufacturing
● Volumetric construction- BIM libraries
● Volumetric construction- parametric thinking
● Volumetric construction- systems thinking
● Volumetric construction- need and opportunities for standards
● Volumetric construction- design for maintenance
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Questions?
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Time for team formation!
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