International Journal of Scientific & Engineering Research, Volume 11, Issue 9, September-2020
ISSN 2229-5518
Application of Building Information Model (BIM) for
Metro Rail Project
Mugdha Pandarkar, TSSM’s BSCOER College of Engineering, Narhe, Pune-411041
Abstract— This paper analyzes various models and levels of implementation used in building information model suitable for metro rail project. This
paper proposes workflow and process flow to be implemented in complex projects like metro transit rail. In India, BIM implementation in transportation
project follows traditional approach and construction sector is conservative for implementation at planning stage. Also, study refers to the case study of
Nagpur metro for 5D level of BIM with successful outcomes.
Index Terms— Building information model (BIM), construction, infrastruction, lifecycle, metro rail, processflow, workflow
—————————— ◆ ——————————
throughout the project lifecycle:
•
•
Effective design review for information compared to manual
processes
Automated quality assurance and flaw detection mecha-
nism
• No-site validation of documents and online review
• Dynamic dashboard for periodic project updates
4 CENTRALIZED PLATFORM
Metro rail projects consists of components like viaduct, rolling
stock, piers, signalling, MEP, etc. Also, design phase consists of en-
gineering, architectural and detailed drawings in 2D format. Inte-
gration of all these componenets is critical. Coordination of all pro-
ject teams and stakeholders will be required to avoid timely deliv-
ery of project without cost overruns. Centralized platform helps to
integrate all the system and flow of data across disciplines without
any conflicts. All the stakeholders will follow a process flow with
defined approval levels to finalize the best suitable design option.
Digitization of workflo and processflow helps to standardize pro-
cess for minimum delays.
5 CONCLUSION
This study proposes integrated system to be implemented for metro
rail project. This sytem should be implemented from conceptual
stage of project till operations and maintenance stage. Overall ap-
proach should be from organization level to project level. Roles and
responsibilities of each member of the project shall be well defined
for successful results. Metro rail projects shall be implemented in
stage wise manner where financial models are integrated with real-
istic schedules. Projected budgets and approvals with contractual
documents should be incorporated at the earlier stage post which
required formats of drawings shall be included.
1 INTRODUCTION
BIM is a platform with integrated set of software, 3D models
and databases. As per the Autodesk, BIM is defined as“an intelli-
gent 3D model-based process that gives architecture, engineering
and construction professionals the insight and tools to more effi-
ciently plan, design, construct and manage buildings and infrastruc-
ture”. BIM model starts with 2D drawings with representation of plan
of a particular structure with detailed design. It gets developed to a
3D models incorporating geometry and textures to the design as
per the design requirements. At this stage, various sections are de-
veloped in the form of prototype of the actual structure to test func-
tional behavior of the structure without building it. BIM consists of all
the engineering data, contractual provisions, scheduling, cost esti-
mates, resource allocation and all required design parameters. BIM
provides wide range of functions such as co-ordination over work-
flows, estimation, documentation, modeling and planning. This in-
formation is not only useful during the design and construction
phase of a building project, it can be used throughout the entire
building life-cycle representing a reduction of the operation and
management cost of the building which is significantly more than
the entire cost of construction. The nature of the components that
make up a BIM (3D models and project information) will evolve
throughout the development phase of a project. Duly resulting in a
major change in the nature of both the 3D models and the linked
information. This observation particularly serves to reinforce the
importance of the process, rather than the model itself; building in-
formation modelling is a dynamic process.
2 KEY FACTORS FOR SUCCESSFUL IMPLEMENTATION OF BIM
IN METRO PROJECTS
2.1 organization level
This is easier with communication across all the departments and
project teams. Effective training programs for staff and project coor-
dinators helps to build confidence levels and support throughout the
disciplines. Long term vision from planning stage till operations and
maintence stage will reflect successful project management.
2.2 Project level
Detailed planning and implementation plan of proposed designs will
help to implement desired project in time. Using BIM systems, cost
and time parameters can be incorporated in projects like metro rail
where huge investments and timelines are at stake. 3D models
helps to visualize working of structure before actual construction.
3 FACTORS FOR COST SAVINGS
Following are some key factors which leads to cost savings
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1573IJSER International Journal of Scientific & Engineering Research, Volume 11, Issue 9, September-2020
ISSN 2229-5518
REFERENCES
[1] Boton. C. Kubicki. S, Halin G 920130. “Designing adapted for collaborative 4D
applications. Applied energy” 134 (2013) 531-549. Doi: 10.2016 / 0003-
4916(63)90068-X
[2] Chau.k.W, Anson.m. De.D.D (2004). “Dynamic construction management
and visualization software: 2”. Site trialam (2004). Ceding of the IEEE ICRA
[3] Kumar JV, Mukharjee m. “scope of building Information Modeling (BIM)
in India” Journal of Engineering Science and technology, 2009 Nov;
[4]
Josef Zak, Stanislav Vitasek (2019) “BIM and data standard for effective
2(1):165-9
investment in infrastructure”
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