IRJET- A Study on Use of Building Information Modelling for Cost Estimation Process

International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056
Volume: 05 Issue: 12 | Dec 2018 www.irjet.net p-ISSN: 2395-0072
© 2018, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 1745
A STUDY ON USE OF BUILDING INFORMATION MODELLING
FOR COST ESTIMATION PROCESS
R Mahadevi1, N Manodeepan2, CT Saminathan3
1,2Assistant Professor, Department of Civil Engineering, The Kavery Engineering College, Tamilnadu, India
3Final year student, M.E. Construction Management, The Kavery Engineering College, Tamilnadu, India
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Abstract - Cost estimation plays a vital role in project cost
management by taking right decisions at the right time. It is
extremely important for any project team to developaccurate
cost estimates to prepare for bidding and to deliver the
projects on time, within budget and with high quality. Cost
estimation is an integral part of construction management
process and its accuracy can influence downstream processes,
analysis and decisions. It is a more difficult process and highly
error prone, especially, due to project complexities.
The growth of construction industry is highly reliable on the
recent advancements of new technologies and their adoption.
Currently, the construction industry moves from traditional
CAD to BIM process to make the construction processes more
efficient and robust. BIM (BuildingInformationModelling)isa
new model-based approach that increasingly captivated the
focus of the construction industry. It facilitates generating up-
to-date cost estimate directly from 3D digital model without
involving any manual calculations. With BIM, it is possible to
modernize cost estimation process to minimise the cost and
time over-runs in the projects.
This study helps to understand the benefits of moving from a
document-centric approach to a data-driven approach and it
provide insights on use of BIM with guidelines, workflow,
process and approaches for cost estimation intheconstruction
projects.
Key Words: Cost Estimation, BIM Application, 5D Model,
Cost Modelling
1. INTRODUCTION
India’s economic growth heavily depends on the
construction industry since it contributes thirdhighestshare
to nation’s economy. There are quite a few challenges being
confronted during the delivery of constructionprojectsthese
days such as schedule delays, cost over-runs and quality
issues and they are due to lack of innovation, automation,
technologies and use of recent advancements in the
construction industry. Construction industry still has lot of
space for improvement in terms of embracing latest
technologies so that it can catch up with other developed
industries such as manufacturing and banking.
The successful project always fulfils the client
expectations such as high quality, within stipulated time and
within an agreed budget. There are numerouscausesforcost
over-runs and schedule delays suchasscopecreeps,changed
site conditions, under estimation of cost etc.,
Construction industry needs to decide the selling price
even before construction gets started but whereas other
industries fix the selling price after production. So,
construction project is highly risky, and its success purely
depends on accuracy of cost estimates. The project team
needs to sensibly decidethe pricethroughbiddingprocessas
overpricing leads to missed opportunities and underpricing
leads to less profit or a significant loss.
Quantity take-off is a manual process which involves
measuring different design elements from various drawings,
specifications and arriving at the quantities of various
elements in the building and it is based on interpretationand
experience of the cost estimation professional. So, this
approach has high chances oferror. 2D based documentsare
developed by hand or with CAD tools. Manual approach
multiplies any errors present in original drawings.
Furthermore, it is very hard to find the relationship between
the different elements from 2D drawings.
Traditional cost estimation is labour intensive task as it
involves manual take-offs from various 2D construction
documents. When there are changes in the inputs, updating
the cost estimates by manualapproachwouldbedifficultand
time consuming since it needs manual calculation to be
performed again for the changes.
Cost estimates are required in every stage of the project
for various purposesand they will be prepared an average of
seven times in project lifecycle. Cost estimates would be
helpful to make all cost related decisions whethertomakean
investment or not. This provides baseline budget to
accomplish for monetary objectives and probable earnings
from the successful delivery oftheconstructionproject.More
importantly, it allows construction team to explore various
possibilities with feasible alternatives in early stages of the
project to utilize value engineering concepts.
The BIM use is rapidly growing in construction
management streams especially incostestimationprocessto
develop up-to-dateand moreaccuratecostestimatesdirectly
from digitalmodelwiththeavailableprojectinformation.The
use of BIM fordeveloping cost estimates would minimise the
efforts and time and increase the accuracy.

Cost estimation is yet another aspect of the building
process that can benefit from computable building
information. By usingabuildinginformationmodelinsteadof
drawings, the takeoffs, counts, and measurements can be
generated directly from the underlyingmodel.Therefore,the
information is always consistent with the design [1].
BIM based cost estimation is very efficient and robust
since the changes made in the design i.e. in 3D digital model
then, the changes would automatically reflect in all the
associated construction documents such as drawings, and
schedules. The time spent on preparing estimates is
predominantly quantity take-off and it is approximately
about 50 to 80% in conventional approaches. There is a
greater potential toachieve huge timesavings throughuseof
BIM in cost estimation process.
2. COST ESTIMATON
Cost estimation is the process of calculating the
predictable resource costs to finish specific tasks of the
project. The project requirements advance when project
progresses, and it is always difficult to develop 100%
accurate estimate due to limited availability of information.
Of course, it is an iterative process and needs to be done
numerous times with latest information to get more reliable
and accurate estimate as and when required.
The accuracy highly depends on the information used for
developing the cost estimates such as design, specification
and drawings. It is primarily referring to expected cost from
concept to commissioning but not unexpected costs.
This is very next logical step which takes place after the
project planning phase of the project. Project plan and cost
estimate are key elements for providing a safe environment
for construction team to achieve all project goals.
Steps involved in cost estimation process are as follows:
Fig -1: Cost estimation process (Devised by the author
based on the literature)
The following figure depicts the relation between cost
estimate accuracy and time phases of the project. The
estimation error will be more and less in initial and advance
stage of the project phases based ontheavailabilityofproject
information at that instance.
Fig -2: Relationship between time and estimate accuracy
(Devised by the author based on the literature)
Factors affecting the cost estimation results are listed down
below:
1. Completeness of input information
2. Quality or accuracy of input information
3. Constructability
4. Construction methods
5. Site conditions
6. Size and nature of construction
7. Location
8. Complexity
Many types of cost estimates are available in the
construction industry based on the project phase and
purpose. More detailedandaccurateestimatesare expensive
and will be needed in the advanced stage of the project.
Types of cost estimates (based on accuracy):
 Conventional estimate
 Detailed estimate
2.1 Importance of cost estimates
The cost estimation also supports the management
objective of estimate accuracy, reasonableness and project
risk through the summary of report and analysis.

Construction cost estimation is the process of identifying
and compiling many items of cost that will enter a
construction project [2].
Cost estimates are quite useful in different construction
activities of the project such as:
 To provide information for client to make
investment decision,
 To make purchase/procurement decisions for
materials and equipments,
 To carry out the resource planning activities in the
material planning, personnel/man power planning,
equipment planning and cost planning,
 To prepare time and efforts estimate with the
quantities,
 To identify the cost variation due to change orders
 To provide information for making future cost
decisions,
 To provide information for making payments for
contractor on completed works,
 To provide information for cost management or
cost control of the project,
 To assess financial performance of the project,
 To compare the base line and actual cost to know
profit/loss from the project, and
 To avoid cost over-runs and schedule delays of the
project.
2.2 Inefficiencies in traditional cost estimation
process
No cost estimation tools available in the construction
industry meets all the expectations and they are continually
evolving to meet the growing needs of cost estimation
requirements. There are numerous inefficiencies in the
current methods and systems although computersarebeing
utilized for cost estimation process.
In 2D environment, it is very difficult to develop accurate
cost estimate since one has to refer multiple input
information such as design, specification and drawings. Any
changes in the drawings would need updates in quantity
take-off and cost estimates. It involves a lot of attention to
carefully go through all the changes through revision clouds
marked in the drawings and manually revise the quantities
and cost estimates.
BIM would help to integrate all the elements of the
building with logical relationship and it can recognize the
change very easily from digital model. It automatically
updates all the outputs i.e. construction documents such as
drawings, schedules, quantities and cost estimates that
relate to 3D model with no time.
There are more chances of error during digitalizationand
it can produce inaccurate quantities and cost estimates.
Digitalization is a very easy processbutdoingitinlargescale
is practically difficult since it is a semi-automated process.
The interpretation skills of the cost estimation
professional decide quality and accuracy of the cost
estimates in traditional methodforquantitytake-off.Manual
efforts are needed to provide inputs of the parametric data
from CAD file such as Length, Width and Height into
calculate the quantities for calculating costs.
Errors in quantity and cost estimates may ariseinthecost
estimate process, such as forms of arithmetic errors
(addition, subtraction, or multiplication), transposition
errors (errors in copying quantities), omission (overlooking
parts of the design), poor references (scaling from papers
instead of using the dimensions indicated), and unrealistic
waste factors [3].
Cost estimate results are affected by complexity of the
project. The accuracy of the cost estimates is more when
they are prepared for simple projects. And, it is less when
they are prepared forcomplexprojectsduetounderstanding
difficulties and lack of computation power for complex
geometries.
3. BUILDING INFORMATION MODELLING
Referring to the National Building Information Model
Standard (NBIMS), BIM is defined as “a digital
representation of physical and functional characteristicsofa
facility. As such, it serves as a sharedknowledgeresourcefor
information about a facility forming a reliable basis for
decisions during its life cycle from inception onward” [4].
BIM is a multi-dimensional prototypeofbuiltenvironment
with valuable informationsuchasphysical,time,cost,facility
management, sustainability information etc., BIM helps to
minimise the construction errors since it adopts virtual
design and construction concept wherein the facility is built
twice. Once virtually in 3D environment before even
construction gets commenced and second at site. This new
model approach ensures what fits in the model will fit at site
and aids constructability of the project. BIM process allows
to collaborate and communicate well with all project parties
to deliver highly coordinated project by integrating all the
disciplines. BIM is both technology and process change
which transforms the way we do the things.
With BIM, it is possible for the users to develop, manage,
store and retrieve the digital database which allow all the
project parties to provide their inputs in early stages of the
project lifecycle. This would help project team to perform

interference checks to ensure high level of coordination
between different departments or disciplines through
seamless collaboration.
Application of BIM in cost estimation is very beneficial
when it involves complex calculations or a lot of repetitive
works to be performed for finding out the most accurate
estimates. It is one of the unexplored areas of BIM whichcan
reduce significant efforts and time of cost estimation so that
they can do some useful activities rather than counting the
number of objects manually such as: value engineering,
interference checking, constructability reviews, etc.,
3.1 BIM maturity levels
When we talk about BIM use, we must talk about BIM
maturity level since it is important for anyonetounderstand
what’s the scope for BIM use in their projects. Maturity level
helps us to find the level of BIM use or level of information
exchange in the project with guidance and supporting
standards. There are four different levels of BIM use
commonly available in the construction industry.
The British Standards Institute (BSI) has adopted a useful
maturity model developed by Bew and Richards which
illustrates that BIM practice can cover a broadspectrum.[5].
Level 0 – Unmanaged CAD,
Level 1 – Managed CAD in 2D or 3D format,
Level 2 (Lonely BIM) - Managed 3D environment held in
separate discipline “BIM” tools, and
Level 3 (Social or Integrated BIM) -Fullyopenprocessand
data integration enabled by “web services” compliant with
the emerging IFC/IFD standards,managedbya collaborative
model server.
(source:
https://www.cdbb.cam.ac.uk/Resources/ResoucePublicat
ions/BISBIMstrategyReport.pdf)
Fig -3: BIM maturity levels [5]
Currently, level 2 BIM is mandatedbygovernmentinmost
of the developed countries for all the government projects.
This would encourage the construction companies to use
BIM in their projects. Level 2 BIM is the most ideal point for
starting BIM journey to enjoy the benefits of the digital
construction.
3.2 BIM dimensions
A BIM model is more than a 3d model and is now a multi-
dimensional model. Whenever a specific information type is
provided into the model then different dimension isset.BIM
dimensions are connected to the type of data that can
become available through the process.
Different types of BIM dimensions are as follows:
3D: refers to geometry.
4D: refers to time data.
5D: refers to cost data.
6D: refers to sustainability.
7D: refers to life cycle management of a building.
It would be useful to give the time and cost information in
the digital model during cost estimation process so that we
can multiply the cost information with estimated quantities
to get cost estimate. Time information shall be used as guide
to decide the number of resources that are needed to
complete the activities.
Based on the time information, cost calculations can be
performed separately for resources, and templates can be
configured in BIM software applications to arrive the total
cost from the unit cost and estimated quantities. The profits,
overheads and risks can be added ontopofcalculatedcostto
meet any unforeseen contingencies.
3.3 BIM level of development
Level of development (LOD) is a very fundamental
concept used in all BIM projects to define the content and
reliability of BIM elements in various stages of the project.
Very minimal information is needed at the initial stageofthe
project and maximum/detailed information is neededinthe
construction stage of the project. LOD is expressed in
numbers. Increase in number indicates the model elements
have more content and reliable information.
LOD100 – Concept,
LOD200 – Design development,
LOD300 – Documentation,
LOD400 – Construction and
LOD500 – Facilities management.

(source: https://www.tekla.com/image/lod100-400-
1800pxjpg)
Fig -4: BIM level of development
Conceptual estimates and detailed estimates can be
prepared from LOD100 and LOD400 BIM models
respectively. The level of development plays a vital role in
preparing cost estimates based on BIM models. More
accurate and detailed estimates need more elements or
contents and reliability. The BIM models can be developed
with appropriate contents and reliability based on the
purpose of the cost estimate. The BIM model needs to be
sufficiently detailed to prepare cost estimates.
3.4 BIM approaches for cost estimation
BIM based cost estimation is a very easy and simple
process since it directly provides the quantities of the
building elements from digital model. It doesn’t completely
automate the cost estimation process since the software
applications arecontinuallyevolving. Thecurrentlyavailable
software applications are predominantly helpful in
estimation the quantities from the model.UseofBIMforcost
estimation provides some basic information which may be
useful to get more accurate cost estimates. The accuracy of
the cost estimates purely depends on the level of
development and dimensions of the model.
It won’t be always possible to wait until the end of design
phase to develop cost estimate. Interim estimates can be
prepared to evaluate various design options to see the most
feasible options. Since, it is important to analyse the design
options before design is complete to avoid the cancelationof
project or applying value engineering concepts. It is very
difficult or not possible to link all the cost database of the
building elements with BIM models. Cost estimation in BIM
environment is very effective as it directly provides the
quantities and cost informationwhichare neededtoprepare
cost estimates. The current capability of BIM software helps
automating the cost estimation process with the following
options in addition to instant quantity take-off.
3.4.1 Output to Excel
Currently available BIM software applications can
produce building object quantities and it can be exported in
different formats. Widely used formatforquantitytake-off is
MS Excel. The simplicity and control are best suited for cost
estimation workflows. This would enable cost estimation
professional to proceed with developing cost estimates by
linking the exported quantities and cost database in
spreadsheet or some other estimation software. There
should be a way to establish a link between BIM outputsand
cost database to make this process more robust. The
optimised cost estimation results can be achieved by
embracing best modelling practices and techniques.
3.4.2 Application programming interface/Direct
link with estimation software
This approach is very simple since BIM design tools have
direct link with BIM estimation softwarethroughplug-ins or
add-ons. The outputs of BIM design tools such as Revit can
be directly imported as input in BIM estimation software
such as Tocoman iLink so that it helps to analyse the model
contents, create excel reports and fully automating the cost
estimation process. Model visualization shall be provided
with BIM design tools in Navisworks to facilitate cost
estimation and scheduling process. This direct link between
the software applications can simplify the design changes in
the construction projects. Whenever the building design
changes, BIM estimation tool updates the cost estimates in
no time and it is much easier than usingcurrent2Dmethods.
It increases the productivity in terms of quantity and cost
management from sketches till completion of the project.
3.4.3 ODBC link
This approach typically uses the ODBC (Open database
connectivity) to access the attribute information in the
building model, and then uses exported2Dor3DCADfiles to
access the dimensional data. The part of the integration
includes a reconstitution of the building data within the
costing solution – linking cost geometry, attributes, and
pricing [1].
This approach is very similar to the previous approach
and only difference is that they can support with features
that allow both automated and manual extraction of
quantities. BIM design tools canexportthemodelsinspecific
formats and they can be imported as inputs in this
specialized estimation software such as Vico, Cost X. This
software would be helpful to visualise the models and their
components in different colours and import the quantities
directly from digital model by linking with cost database to
proceed with cost estimation process. Even these tools can
be used without BIM design tool models, the excel sheet
quantities can be used as inputs to prepare the cost
estimates by associating the excel outputwithcostdatabase.
These software tools preserve the assembly levels and the
items which are linked which would be useful in cost
estimation process. This is very simple approach since it
doesn’t need any BIM knowledge to work onspecialized BIM
estimation software tools.
3.4.4 Using customized user defined attributes
This is a new approach which shall be used for calculating
the cost estimates based on the unit price without involving
much complex calculations and, with a very few cost

components so that the unit cost shall be directly multiplied
by estimated quantities to get the cost estimate. The author
suggests adding a few cost components as user defined
attributes or identity data parameters in BIM software
applications to provide inputs on cost information for
building objects such as labour cost, material cost,
equipment cost, processing cost, inventory cost and other
costs. Total unit cost can be calculated by summingupall the
above said cost elements. To develop the cost estimates, the
total unit cost shall be multipliedwith quantitiesandthis can
be exported in MS Excel format.
Fig -5: Conceptual diagram of a BIM quantity takeoff and
estimation process [6]
3.5. Interoperability
Different project stakeholders use different software
applications and construction projects involve multiple
disciplines such as mechanical, plumbing, electrical, geo
technical, structures, architecture, landscape etc., All the
models need to be federatedtoseethecoordinationbetween
the disciplines and find out the interferences. BIM platform
provides the inputs for coordinationissuesandseehowthey
are mitigated to resolve the conflicts or clashes between the
models. Interoperability is defined as the abilitytoexchange
the information and handle in propriety formats.
AEC industry stronglybelievesthatBIMisthemostwidely
accepted methods of collaborating and communicating the
information with the project stakeholders. There is also a
data drop between different stages of theprojectand itleads
to discontinuous flow of information. The duplication of
efforts is needed to develop the model from scratch if
interoperability doesn’t exceed. Interoperability allows the
models from upstream shall be used in downstream to save
the modelling efforts. For instance,structural analysismodel
from Etabs or Staad can be used in Revit or Tekla to come up
with drawings and produce quantity take-off.
It facilitates project parties to use best of the breed BIM
software applications and allows to exchange in the
information in the most efficient way. There are three
different ways widely adopted to exchange the information
between BIM software applications such as:
 Bi-directional link between software applications,
 Using API and
 Using proprietary formats such as IFC, DWG etc.,
3.6. BIM training
Trainings can be organized regularly across the
organisation to improve the BIM competency amongst the
employees. Skill matrix must be prepared andmaintained to
categorize the employees based on their expertise in BIM.
Trainings can support the new beginners to start their
career with BIM environment. The training needs
assessment should be carried out properly before
conducting for training and effectiveness of the training
should also be evaluated. On the job trainings, workshops,
seminars shall be organized to createknowledgepool inBIM
software applications. More than software, trainingneeds to
be imparted on the process and workflow to remove the
barriers of BIM implementation.
Enhancing the knowledge and skills that are needed to
meet the current and future requirementsshall bedoneonly
through BIM trainings. The success rateofachievingtheBIM
benefits is highly relies on training. So, it isveryimportantto
rollout BIM training and awareness programs across the
organisation. Trainings would help developing BIM
capabilities and deliver projects in BIM environment. It also
provides opportunities to win new projects in BIM
environment.
3.7 BIM benefits
The benefits of BIM have better control on the cost, time,
quality, health and safety, communicationandcollaboration.
Application of BIM in the construction projects provides
wide range of benefits and some of them which are more
relevant for cost estimation are listed below:
 Quick quantity takeoff
 Faster and more effective process
 Better visualization and decision making
 Effective change management
 Greater Collaboration
 Reduced rework, conflicts and errors and
 Minimized risk

3.8. BIM barriers
Without any doubts, applicationofBIMforcost estimation
has several benefits in the construction project. As BIM is in
growing stage, there are quite a few challenges in the BIM
implementation for cost estimation such as:
 Ownership and responsibility
 Collaboration and teaming
 Implementation issues
 Cultural resistance
 Poor quality models
 Interoperability issues
 Set up costs and training
 Legal and contractual risks
4. CONCLUSIONS
The BIM acceptance across construction industry is
continuing apace. This study reveals many areas in BIM that
is believed by constructionprofessionalstobe moreeffective
than conventional means of cost estimation. Construction
projects are getting more difficult and complex these days
due to ever-increasing needs of clients. Embracing BIM in
construction projects is to build competitive advantage and
deliver precise cost estimates that allow contractors to
prepare bids, plan for resources and control the cost in the
construction project.
This study makes an attempt to provide good
understanding in the application of BIM software
applications for cost estimation to enhance theeffectiveness
and efficiency levels in construction project.
Cost estimation in BIM environment would contribute to
deliver better built environmentandachievecostsavingsfor
the country by greatly improvingtheconstructionefficiency.
It brings transformation in the construction industry
through innovativeapproachtoavoidthewasteful processes
and inefficiencies and pay due regards to other engineering
areas such as lean management, effective construction
management and value engineering.
With BIM, it is possible to quickly extract accurate
quantities of construction resources and cost estimates
directly from 3D models in the project and use them
effectively in any stage of project lifecycle. It would help
preparing more reliable cost estimates and derisking the
construction processes through eliminationofthemonetary
losses and schedule delays because of underestimation.
REFERENCES
[1] Autodesk Building Industry Solutions (2007), "BIM and
Cost Estimating", White paper, accessed: 2007.
http://images.autodesk.com/apac_grtrchina_main/files
/aec_customer_story_en_v9.pdf
[2] Kalpit N. Patel and Harold M. Tepper (1990),
"Construction Cost Estimating in Project Management",
The New Jersey Institute of Technology, PP 1-3.
[3] Daniel W. Halpin and Bolivar A. Senior (2006),
“Construction Management", SecondEdition,JohnWiley
& Sons, Hoboken, NJ.
[4] BIM Industry Working Group UK (2011), "A report for
the Government Construction Client Group".
[5] National BIM Standards, NBIMS, "BIM Definition,
accessed: 2018
http://www.nationalbimstandard.org/faqs#faq1
[6] Charles M. Eastman, Chuck Eastman, Paul Teicholz,
Rafael Sacks, Kathleen Liston (2011),"BIMHandbook:A
Guide to Building Information Modelling for Owners,
Managers, Designers, Engineers and Contractors",
Second Edition, John Wiley & Sons, Hoboken, NJ.

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