The document discusses the application of building information modeling (BIM) in the construction industry. It describes the various stakeholders involved in construction projects such as architects, engineers, quantity surveyors, contractors, and how BIM benefits and supports their work. BIM allows for improved collaboration, more efficient design and construction processes, enhanced visualization of designs, and reduced errors and rework. The document provides examples of how BIM is used by different stakeholders during various stages of construction projects.
The new revolutionary concept of Building Information Modeling (BIM) is a digital representation of physical and functional characteristics of a facility
Building Information Modeling (BIM)
BIM is a process of generating and managing building data during its complete
lifecycle, from conceptual design through operation of the building
Building information modeling(BIM) is an integrated
workflow that enables architects, engineers, and
builders to explore a project digitally before it is built.
BIM is Evolution not Revolution
The creation and use of coordinated,
internally consistent, computable
information about a building project in
BIM is a modern technology and associated set of
processes to produce, communicate, and analyze
‘building models’…..
• ‘Digital representations’ of the building components that follow
parametric rules, which can be manipulated in an intelligent
fashion
• Carry ‘computable graphic and non‐redundant data attributes’
which are consistent, coordinated which can be viewed
The new revolutionary concept of Building Information Modeling (BIM) is a digital representation of physical and functional characteristics of a facility
Building Information Modeling (BIM)
BIM is a process of generating and managing building data during its complete
lifecycle, from conceptual design through operation of the building
Building information modeling(BIM) is an integrated
workflow that enables architects, engineers, and
builders to explore a project digitally before it is built.
BIM is Evolution not Revolution
The creation and use of coordinated,
internally consistent, computable
information about a building project in
BIM is a modern technology and associated set of
processes to produce, communicate, and analyze
‘building models’…..
• ‘Digital representations’ of the building components that follow
parametric rules, which can be manipulated in an intelligent
fashion
• Carry ‘computable graphic and non‐redundant data attributes’
which are consistent, coordinated which can be viewed
Building information modelling (BIM) is a process involving the generation and management of digital representations of physical and functional characteristics of places. Building information models (BIMs) are files (often but not always in proprietary formats and containing proprietary data) which can be extracted, exchanged or networked to support decision-making regarding a building or other built asset.
What does BIM mean for Civil Engineers?Chun Keung Ng
BIM is a norm for the building industry. How about for infrastructures? Some countries are over confident on the implementation of BIM in both building and civil engineering industries. Is the BIM technology for infrastructures mature and easily available? Are the professionals ready for BIM?
The presentation covers following areas:
- Typical Problems in Construction Industry
- What is BIM?
-BIM Process
- Influence of BIM on Industry Problems
- BIM Application
- BIM Advantages
- BIM Workflow
- BIM & Project Management
- BIM & Design Team Members
- BIM around the Globe
- Construction Industry with BIM
All work presented in the presentation is carried out by graduates of NUST, Islambad including Abdul Mughees Khan, Syed Kashif Ali Shah, Sharjeel Ahmad Tariq, Malik Awais Ahmad and Hamza Khan Shinwari.
Special credit of the work goes to Engr Tahir Shamshad, Vice President NESPAK and Engr Zia Ud Din, Asst Professor NUST under guidance and mentor ship the whole work was performed.
For more details feel free to contact: amugheeskhan@gmail.com
Building Information Modelling (BIM) has radically changed the way architectural, engineering and constructional design and documentation is implemented.
The Building Information Modeling (BIM) is a technology that is rapidly gaining popularity in the world of of Architecture Engineering and Construction. This presentation shows a complete history of the BIM and highlights its applications during Building Life Cycle and finally provides its advantages and limitations.
In this presentation I gave one overall overview about BIM workflow for Construction and D&B companies.
BIM is not a tool, BIM is not a software, BIM is a way of thinking about the project and put together processes to exchange information during the entire lifecycle.
This presentation is mainly focused on Autodesk platform but is applicable to many other solutions.
BIM Building Information Modeling is much more than model creation, it is human and software collaboration through large volumes of construction data that is communicated at every point in the development life-cycle for a project(s).
In this presentation, a quick but comprehensive introduction to Building Information Modeling (BIM) is provided, aiming at showing the benefits of BIM for all the actors of a construction project.
Building Information Modeling (BIM) is a powerful tool for visualizing and virtually constructing in 3D. It is also a database where the information and process for adding data is equally powerful, giving owners and operators the ability to integrate BIM into Facility Management (FM) software and use the model to manage the facility over the building's lifecycle. Learn about Building Information Models and how BIM reinforces collaboration and helps project teams deliver better products and services.
Building information modelling (BIM) is a process involving the generation and management of digital representations of physical and functional characteristics of places. Building information models (BIMs) are files (often but not always in proprietary formats and containing proprietary data) which can be extracted, exchanged or networked to support decision-making regarding a building or other built asset.
What does BIM mean for Civil Engineers?Chun Keung Ng
BIM is a norm for the building industry. How about for infrastructures? Some countries are over confident on the implementation of BIM in both building and civil engineering industries. Is the BIM technology for infrastructures mature and easily available? Are the professionals ready for BIM?
The presentation covers following areas:
- Typical Problems in Construction Industry
- What is BIM?
-BIM Process
- Influence of BIM on Industry Problems
- BIM Application
- BIM Advantages
- BIM Workflow
- BIM & Project Management
- BIM & Design Team Members
- BIM around the Globe
- Construction Industry with BIM
All work presented in the presentation is carried out by graduates of NUST, Islambad including Abdul Mughees Khan, Syed Kashif Ali Shah, Sharjeel Ahmad Tariq, Malik Awais Ahmad and Hamza Khan Shinwari.
Special credit of the work goes to Engr Tahir Shamshad, Vice President NESPAK and Engr Zia Ud Din, Asst Professor NUST under guidance and mentor ship the whole work was performed.
For more details feel free to contact: amugheeskhan@gmail.com
Building Information Modelling (BIM) has radically changed the way architectural, engineering and constructional design and documentation is implemented.
The Building Information Modeling (BIM) is a technology that is rapidly gaining popularity in the world of of Architecture Engineering and Construction. This presentation shows a complete history of the BIM and highlights its applications during Building Life Cycle and finally provides its advantages and limitations.
In this presentation I gave one overall overview about BIM workflow for Construction and D&B companies.
BIM is not a tool, BIM is not a software, BIM is a way of thinking about the project and put together processes to exchange information during the entire lifecycle.
This presentation is mainly focused on Autodesk platform but is applicable to many other solutions.
BIM Building Information Modeling is much more than model creation, it is human and software collaboration through large volumes of construction data that is communicated at every point in the development life-cycle for a project(s).
In this presentation, a quick but comprehensive introduction to Building Information Modeling (BIM) is provided, aiming at showing the benefits of BIM for all the actors of a construction project.
Building Information Modeling (BIM) is a powerful tool for visualizing and virtually constructing in 3D. It is also a database where the information and process for adding data is equally powerful, giving owners and operators the ability to integrate BIM into Facility Management (FM) software and use the model to manage the facility over the building's lifecycle. Learn about Building Information Models and how BIM reinforces collaboration and helps project teams deliver better products and services.
5 reasons why bim adoption is important for architectsArpitGautam20
Here are 5 pressing reasons why BIM adoption is important for Architects. Read on to know the exciting benefits that BIM brings for Architects. https://rdttech.co/5-reasons-why-bim-adoption-is-important-for-architects/
The Role of BIM in Modern Construction ProjectsTawwabKhan4
In the rapidly evolving landscape of modern construction, the integration of technology has become paramount for success. One such technological advancement that has revolutionised the industry is Building Information Modelling, commonly known as BIM. With its digital representation of the physical and functional characteristics of buildings, BIM offers a transformative approach to construction projects.
In this article, we take a look at the significance of BIM, exploring its importance and the multiple levels or stages it encompasses. We will also uncover the role of precision engineering in constructing stronger and more sophisticated buildings.
Understanding the Power of BIM: A Digital Revolution in Construction
At its core, Building Information Modelling (BIM) is a digital representation of a building’s physical and functional attributes. It encompasses a wide range of information, including architectural, structural, mechanical, and electrical details, all stored in a centralised database. This comprehensive model serves as a shared knowledge resource for all stakeholders involved in a construction project.
BIM is a game-changer in the construction industry due to its ability to enhance collaboration, improve communication, and streamline workflows.
BIM Edecation Program Model Creation Sequence The following activitie.pdfarishmarketing21
BIM Edecation Program Model Creation Sequence The following activities focus on some of
the information needed to create a BIM Execution Plan. You will most likely need to refer to the
materials covered in Sessions 1 and 2 to complete the activities. Scenario You are the project
manager for a hospital that wants to add a 200,000 SE, eight- story expansion to the existing
building. You are about to engage the design team. To ensure that the project can realize the
benefits of BIM, you will be working under the ConsensusDocs BIM Addendum, which requires
that a BIM Execution Plan be developed within 30 days. You want to include specific language
in the contract with the design team. On your BIM project team: . The architect has considerable
experience with Bentley Architecture. The structural engineer typically designs with Autodesk
Revit Structure software. . The MEP consultant is experienced with AutoCAD MEP software.
The MEP engineer estimates, based on past experience, that a model of the project designed with
AutoCAD MEP software would exceed 150MB. The specialty contractor base in your area is
well-versed in creating models for coordination The CM has not yet been selected for the project
Task Develop a BIM Execution Plan that considers the experience of the project participants.
Identify processes and opportunities for coordination, clash detection
Solution
BIM Execution Plan-
Objectives
BIM Goals & Objectives
From Project Managers Perspective
Design visualization
Clash Coordination.
2. Energy Analysis
Will help in ensuring that no conflicts are encountered during execution thus saving time and
money during construction
This is more of a sustainability checkpoint to ensure that the proposed design is within the
targeted sustainability parameters.
Documentating from BIM platform
2.Detailed Cost Estimate
To ensure that design and construction informations is
consistent across all project drawings
It’s more of a check-point now to ensure that the design is within the budget.
As-built Model Development
To have an accurate as-built model along with as- built drawings serves the following objective-
In Use Stage
Linking of Facility Management Data with As-built BIM Models
Utilizing BIM for Facility Management
All the scattered information is now put together and brought at one-place. This brings in
significant efficiencies in the overall facility management process.
To be done because owner is responsible for managing & operating the facility.
same as above
Process Map
Let us first see the scenario from capability perspective.
Stakeholder
BIM capability
Inferences
Architect
capable , worked on Bentley architecture & willing to take up BIM themselves
Their BIM part will be done by themselves,
Structural Engineer
capable & trained in Revit
Their BIM part will be done by themselves
MEP Engineer
BIM incapable, worked on AutoCad MEP Software
Needs to be trained on BIM
Contractor
likely to be BIM capable as per the creating models for coordination
Co.
Building Information Modeling (BIM) in Industrial Projectsbestendm06
Our architects and engineers work in tandem with the internal consultants of other disciplines to provide an optimised design for industrial projects. Visit https://besten.in to know more.
4 Reasons to Implement BIM for Infrastructure Projects.pdfTesla CAD - UK
Building Information Modeling (BIM) has become a game-changer in the realm of infrastructure projects. This innovative approach to project management and design offers a multitude of benefits. we'll explore four compelling reasons why implementing BIM for infrastructure projects is essential for success. From enhanced collaboration to streamlined project management, discover how BIM can revolutionize the way we build our cities and critical infrastructure.
How BIM can Impact Structural Engineerings?MarsBIM1
The undertaking of BIM technology has been transforming structural engineering work to the next level. It helps the engineers make the proper decision, planning, ownership, and maintenance of the project.
The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
For more information, visit-www.vavaclasses.com
How to Create Map Views in the Odoo 17 ERPCeline George
The map views are useful for providing a geographical representation of data. They allow users to visualize and analyze the data in a more intuitive manner.
Read| The latest issue of The Challenger is here! We are thrilled to announce that our school paper has qualified for the NATIONAL SCHOOLS PRESS CONFERENCE (NSPC) 2024. Thank you for your unwavering support and trust. Dive into the stories that made us stand out!
The Roman Empire A Historical Colossus.pdfkaushalkr1407
The Roman Empire, a vast and enduring power, stands as one of history's most remarkable civilizations, leaving an indelible imprint on the world. It emerged from the Roman Republic, transitioning into an imperial powerhouse under the leadership of Augustus Caesar in 27 BCE. This transformation marked the beginning of an era defined by unprecedented territorial expansion, architectural marvels, and profound cultural influence.
The empire's roots lie in the city of Rome, founded, according to legend, by Romulus in 753 BCE. Over centuries, Rome evolved from a small settlement to a formidable republic, characterized by a complex political system with elected officials and checks on power. However, internal strife, class conflicts, and military ambitions paved the way for the end of the Republic. Julius Caesar’s dictatorship and subsequent assassination in 44 BCE created a power vacuum, leading to a civil war. Octavian, later Augustus, emerged victorious, heralding the Roman Empire’s birth.
Under Augustus, the empire experienced the Pax Romana, a 200-year period of relative peace and stability. Augustus reformed the military, established efficient administrative systems, and initiated grand construction projects. The empire's borders expanded, encompassing territories from Britain to Egypt and from Spain to the Euphrates. Roman legions, renowned for their discipline and engineering prowess, secured and maintained these vast territories, building roads, fortifications, and cities that facilitated control and integration.
The Roman Empire’s society was hierarchical, with a rigid class system. At the top were the patricians, wealthy elites who held significant political power. Below them were the plebeians, free citizens with limited political influence, and the vast numbers of slaves who formed the backbone of the economy. The family unit was central, governed by the paterfamilias, the male head who held absolute authority.
Culturally, the Romans were eclectic, absorbing and adapting elements from the civilizations they encountered, particularly the Greeks. Roman art, literature, and philosophy reflected this synthesis, creating a rich cultural tapestry. Latin, the Roman language, became the lingua franca of the Western world, influencing numerous modern languages.
Roman architecture and engineering achievements were monumental. They perfected the arch, vault, and dome, constructing enduring structures like the Colosseum, Pantheon, and aqueducts. These engineering marvels not only showcased Roman ingenuity but also served practical purposes, from public entertainment to water supply.
Welcome to TechSoup New Member Orientation and Q&A (May 2024).pdfTechSoup
In this webinar you will learn how your organization can access TechSoup's wide variety of product discount and donation programs. From hardware to software, we'll give you a tour of the tools available to help your nonprofit with productivity, collaboration, financial management, donor tracking, security, and more.
Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
Ethnobotany and Ethnopharmacology:
Ethnobotany in herbal drug evaluation,
Impact of Ethnobotany in traditional medicine,
New development in herbals,
Bio-prospecting tools for drug discovery,
Role of Ethnopharmacology in drug evaluation,
Reverse Pharmacology.
The Indian economy is classified into different sectors to simplify the analysis and understanding of economic activities. For Class 10, it's essential to grasp the sectors of the Indian economy, understand their characteristics, and recognize their importance. This guide will provide detailed notes on the Sectors of the Indian Economy Class 10, using specific long-tail keywords to enhance comprehension.
For more information, visit-www.vavaclasses.com
The Art Pastor's Guide to Sabbath | Steve ThomasonSteve Thomason
What is the purpose of the Sabbath Law in the Torah. It is interesting to compare how the context of the law shifts from Exodus to Deuteronomy. Who gets to rest, and why?
2. INTRODUCTION
1.1 CONSTRUCTION STAKE HOLDERS
The activities take part in the construction industry taken by according to the RIBA plan of work
- RIBA (Royal Institute of British Architects), which establish in UK, is basically a guideline for
the consequence of construction industry. It includes 8 stages named as,
Stage 0 - Inception
Stage 1 – Preparation & brief
Stage 2 – Concept design
Stage 3 – Developed design
Stage 4 – Technical design
Stage 5 – Construction stage
Stage 6 – Hand over & closeout
Stage 7 – In use
The client or the employer who initiate to start a project. They start a project with an intention to
invest his money in an effective way so he is started the project in the inception stage from that up
to the practical in use works with different type of people those people called as stake holders of
the construction industry.
According to the Investopedia. (n.d.). A stakeholder is a party that has an interest in a company,
and can either affect or be affected by the business. The primary stakeholders in a typical
corporation are its investors, employees and customers. However, the modern theory of the idea
goes beyond this original notion to include additional stakeholders such as a community,
government or trade association.
Retrieved from http://www.investopedia.com/terms/s/stakeholder.asp/
The construction industry also has set of stake holders under that we discuss about some particular
person such as Architect, Engineers, Quantity Surveyors, Surveyors, Contractor, sub-contractors,
facility mangers and fabricators.
3. 1.2 BUILDING INFORMATION MODELING
BIM (Building Information Modelling) is latest technology in the construction industry to prepare
the 2D and 3D model-based process the tool which support to the construction stake holders to do
their task effectively and efficiently they use this tool for plan, design, construct, and manage
buildings and infrastructure.
BIM uses for modelling the functions and behaviours of the building system and components
specially it uses for the whole stages in the construction process.
The BIM providing number of benefits in every stage such as Preconstruction benefits, Design
benefits, Construction and Fabrication benefits, post construction benefits those benefits are
supporting the stake holders who join the construction industry in every stage.
The client is the person who initiate the process and in the very beginning he meets two persons.
Quantity Surveyors
Financial Managers
According to the advice of these persons if he satisfy he continue with his process in the next step
he meets the suitable designers specially the architects.
Vision
Plan
Design
Cost
Operation
Maintenance
Renovation
Demolishion
4. ARCHITECT AND BIM
2.1 THE ARCHITECT
The architect plays the main role in a project. He is the first person appointed by the client. The
architects function is to interpret the clients brief and translate into a viable building within the
stated constraints. Architect has a responsible for obtaining the necessary approvals for planning,
ensuring compliance with regulations and supervising the materials and workmanship erection of
during the building.
2.2 BIM INVOLVES IN DESIGN
The client discuss with the architect regarding the concept of the building the duty of the
designer to give a visualization for the clients’ concept which call as conceptual design for that the
architect has to prepare number of schematic design in the earlier days they were drawn by manual
but newer days the architect can easily draw the conceptual design using the BIM it gives good
outlook so easily the client can identify whether his expectation has achieved or not and it reduces
the fatigue of the designer otherwise the designer has to spend more time for the outside layout
The second stage is the design development stage when the concept has fixed the architect
will start the schematic design specially without the services the architect will confirm the
structural of the building this drawing also will discuss with the client and finalize one of the
suitable plan. during this time, they consider the environmental conditions and site, locations
conditions.
Huck.E, Paul . T, Rafael .S & Kathleen .L. (2008). The design development stage depends on
special factors such as buildings’ function, costs, construction methods and
materials environmental impacts, building practices, cultural and aesthetic
conditions so the architect have to do changes according to this in this traditional way the
architect has to prepare drawings and sketches again and again but with the support of the BIM it
is easy to do the changes for some particular factor changes. BIM technology supports architects
throughout the design process. Gain more insight earlier in the process to optimize designs for
5. their clients’ requirements. BIM software helps Architect to deliver projects with improved quality
and efficiency especially.
2.3 BENEFITS OF BIM FOR ARCHITECT
A more fluid design process - Move from conceptual design through
documentation using interoperable tools that maintain model fidelity at each stage.
Integrated visualization and analysis tools - Create immersive visualizations and
virtual reality (VR) experiences directly from your model. Get more insight into your
designs with energy analysis tools.
Extend BIM workflows with computational design - Build geometry, explore
design options, automate processes, and create links between multiple applications.
Multidiscipline collaboration - Work more effectively with the extended project
team using cloud-based collaboration tools that support concurrent BIM authoring,
regardless of location. (pp.151-171). Hoboken, NJ, USA
6. BIM FOR STRUCTURAL ENGINEERS
3.1 STRUCTURAL ENGINEERS
The structural engineer is the one of the key stake holder in the construction industry. Specially
they consider on the structural and civil engineering process which is the large specially the
technical matters depend on these engineers. They concerned with the design and physical integrity
of buildings and other large structures, like tunnels and bridges. Structural engineers have wide
range of responsibilities - not least a duty to ensure the safety and durability of the project on which
they are working. Unlike architects, who must focus on the appearance, shape, size and use of
the building, structural engineers must solve technical problems - and help the architect achieve
his or her vision for the project.
3.2 BIM IN STRUCTURAL DRAWING
The structural engineers also the person who called as the designer according to the RIBA plan of
works during the technical design and design analysis during this stage the technical team specially
the engineers join because it consists with many functional aspects of a building’s performance,
structural integrity, temperature control, ventilation and air flows, light pedestrian
circulation, acoustics, energy distribution and consumption. The BIM support for the
following activities during this stage
Make better structures - BIM (Building Information Modelling) processes
help structural engineers, detailers, and fabricators improve structural design
documentation, minimize errors, and streamline collaboration between teams.
Improves collaboration - Coordinate your models across multiple
disciplines to help ensure a better design.
Enhances structural quality - Integrate structural analysis and design to produce
better outcomes.
Connects design to detailing - Streamline your workflows for more efficient
detailing.
7. Reduces fabrication waste - Plan and coordinate during fabrication to help
improve execution on site.
BIM FOR ELECTRICAL, MECHANICAL AND PLUMPING ENGINEERS
4.1 MEP ENGINEERS
The MEP engineers are the other important engineers who involve in the design stages MEP
Engineers are Designers who are arranging the Mechanical, Electrical and plumbing (MEP)
framework including creating arrangements standard, investigation strategy and assessment
devices for MEP matters including legal branch offices, alongside get ready, audit drawing,
particular and cost gauges for the mechanical, Electrical, and/or Pipes.
MEP Engineer conduct engineering and feasibility and economics studies and prepare reports on
finding develops standard for design and technical specification, investigates new MEP design
concept and technical development of systems which are applicable to engineering problem.
MEP engineer has to review plans and specification according to plan.
MEP Engineer has to manages oversee the work of subordinate staff contact architects or
Engineer.
MEP Engineer has to prepare plans, details, specified and cost estimated of plumbing,
heating, ventilating, air conditioning and general piping system.
MEP Engineer has to provide technical advice to staff designer, supervisor, inspector and
contracting service provider, regarding installation and maintenance of MEP System.
MEP System has to analyse mechanical, Electrical and /or plumbing engineering problems
and formulate solutions.
MEP Engineer has to identify problems in design, plan, manage and deliver multiple
projects.
MEP Engineer has to plan, organize review and evaluate the work of consultant, contractor
and others.
MEP Engineer has to knowledge of MS office, AutoCAD and Project management
software.
8. MEP Engineer has to prepare and deliver effective oral presentation whenever required.
4.2 BIM BENEFITS FOR MEP ENGINEERS
According to the construction industry definition the 60 percent only depend on the structural
works but the 40 percent depends on the services so the MEP engineer’s involvement also required
before hand over the Tender documents to finalize the documents this activity happen during the
Technical Design stage in the RIBA plan of work.
The BIM support to the MEP engineers to identify the unseen errors detail wise this is impossible
in the traditional system and also, they can change or re design the changes in the plumbing, and
electrical wiring, before building construction ever begins.
The contractor and client do not like to waste the time for the design problem after start the
construction because it something effect on their investment so they have to correct the design
very clear detail wise for that the BIM is the most suitable software for the following correction.
Mechanical
The mechanical drawings normally consist various mechanical components but those
components should cooperate with the other details for example, it is a mechanical
engineer’s job to design the elevator shaft, though the electrical engineer will need to have
a hand in the process as well.
Electrical
Electrical outlines can detail all of the electrical components of a building. This will allow
contractors to know where everything is going. It will also help all of the electricians to
know what they need to install and where so that there are no issues with maintaining code
guidelines.
Plumbing
It is also critical to have plumbing diagrams as this will need to be signed off with by code
enforcement. It will also ensure that everything is at the level where it needs to be.
9. BIM IN COST ESTIMATING
5.1 THE QUANTITY SURVEYORS
A quantity surveyor (QS) is a professional working with in the construction industry concerned
with construction costs and contracts. Services provided by a quantity surveyor may include Cost
planning and commercial management throughout the entire lifecycle of the project from inception
to post -completion. There are two types of Quantity Surveyors are involving in the construction
project
Consultant QS - The consultant QS is always in the design & construction
process, from the preliminary feasibility study through to the settlement of the final account
Contractor QS - Quantity surveyors are also employed directly by contractors
& subcontractor. Where they are usually responsible for financial administration of
contracts & other contractual matters.
5.2 BIM AND ESTIMATION
The most important stage is the tendering stage where the Quantity Surveyors favourite stage even
though they involve the all stages. Preparing BOQ is the important task of the Quantity Surveyor
as the consultant QS and contractor QS. The detail plan and if the project is complex difficult to
take quantity for the QS so the BIM give reduce the fatigue and increase the accuracy.
There are many BIM soft wares with different functionalities in the market today. These range
from software for modelling, quantities take-off and costing, project management to cloud-based
BIM. Typically, software for quantities take-off and costing can open 2D drawings or 3D models
created by BIM design or modelling software for viewing and quantity extraction. The generation
of quantities should be according to the standards method of measurements to produce the Bills of
Quantities. These include concrete volume with same or different mix, classification of formwork
in stages, reinforcement bars, interior finishes areas, and can be separated into building works,
architectural works, landscaping works and MEP works.
10. 5.3 BIM BENEFITS FOR QUANTITY SURVEYORS
Provide fast, effective and efficient quantity take-off and cost estimation.
Produce reliable and accurate quantities as well as competitive cost estimates.
Auto computation of calculations reduces human errors.
Generate cost estimation reports categorized according to areas, blocks, concrete grades,
subcontractor and other relevant reports and this increases the speed of deliverables.
Improve visualization of the elements/items for measurement and minimize omissions.
Hand over project to another party more quickly and reduce double handling.
Enhance communication and collaboration amongst team members.
Improve cost database management which reduces loss of information.
11. BIM AND SURVEYORS
6.1 BUILDING SURVEYORS
Building surveyors offer advice on many aspects of design and construction, including
maintenance, repair, refurbishment and restoration of proposed and existing buildings. They offer
quality assessments and report on defects in, or ways of improving, all kinds of buildings. As well
as finding structural faults, building surveyors recommend solutions. They can advise on the
feasibility of a building project, and how much it might cost to carry out, or how suitable a building
could be for a particular purpose.
6.2 BIM FOR SURVEYING
The most people know that other stake holder such as Engineer, Architect and Quantity Surveyors
who uses the Building information modelling (BIM) but the Surveyors also use this to achieve
their task successfully. This model-based approach combines technologies and processes to
support the efficient creation and use of information for building construction and operations. BIM
advanced co-operative platform, it offers many advantages to the project stakeholders associated
with a project. The available BIM tools involve automation and so quantity surveyors will get
advantages from this new process.
A surveyor’s responsibility in a construction industry is spread through the life span of a project
and therefore BIM provides many crucial benefits to him/her. With the help of virtual design and
construction features inside BIM, the surveyor can achieve superior control across the construction
progression. It also helps them optimize their work profile to a great extent.
BIM enhances superior communication and co-operation among different teams in a
construction project.
It helps the surveyor make the work quicker in lesser cost.
BIM ensures sustainability.
Surveyor, with the help of BIM, can produce accessible synchronous information regarding
project performance
12. BIM AND CONTRACTORS
7.1 CONTRACTOR
A contractor is anyone who directly employ or engages construction or manages construction.
Contractors include sub-contractors, any person self-employed worker or business organization
that carries out, manages or controls construction work. They must have the skills, knowledge,
experience and, where relevant, the organizational capacity to carry out the work safely and
without risk to wellness also they have an important role in planning, managing and monitoring
their work to ensure any risks are controlled.
Contractors on all projects must:
Make sure the client is aware of the client duties before any work starts
Plan, oversee and delegate all work complete without anyone else's input and their
specialists, considering the dangers to any individual who may be influenced by it
(counting kindred individual from the masses) and the touchstone expected to secure them
Check that all workers they employ or appoint have the skills, knowledge, training and
experience to carry out the work, or are in the process of obtaining them
Make sure that all workers under their control have a suitable, site-specific induction,
unless this has already been provided by the principal contractor
Provide appropriate supervision, information and instructions to workers under their
control
Ensure they do not start work on site unless reasonable steps have been taken to prevent
unauthorized access
Ensure suitable welfare facilities are provided from the start for workers under their
control, and maintain them throughout the work.
13. 7.2 BIM TECHNOLOGY FOR CONTRACTORS
The contractor is the person who make the project in to the practical in use. The contractor main
intention is the profit they go for the accurate Business Estimation of BIM and the contractors try
to develop the BIM technology in worldwide markets to gain brilliant market report, also BIM
encourages them to enhance profitability, proficiency, quality and security on their activities, and
in addition their own particular intensity. Specific advantages of executing BIM, for example,
diminished mistakes and oversights, limiting revamp, and the capacity to present new
administrations are viewed as huge focal points to contractual workers.
Bid Accuracy with Model-Based Estimating: Estimators conventionally spend a ton of
time doing manual takeoffs and quantifications in order to produce a final bid. Using
building information modeling (BIM) technology, Estimators can further add validity to
the numbers and identify any gaps and areas of risk that can be detrimental to winning a
job.
Greater Efficiency in Change-Order Management: In construction, change is constant and
the opportunities for projects to get off track are endless, so project managers must be
constantly vigilant. Relying on the traditional, manual approach to change-order
management doesn’t cut it.
Improved Subcontractor Coordination with Schedule Visualization: A huge advantage
that comes with BIM data integration in a construction project is the ability to visualize the
expected progress and actual progress throughout the entire process. Communicating a
project schedule visually is a useful tool for coordinating with subcontractors on the job
site and even more useful when the schedule data is integrated with the quantities available
in Assemble.
In the past, creating transparency and collaboration among all specialty contractors in a project
was seen as a tall order. Today, however, BIM gives general contractors the ability to share model
data with subcontractors. This visual representation of the data helps both contractors and
subcontractors simplify and improve overall efficiency and coordination.
14. BIM FOR FACILITY MANAGER
8.1 FACILITY MANAGERS
A facilities manager is a job role that is responsible for making sure that buildings and their
services meet the needs of the people that work in them. Facilities managers are accountable for
services such as cleaning, security and parking, to make sure the surrounding environment is in a
suitable condition to work. They also manage any building maintenance with things like heating
and air conditioning, to maintain the working environment.
The normal elements of this employment position can shift contingent upon the organization. Be
that as it may, the obligations would regularly incorporate dealing with any repairs, remodels and
office moves to ensure they all run easily and as per design.
Facilities managers are responsible for the general upkeep and maintenance of buildings to ensure
that they meet health and safety standards and also the legal requirements. They need to manage
the cleaning, waste disposal, catering, security and parking of each site, while managing the
budgets and keeping records of all payments.
Facilities managers are also responsible for managing the office systems, which can often include
the IT and office equipment. In some cases, individuals working as facilities managers will work
for an external company, contracted in to manage a number of different organizations. The job title
may also differ. It could be anything from business services manager to support services manager
or contracts manager.
15. 8.2 BIM AND FACILITY MANAGERS
The facility mangers are one of the unknown profession in the construction field which support to
the contractor to make satisfy the client. The facility managers mainly consider about the
Utilization of the space BIM provides significant benefits in the initial stage for entering the facility
information specially the 2D and 3D information. Identified benefits of BIM for facility Managers.
Cost savings at both delivery and operational stages: BIM can help organizations strip
waste from their processes, as they can virtually build the facility as many times as
necessary to create the perfect model. This also provides cost certainty.
Improved efficiency and faster project delivery: As all parties work together
collaboratively, mistakes, discrepancies and duplicate work is avoided
Improved client satisfaction: The client receives a building which matches their
expectations and needs.
Reduced safety risk: BIM allows crowd behavior to be analyzed and fire modelling
capability to be predicted to enable designs to be optimized for public safety.
Greater project predictability and early modification: Projects can be visualized at an early
stage, giving owners and operators a clear idea of design intent and allowing them to
modify the design to achieve the outcomes they want.
A greater role for FM: BIM allows the professional FM to get involved at the design stage
and have a real impact on the building outcome which both improves the outcome and
raises the profile of the FM function, which is the purpose of Government Soft Landings.
16. BIM AND SUB CONTRACTORS
9.1 THE SUB CONTRACTOR
Subcontractors perform work for general contractors, who give them part of an existing contract
to complete. The general contractor has a written agreement with the employer to perform a job.
The general contractor oversees the project and delegates work to the subcontractor.
Subcontractors may also have direct contracts with other subcontractors to perform a portion of
the work under contract.
9.2 BIM FOR SUB-CONTRACTORS
The sub contractor is the person appoint for the special technical works. According to the
traditional system Subcontractor will find the same information is being entered into computer
programs multiple times, each time for a distinct and separate use. Some of this duplicate data
entry occurs within the company and some of it occurs across the project team. Also, they are
limited by the tools and processes specially the long-term value to the project team is limited by
these methods and the output also reduce.
If the subcontractor use BIM, he can have connected the processes of design, engineering,
manufacturing and procurement. And also, he can have connected these processes with the rest of
the team. The improved, and in some cases new processes they employ are recognized as a great
contribution to the efficient execution of the entire construction project.
The sub-contractors who are using the BIM are seeing significant improvements to the overall
efficiency or their organization and the specific productivity of their team members. The
subcontractors have introduced new work processes that allow them to prefabricate coordinated
systems even in the most complex construction environments.
The BIM gives better advantages for the subcontractors to the better implementation of the lean
construction techniques it supports to the sub contractor to coordinate with the general contractor.
Also, it provides the basis for include planning and scheduling of subcontractors and helps to
ensure JIT (just in time)
17. BIM AND FEBRICATORS
10.1 THE FEBRICATORS
Structural steel fabricators provide and erect quality, fabricated steel components and structures.
They offer a cost effective, durable, and stable high-quality steel construction solution. The typical
structural steel fabricator employs admin personnel and salespeople, engineers and project
managers, detailers, shop workers, equipment operators, welders and painters, inspectors, and
delivery drivers. Construction projects range from the fabrication of several tons of structural steel
for to tens of thousands of tons for a high-rise commercial structure.
Structural steel fabricators physically prepare the structural steel components for a construction
project (bridge or building). Upon project award, the fabricator’s steel detailer is responsible for
creating accurately-dimensioned drawings of each structural steel component and connections to
be fabricated. Acceptable load dimensions must comply with the equivalent standard requirement
for that size and shape of structural steel required by code. The structural engineer approves the
drawings and the shop flow and project schedule / material management sequence is prepared, to
include:
(Plasma) cutting to the proper length,
Punching or drilling,
Shop fitting (bolting, welding),
Cleaning and painting or galvanizing when required,
Grouping members in their field-erection order, and
Shipping and delivering to the project site.
18. 10.2 BIM BENEFITS FOR FABRICATORS
The auto desk Revit is the famous tool which used by the fabricators which use create architectural
scale models, and facilitate digital production of custom building components and assemblies
BIM models are increasing being used to facilitate a variety of related building activities, including
digital fabrication of building components. The use of BIM enables digital design-to-fabrication
workflows for many creating many types of building elements, including:
Structural steel framing
Curtain wall elements
Façade and building envelope features (for example, rain screens, shading features, and
pre-cast panels)
Mechanical systems and ductwork
Piping assemblies
Casework and furniture systems
Digital fabrication can be used during many phases of the project lifecycle, supporting both design
activities (3D printing of scale models of design options) and production tasks (creating actual
building elements). Also, the prefabrication and digital fabrication strategies typically offer many
advantages compared to on-site piece-built approaches such as
Cost Savings
Schedule Reductions
Improved Quality and Control
Better Coordination and Clash Detection
Informed Design
19. OWNER AND BIM
11.1 THE OWNER
The owner also mentions as client who is the person for whom the project is carried out. In the
case of notifiable projects, clients must appoint a Principal Designer and a Principal Contractor.
Those clients without construction expertise must rely on the advice of professional experts on
how best to meet their duties, but both the Principal Designer and Principal Contractor will need
the clients support and input to be able to carry out their work effectively. The client remains
responsible for ensuring that client duties are met.
The client is the person
Who ultimately decides what is to be constructed, where, when, and by whom?
Who is at the head of the procurement chain?
Who arranges for the design work?
Who engages the contractor?
Who initiates the work?
The owner who is the person initiate the project and from the conceptual stage up to deflects period
he travels with different type of stake holders Throughout the world, major building projects tend
to be characterized by time delays, materials waste and cost overruns. The cost of this “perfect
storm” of inefficiencies, more often than not, are borne by building owners during the ongoing
operations and maintenance stage of the building lifecycle.
20. 11.2 BIM FOR OWNERS
The owner is the person who invest his money to the project so he always considers about cost
overruns, schedule delays and quality issues when explores how BIM helps owners and operators
gain efficiencies throughout the lifecycle of a building project from design and construction stages
through to occupancy—for improved facility management and O&M.
Huck.E, Paul . T, Rafael .S & Kathleen .L. (2008).The owners always think to manage the cost for
the lifecycle of the project the BIM which support and allow the owners to better respond to market
demands and yield a better return on their capital investments. The owner can get better output if
he gains better knowledge in BIM
Using BIM, owners can:
Improve building quality
Significantly reduce building lifecycle costs
Better understand design projects from beginning to end
Optimize operational efficiencies
Increase occupancy and use rates
There are drivers that are motivating all types of owners to adopt BIM technologies, these drivers
are
Design assessment early and often
Complexity of facilities
Time to market
Cost reliability and management
Product quality, in terms of leakages, malfunctions, unwarranted maintenance
Sustainability
Asset management (pp.305-325). Hoboken, NJ, USA
21. CONCLUSION
The report gives the clear idea about the stake holders who use this BIM technology also this
concept supports them to do their duties in the effective and efficient manner. Even though the
BIM technology gives the number of benefits most of the stake holders still don’t have the idea
about this and also, they like their traditional system.
The stake holders who know about the BIM application also try to away from this application
because of the challenges such as challenging with collaboration team, legal challenge to the
documentation and ownership, changes in practice and use of information.
However, BIM is changing the way construction professionals perform their individual tasks and
more importantly, how they collaborate, share and exchange information. BIM is directly
influencing building designs, functions and the ways in which buildings are built so to become the
professionalism in the current construction industry the application of BIM is the must.
22. REFERENCES
Chuck Eastman, Paul Teicholz, RafaelSacks andKathleen Liston. (15 APR 2008). BIM
Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers,
Engineers, and Contractors. Hoboken,NJ, USA: 2008 John Wiley & Sons, Inc.
Goldman, M. (Jun 21, 2010). Building Information Modeling or BIM is the hottest topic in the
construction.
investodia. (n.d.). Retrieved from http://www.investopedia.com/terms/s/stakeholder.asp/
THE ENGINEERING DESIGN. (2016,july 13). Retrieved from Benefits of BIM for MEP
Engineerin: https://www.theengineeringdesign.com/benefits-of-bim-for-mep-engineering/