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Manufacturing process refers to producing physical and tangible components that can be used in different fields as a part or whole. This is one of the most cumbersome phases of the process. However, as a manufacturer or a manufacturing company, it is very important to work towards cost optimization and ROI available existing operations.  With newer software, workflow methodologies and technologies coming to play, even the manufacturing industry can reap benefits through an efficient and effective way of production. Today we will talk about the manufacturing process in the construction industry. There is the immense scope of using BIM in manufacturing industries and several manufacturers are making a shift towards BIM using Revit content creation process.

BIM or Virtual Construction Modeling is a wholesome process that was developed with a motto of improving overall building construction lifecycle. The goal is to ensure the development of a wholesome process that helps in collaborating building data or information with 3d visual geometry of a building structure. Such a process restructures the overall flow of information across all junctures of construction. Manufacturing is also indirectly a construction stage as the components that need to be installed are manufactured independently and is not interwoven within any construction phase. Hence it becomes very important to ensure how the manufacturers can utilize Building Information Modeling in their processes. Construction Companies use BIM Services in conceptual designing, analysis, costing, as built as well as facility management. How Manufacturers use virtual construction modeling is here to see.

When we work on Revit family creation or BIM content, these content are mostly of the pipes, ducts, electrical fixtures etc. that has to be fabricated or manufactured. With the help of the BIM content, components can be manufactured based on the specifications. Adding parametric information that can be changed across based on the modeling environment is what makes it a must use for the manufacturers. Information is one of the Key elements of “Building Information Modeling” and the utilization and the design value of the building should be complementing each other. None of the factors should overpower each other.

For Manufacturers to use BIM it is very important for the data or the components to be structured with all information necessary to produce them. The data has to be loaded with certain parameters like material type, color, properties, dimensioning etc. and be converted into the format so that it can be easily manufactured.  Companies can also utilize BIM Modelling or BIM content creation to boost their product or component sales. Virtual Construction Modelling allows product designers or manufacturers to create standalone components or products which can be marketed and sold online as well.

Clients or end users who actually are looking for products can review them, get an idea of the exact specifications and order the product or component online. Construction companies can fairly order materials in high volume based on the specification online and save cost. With the help of BIM content creation, COBIE etc. construction companies can match the products online and choose the products.

Building Information Modeling is absolutely a data governed process through 3D design presentation is also an important aspect of the project. Revit family creation is one of the services that is actually useful for the manufacturing industry. The BIM Model and data actually are a conglomerate of multiple components and data within these components. The model in totality comprises of these components with specifications and the building is constructed by installing the prefabricated components. These components can be manufactured based on the BIM families created for the model. Each component is assigned a code and manufacturer spec which makes it easy to manufacture and supply both.

This process itself shows how BIM Modelling is influencing the manufacturing industry. With latest manufacturing techniques coming up lately, the.RFA format can be actually fed in the CNC machines and a product or component can be manufactured exactly the way it is modeled. Manufacturers can avail the benefits of BIM Services by getting the following

• Bill of materials
• Prefabricated components
• Part and assembly lists
• Takeoffs, estimations etc.

Manufacturers play a very important role in the BIM-centric construction process. BIM Content supplied to the manufacturers should be of high quality, accurate and detailed with all relevant parameters and information. MEP components such as Ducts, pipe, wires, plumbing and HVAC equipment’s etc. are the ones which are manufactured prior to installation.

Using BIM content creation for their manufacturing requirements actually makes a manufacturer different from the rest today. In years to come, there may be a possibility of 80% of the companies using BIM.  Currently, the one using BIM is extremely ahead of his detractors. Not every country or continent promotes BIM technology hence the utilization quotient is less. However, countries like UK and Ireland which has mandatory BIM requirements for all the Government projects are definitely moving in a positive direction.

The best part of using BIM content is that the manufacturer’s requirement of the specifications can be inculcated in the design intent and issue for construction model prior to the finalization of the design. This makes the overall analysis process extremely productive and accurate for the product designer and the manufacturer. Before manufacturing the product all the specifications will be “approved” by the final authority. Any issues in the sizes, shapes or other specifications will be discussed and resolved before the components are ordered. This eliminates chances of material wastage which helps in cost control and budgeting.

Integration of the manufacturer and product data within the BIM Modelling or overall BIM construction process helps in achieving excellent ROI and achieving quick turnaround time.  The data that is derived can be used right from the conceptual design model through facility management. The same data can be later used for maintenance of the building. Re-ordering, servicing of the equipment can all be managed in a structured way if the manufacturer is a BIM user.

The advantage of using BIM are many and the manufacturing industry can benefit tremendously thus increasing the overall productivity, minimizing the cost and reduced timelines.

A lot has been written and discussed the benefits that Building Information Modeling offers to the AEC Industry; making it universally common in the vocabulary of the construction industry. Though the advantages that BIM brings to a project are the same for new as well as renovation projects, it should be understood that BIM Modeling for renovation requires partially different procedures from those carried out for new construction. For renovation projects, there is an existing “As-built” condition that adds a layer of complexity before the standard BIM workflow.  How this information is handled for creating the BIM model determines the success of the new design.

If you were to search the internet to understand the advantages of Virtual Design and Construction, you would get a lot of information on how BIM can be utilized to create a new building. Unfortunately, very few information is available from the perspective of the renovation of a building and how it will specifically benefit the project. Let us understand this by taking an example of a real-time project.

There was a school building with an area of approx. 500,000 sq. ft. that was to be renovated so as to create more space for classrooms by utilizing the available space more effectively. It required changes in its Architecture, Structure, as well as the MEP sections. Once the decision for renovation was made, consultants were pulled in to carry out Architectural BIM Modeling, Structural BIM Modeling and MEP BIM Modeling. Clash detection and BIM Coordination was to be carried out once the new designs are developed. The idea was to keep the changes to the minimum while utilizing the existing infrastructure in the best possible manner.

There can be two approaches to this project:

Using the existing 2D plans to create a BIM model and develop new designs based on this model.

Scanning the entire building and capture the As-built conditions in the form of point cloud and using this point cloud data to create new designs by converting the Point Cloud to BIM models.

Since the existing 2D plans were available for this project and there was no major change in the existing condition when compared to the 2D plans, it was decided to create a BIM model from the CAD drawings itself. A team of architects and engineers first developed the Architectural and Structural BIM models. This model was then used to develop the new Architectural and Structural design. Since the architects and engineers were able to visualize the actual condition, the overall design turned out to be much more efficient. The MEP engineers then developed the MEP design keeping in mind the architectural and structural components of the new design. Once the MEP BIM model was developed, Interference check and coordination were carried out between all the disciplines using Navis works. These clashes were then resolved by making appropriate changes to the model. Once the renovation on site commenced, the information contained in the model came in handy and made the entire construction process efficient and cost-effective.

Building Information Modeling has been in the news for the past few years for the benefits it offers to the various players in the AEC industry. It is a fascinating technological advancement that the construction industry has witnessed in the last couple of years. BIM Drafting Services has been widely used by companies to make reliable decisions about a building at all stages, i.e. from planning to construction to demolition to renovation. It allows the architects and engineers to create the building digitally before commencing the construction process on the field. Virtual Design and Construction helps professionals to detect discrepancies during the conceptual/developmental stages. It also helps to identify the exact location of the issue and resolve it so that the final design developed is free of clashes.

That’s not all. 2D drawings such as Architectural Construction Drawing Services and MEP Shop Drawings can be extracted from the BIM model that is developed. This eliminates the need for duplicate efforts in changing the 2D drawings because of any change in the design. Let us consider a typical project wherein BIM Modeling Services were used in the pre-construction phase. The project was to develop a commercial building and community center with ten floors plus a mezzanine floor and a basement.

The scope of work included:

• Architectural BIM Modeling
• Structural BIM Modeling
• MEP BIM Modeling
• Clash Detection and BIM Coordination
• Architectural Construction Drawings
• MEP Shop Drawings

The project was divided into 3 phases:

The first phase included the development of Architectural, Structural, and MEP BIM models from design drawings

In the second phase, clash detection was performed, and the interference were eliminated between the Architectural, Structural and MEP models to create a coordinated BIM model.

In the third phase, Architectural Construction Drawings and MEP Shop Drawings were extracted from the coordinated BIM model.

Building Information Modeling is nowadays becoming essential and plays a significant role in making new construction projects successful with almost 100% satisfaction. BIM models created using modern software are not only useful for design engineers but are also helpful for project management, cost management, engineering consultants and builders during construction and installation. Let’s dive into an overview of Architectural BIM Services.

What is Architectural BIM?

Architectural BIM Modeling includes the process of conversion of paper architectural drawing, hand-drawn sketches and rough ideas into realistic 3D models. The inputs can be in the form of:

• Auto Cad files
• Paper sketches
• Rough ideas
• PDF files
• Scanned pictures
• Images in any format

The output of maybe in types of:

• PDF files
• Revit 2D files
• Revit 3D files

There are many software available that are very efficient and offer an excellent opportunity for collaboration. Some of the major software that helps in providing precise Architectural Bim Services are ArchiCAD, Revit, Sketch up, All plan Architecture, etc. Selecting an appropriate software can hold the key to the overall success of utilizing virtual designing in a project.

3D BIM Modeling Services helps to analyze the arrangement of spaces, components, and connections inside the room space. It provides space for the client’s customized design inside the room and thus results in satisfaction. It also helps in proving different views from various angles. Along with that, it provides the flexibility of changes in the initial design concept.

Benefits of using Architectural BIM Services

1.Using VDC in the architectural designing process helps architects to visualize pre-construction models. Which helps in analyzing different design concepts in achieving actual building design.

2.It provides 3D realistic models to architects, engineers, builders, contractors and interior designers that in turn, will allow reducing project cost.

3.Generating 3D models helps in getting a high degree of precision, strong design perception, a good understanding of architectural design standards and access to modern technology. It delivers higher-quality BIM service and helps in moving towards project success.

4.Virtual Design and Construction provides high quality and accurate documentation of the construction process, which helps in Risk Mitigation and conflicts removal.

5.High-quality construction documents that are extracted from the architectural model play a vital role in waste elimination cost saving that speeds up the construction process.

6.For a project contractor, the information contained in the completed 3D VDC model can be compared against the finished structure to locate discrepancies and fix responsibilities in an event. At that time a dispute like this can serve as evidence for the parties involved, thereby curbing legal hassles to a certain extent.

conclusion

The role of BIM Modeling spans beyond just being another digital medium. By correctly using the features available with the software, it can help you in minimizing costs, locate and fix errors in the pre-construction phase itself (i.e. before they happen on-site during construction), and accelerate construction schedules. Our team of BIM modelers and architects provides Architectural BIM Modeling Services for residential, commercial, institutions and industrial buildings.

Every industry involves chances of risk and responsibilities, but the Construction industry is the ones who are engaged in higher-stakes of risk that may include loss of human life. Taking Safety measures is a major priority for the construction industry. So by using BIM Services, it can help Architects, Engineers, and contractors reduce these risks in an efficient manner than conventional processes.

What is BIM?

At present, BIM (Building Information Modeling) is quite a buzzword for the construction industry. It is a procedure that links all the necessary part of the design and construction process. BIM helps in a thorough understanding of the projects to make a correct decision afterward

Benefits of BIM for Architects and Contractors

• For Architects, it is easier to make their clients and contractors understand the design from scratch to finish. The modification can be easily created and recognized by them. Clash Detection and Resolution can be carried out in the model itself.
• It is less time-consuming and economical for the architects that might have spent time on coordination, processes etc.
• BIM gives a digital representation of any structure that has made work for architects better that helps them to communicate their designs well and make minimized errors in complying information.
• For Contractors, Their work got more effective due to amounts of data and level of details provided by the 3D Models. It helps them to enter their information in terms of product information and job site activities under Common data environment (CDE) In case of any queries, Contractors can enter Request for information form directly in the model for architects to rectify errors before construction work begins.
• BIM benefits the most for the contractors in providing accurate digital representation for validating cost estimates and risk evaluation.

Conclusion

The future hold of using BIM would be enhanced more and more by Architects, Engineers, and designers when they would start grappling the benefits for those clients who require information in a compatible format. Collaboratively working is an essential part of BIM. Teamwork is enhanced by using BIM for Architects and Contractors. BIM helps them to provide a higher level of detail so detect clashes, cost estimates, and make schedules more accurate

Architecture is a discipline that includes dealing with building design and non-building structures. An architect’s job is to create the aesthetic feel and look of the building and structures that provides shelter to live.

Qualities

Design Sense: – A good architect has great contemplated for a design that is to be presented on papers to the clients and builders. They have empowered with a design that can be created by just listening and curating ideas by thinking. They must have a good understanding of design processes, such as how to combine visual appeal with functionality and must know how to compromise both together. Creativity is blending for architects to make a design that is worth building. The ability to be creative and innovative often allows them to work in a given set of parameters that contain resolving complex design problems in the built environment while delivering optimal value.

Communication Power: – Architects believes in communicating their ideas, plans and thoughts to the client while showcasing design on papers or through technology advancement. Whatever the demand and requirement of the client are, the architect makes sure that everything in detailed is communicated with them. Apart from clients, there are many people involved in the construction such as construction managers, engineers, contractors and more where you need to liaise with them as well who have different thoughts and interests. Communicating and meeting everybody’s need is the essential role of an architect that will lead to successful delivery of the project.

Listening Skills: – Architect must be pro in communication with the clients, and so they must also be good listeners. They must willingly listen to the ideas of their clients and other people around. They can create a great design based on ideas given by them. Here the process of envisioning utilization of space is done by listening and curating ideas to acquire the final product. 

Sketching Skills: – To get accurate design and plan in the drawing, the architect must have great sketching/drawing skills. They must know how to draw with hands or by using computers. Architects must be familiar with methods and processes only then they will be able to scale down accurately the ideas on papers.

Technical Abilities: – Architect must have good technical abilities to incorporate mechanical, structural and electrical components into their design to work it functional and operative. Architectural Construction Drawing services are a detailed piece of work; hence any mistake in placing any components can cause dense problems and delays down the line. It is important for the architect to have accuracy in depicting details and must have knowledge of other disciplines.

Problem-Solving Skills: – It is the main quality that the architect must have to solve problems quickly. They know how to address the problem and come up with possible solutions. Another plan is ready with them if any initial plan goes wrong. They can suspect problems beforehand and re prepared in a way to solve them easily. Flexibility and adaptable architects can resolve problems quickly and efficiently.

Collaboration Skills: – Architects have to work with other disciplines engineers, builders, contractors and more. They must communicate well and collaborate for the successful completion of the project. They must be trained to work in a team environment to carry out work within everyone easily.

Visualizing Skills: – Architects have great visualization powers and can put the design on papers very accurately with a greater sense of vision. They can visualize the outcome of the project with the detailed process starting from the plan. They can visualize the results through all the steps of the designing and building processes.

Passionate: – Architects embody their work and have a strong passion for upcoming projects. It becomes important to understand how the industry you entered works and how to get connected with the right clients and provide them with what they require.

Competitive: – Architecture is a very competitive field you have to be out-of-box to stay in the game of designing and curating ideas to clients and end users.

Conclusion

Becoming an Architect requires more than visualization and flair; you need to be business-minded, open to change with a veritable array of transferable soft skills. A project can only be completed when the architect has all the qualities and is wise while communicating with the clients and other disciplinarians. Architectural Bim Services is an important part of the construction process it needs to be precised, and design must be made creative, and as per client’s requirement only then it is successful completion of the project. It is performed by the Architects to evaluate design of the building as per their skillets.

We often hear about the remarkable potential of Building Information Modeling (BIM) in communication and collaboration in construction which could eventually result in boosted productivity and higher margins.

Nevertheless, BIM holds immense potential for construction and engineering in other areas, as well. Safety is, undoubtedly, one of the fields where BIM Services can make a big difference.

That is of paramount importance, if we consider that construction is one of the most dangerous industries to work in.

With all that in mind, we present today some of the reasons why BIM could play a decisive role in revolutionizing safety on site.

Some stats about construction safety

Before we dig deeper into the different ways BIM can have a positive impact on construction safety, it would be a good idea to take a closer look at some stats and numbers concerning the hazards that workers have to face on the site on a day-to-day basis.

In a nutshell, here are some of the most eye-catching statistics about accidents and safety in the construction industry:

• Based on numbers of the ILO (International Labor Organization), almost 60,000 workers are fatally injured on a construction site every year.
• Falls appear as the number one fatal threat for people working on site. This fact triggers many questions about the safety measures on the field.
• During a 45-year career in construction, workers have a 0,5% possibility of getting involved in a fatal accident. That’s probably the highest percentage compared to all other industries.
• Poor experience or lack of training is seen as two of the main factors behind the vast majority of accidents in the construction industry. This assumption is supported by the fact that 60% of the accidents in the sector happen in the first year of employment on site (based on BLS – Bureau of Labor Statistics).
• In total, 20% of fatal accidents on a working space are connected to the construction industry.

The role of BIM in improving safety on site

The numbers mentioned above prove on an emphatic way that there is still a long way to go for construction in terms of workplace safety. BIM can be part of this solution as it enables better communication between the different sides and offers a better overview of the construction site.

In short, this is how BIM can raise the safety standards in the industry and introduce a new era on the field:

Easier hazard prediction and prevention

Through the power of data and the open collaborative model, project management teams in construction would be able to stay one step ahead of everything that happens on site.

The full virtual visualization of the built structure can help the construction team to locate hazardous situations before they even become apparent. Sometimes as early as at the design process.

Safety tours

As a natural continuation of the first point, virtual safety tours are considered to be one of the biggest contributions of BIM in construction. More analytically, thanks to the virtual model of the building, the project team would be able to search the entire building and identify any potential sources of danger.

Furthermore, such a model would enable them to conduct safety stress tests which would provide them with a more complete idea regarding the limits of the built structure. To put it simply, it would allow the testing of different hazardous scenario on a virtual level.

Offsite construction and prefabrication

Offsite construction and modularization are continuously gaining more attention in the course of the last two decades in construction. The reason is, of course, the lower cost and the better prediction of the different project phases.

A more standardized building approach would eventually have a great effect on safety, too. The ability to move many of the onsite construction activities to a warehouse or a factory eliminate automatically a considerable number of hazards on site (eg. working at heights).

What’s more, prefabrication equals a repetitive and exhaustively defined process which in the long run could decrease dramatically the room for errors (eg. the use of specific type of tools and equipment).

Fact-based analysis of an accident

No matter how careful a construction team is, the possibility of an accident will always be there. If, for any reason, this accident actually happens then BIM can play a critical role in analyzing the accident with precision and identifying the true factors behind it.

Being able to virtually replicate the accident would help the project team to take all the necessary measures in order to ensure that such an incident won’t happen again.

This would eventually lead to better-defined guidelines around safety and a better understanding of the numerous hazards on site.

Lastly, BIM could contribute to the quick resolution of legal conflicts related to construction safety as it would offer to the two sides all the data they need in order to figure out the person (or people) responsible behind an accident.

Real-time collaboration

Working on an open collaborative model means that all members of the team have always access to an up-to-date version of the reality on the field. This is of vital importance if we consider that it would leave no room for misunderstanding and therefore no room for mistakes.

In addition, everybody can easily get informed about the different specifications for the project and can have a good grasp about the onsite logistics.

Knowing with accuracy, for example, when and what type of equipment and vehicles will be on the site allow the workers to plan accordingly and put together a functional safety strategy. This could translate to safer onsite maintenance and better material management (eg. wider lanes for the safe delivery of the equipment/materials).

Wrapping it up  

All in all, it is evident that Building Information Modeling can change dramatically the way construction plans and operates in terms of safety. The virtual representation of every stage in a project will result in a safer onsite process and will lay the groundwork for higher levels of predictability and standardization in the construction industry.

BIM has transformed the construction industry and the way it used to deal with complex projects. It started with creating 3D virtual model shifting its focus to BIM 4D Modeling Services and 5D BIM Services cost planning for construction firms.

Quantity takeoffs are an essential aspect of the Construction estimating Services in the construction project. It can be used in small, medium, and large projects to determine cost estimation by all the construction trades. It depicts the list of material to be used in a project. The estimator defines the amount of material required and its associated costs.

To get the cost estimates of material, the estimator needs to get accurate and proper drawings, models, or blueprint. The information processed by the quantity takeoffs has collaborated with the estimation of labor costs, overhead costs, etc.

Types of Quantity Takeoffs

Quantity takeoffs are prepared by many people involved in, and it needs to be unique. Every individual that define quantity takeoffs may have different methods and can format the final quantity of cost analysis.

Manual Quantity Takeoffs

Manual quantity takeoff is determined without any assistance of digital takeoff software. It is entirely prepared by hands, and the estimator would work on physical drawings to create a list of materials. Even today the information is stored by hand in quantity takeoffs being accessed in digital software. Calculation by hand would be more complexes than doing on software.

Digital Quantity Takeoffs

Digital Quantity Takeoffs are prepared on BIM software like Revit that contains digital capability. For easy calculation of material procurement in quantity takeoffs, running it in construction estimating software can be used. Drawings are uploaded or scanned into the program which analyzes the drawings and generates a list of material required in it.

Adjustment and wastage analysis of material and to order materials can be easily done in the digital software, which reduces errors associated with quantity takeoffs. It needs much less time to get produced than manual quantity takeoffs.

Conclusion

Quantity takeoff, when done with BIM software like Revit, calculates material procurement much faster, easier, and saves times. Digital quantity takeoff makes the model calculation of cost estimating services accurate and precise that helps the General Contractors, Subcontractors, and other construction traders to make a decision accordingly.

Every business would be associated with some amount of risk but with the construction industry; it has more risks involved in a project. Every project would have some challenges and opportunities to tackle depending upon situations. The type of risks involved in a construction project includes financial risk, legal risk, safety risk, labor shortage risk, miscommunication, etc. But with the help of BIM Services software, we can place the model, supervise the schedule and cost estimates on the project incurred to reduce the risks.

There are many factors which lead to risk in a construction project i.e., intensive competition, high return on investment, the pressure to save money and time, incurring low margins and profits, more handling of disputes and safety issues. All the factors are taken care to reduce risks of any project while creating proper planning and execution.

Once the project is approved, the risk management team of the company would enhance the factors deeply to monitor and control every element to ensure minimum risk. Usually, this becomes a critical situation for the project managers to control and manage risks which they do with the help of construction software that carries out multiple risks management through the scope of the project. With the right team, it is easier to formulate a risk-based operational program that can help you better manage end-to-end project life-cycle.

Managing risk of a construction project is significant for any company as it assures survival and growth. The company needs to understand where the threat comes from projects that can increase cost and other issues. In most of the complex projects, the project manager struggle in delivering performance and control assessments.

Projects need to be moving for which companies need to control and manage risks which aren’t easy. Managers and expert need to identify and manage risks with accurate planning and execution as a risk takes into actuality that can disrupt the project.

Risk management is the identification, assessment, and prioritization of risks that can be handled, managed, and reduced due to ways or technology that can not disrupt the business goals. Let us understand how to discover the risks and types of risks associated with the construction project.

Risks associated with construction projects

• Financial Risks
• Schedule Risks
• Safety Risks
• Contractual Risks
• Environmental Risks

How to manage risks occurred in the construction project

• Avoid risks
• Transfer risks
• Mitigate risks
• Accept the risks

Conclusion

The construction industry is more prone to incur accidents and risks, which can harm the projects. Construction risk management team becomes essential for the betterment of the company. The risks management concept focuses upon completing the project in a set time, accurate budget planning, and following quality guidelines.

The project managers and construction managers are responsible for reducing, transfer, or mitigate the risks factor from the project. Either by contractual agreement or taking proper measures, the risks are handled and reduced. To avoid risks between all the three construction discipline that is Architectural, Structural and MEP collaboration, communication, and BIM Coordination services are required that help to bind the project and work together.

In the coming future, due to high-end advanced technology, we can easily track the changes, worker’s task and conduct project analysis and handle accidents happening on-site.

As-Built Drawings helps the owner, surveyors and facility managers to enclose the project’s components such as location, dimensions and other related measurements. It also includes additional details that are vital for the project such as a specification of walls, doors, HVAC systems, electrical fixtures and more.

As-built drawings are completed and submitted by a contractor once the project is completed. Drawings are revised from original design drawings to reflect any changes in the on-site such as component relocations for coordination, rerouting of distribution systems, etc. As-built Drawing services specify all the structures and elements within the scope of the building project; all the modification and adjustments should be included along with a record of approvals.

It is essential for the owners as it can be used in the future for existing restructures or grasping any change in the built model. It is crucial as it furnishes the representation of the entire project on completion. These are the revised drawings which are submitted after a construction project is completed. It includes all the revision and changes from the pilot drawing of the complete project.

Architects and the designers create the original drawing plans which serve as the base for as-built drawings. These people are the most qualified persons to make as-built. The most crucial challenge faced by these peoples is the changes track. Final as-built drawings are the responsibility of the contractor.

Why As-built Drawing is essential and who get benefitted from it?

Construction projects are not the exact and precise as a model is made in the initial stages of it being constructed or planned. Changes made in the model helps the contractors to gather information for installations of components differently from the original design, which makes the contractors have a record of changes made in the plan or drawings.

As-built drawings have two substantial principal purposes, which is essential documentation in any construction projects.

• From the drawings data, we can make future changes which serve as the renovation of existing structures or modification in buildings. It is easier and efficient for the contractors to retrieve as-built documents for accessing information on drainage systems, ducts, etc.
• It is practical tools for the facility managers to define critical items and objects accurately.

Conclusion

As-Built drawings in both the article state it can be used by facility managers, owners, surveyors and contractors for accumulating any changes in the constructed model of the building and keep track of revised changes into the documentation. It is prepared by the architects and the designers that are used by contractors to build the model and use the as-built drawing of it for future reconstruction or new construction projects.

With construction management software, mobile technology and BIM workflow, the as-built drawings are more precised, accurate and cost-effective for the owners to understand and keep track of any changes made by anyone in the construction process.