Top Reasons toAdopt BIM Technology in Construction Projects

Top Reasons to Adopt BIM Technology in Construction Projects

Building information modeling, widely known as BIM, has been acknowledged as a catalyst for innovation and enhancing productivity in the AEC industry. Since its inception, BIM service has taken over the construction industry and quickly became the standard in building and project design. BIM is a sophisticated design and construction process that enables architects to develop creative structures of the future. It is a breakthrough innovation in the construction industry that allows for the virtual planning and management of projects throughout the building’s lifespan. In short, BIM can be defined as a virtual representation of a building or infrastructure incorporated with functional characteristics.

Rich data models enable simulation to opt for an informed decision-making process, and the generated insights can help to reduce cost overruns and delays and escalate the workflow in the construction process. As a matter of fact, a single BIM file can be accessed by multiple stakeholders, professionals, architects, and engineers, allowing accurate information and streamlined communication. Today, with technology having the supreme hand, BIM services have become an essential tool in the AEC industry and have been adopted in various construction projects across the globe. With that, keeping in mind, 83% of BIM users have witnessed positive ROI on overall investment, and 93% believed in the potential of gaining more value in the future.

Around the globe, it has been the most revolutionary technology to ease out the complex and long construction process. Multiple professionals involved at different stages of construction have resulted in fragmented information, clashes in communication, quantity takeoff measurement, and much more. However, incorporating BIM has resulted in a rich database that is shared with multiple professionals to be on the same page, reduced the cost and time overruns, avoided wastage of materials, and streamlined workflow in the entire construction process. Moreover, incorporating BIM can improve the operation efficiency of the project. The list of benefits can go long; however, the following are the perks of BIM modeling services for different stages of construction and an overview of the adoption of BIM technology by varied countries.

Benefits of BIM Adoption in the Pre-Construction Phase

During the pre-construction stage, BIM technology helps review all project valuations to estimate the economic advantages for the contractor. BIM modeling services enable earlier mistake identification and evaluation of design performance. It also provides construction companies with visual representation and assists them in managing project risks by detecting early design errors, potential conflicts, and clashes, reducing rework and expenditures.

Project Visualization

BIM services let you visualize the finished product at each step of construction. This allows professionals to view it at both the building and the site. Moreover, this specifies the project’s time restrictions. It updates the model’s construction scheduling feature based on the updated period. These problem areas will emerge as you see the project’s animation steps.

Accurate Cost Estimation

Manual processes are time-consuming, tedious, and prone to human errors. The fifth component of the building information model cost allows AEC professionals to gain insight into its timeframe and costs. They can attribute even the most negligible costs in the firm to the correct cost center. The on-screen amount is a graphical interface that assists engineers and contractors in making better decisions. As a result, they can produce more accurate bids by accounting for all aspects affecting the cost, and the process is also sped up. It provides a safe margin to work with when determining the final price.

Benefits of BIM Adoption in the Construction Phase

BIM service provides cost savings during the pre-building stage and throughout the construction phase. It can also support scheduling the project timeline while capturing labor productivity data. Some construction projects completed in the past have claimed a 40 to 90% decrease in rework due to the use of BIM technology. As BIM visualizes changes, including matching quantities, it enables general contractors to provide improved insights for effective change control. BIM modeling services can investigate quantity deviations, approve modification orders, verify subcontractor cost submittals, and so on. With more subcontractors and suppliers on board, management can be challenging. BIM 3D modeling contributes to creating a federated data center that receives input from all teams. The design, project planning, and MEP teams can collaborate better in a unified shared database. This makes administering and supervising individual duties easier with a seamless workflow.

Benefits of BIM Adoption in the Post-Construction Phase

The primary reason for hiring a general contractor is for building construction. But after the structure comes the asset management stage. BIM services can help a general contractor complete this process efficiently and seamlessly. According to AGC, 3D BIM services can support project management in detecting conflicts (such as pipeline structure, etc.), creating visual models, judging the construction job situation more reliably, and challenging it with higher quality. Furthermore, it assists managers in developing additional schemes, such as different building orders, logistics organization, crane position, costs, etc. It also allows non-professional members to examine visual end goods, reducing the quantity of re-examining and project-assuring costs. As a result, it is clear that the implications of BIM services on project management are pervasive.

Transformation in the AEC Industry by BIM Technology

BIM 3D modeling is a breakthrough in the construction business. It has a significant impact on construction. The research focuses on the effects of BIM technology on project management information. It assists construction companies in successfully executing and managing projects with better quality, productivity, efficiency, and safety. And the growth of BIM technology will have a massive impact on the future of the AEC industry.

Use of BIM Technology in Construction in Leading Countries

“Everybody must be able to participate in the future they want to live for. That’s what technology can do.”

BIM is an intelligent technique in construction and planning that is being implemented all over the world. Architects, builders, engineers, and other construction professionals can operate more efficiently and successfully. Countries are implementing BIM services in various ways and at varying levels. Let’s look at how the BIM 3D modeling method is being used worldwide. Countries are implementing BIM services in various methods and at different levels. Let’s learn how the BIM technology approach is applied around the world.

The United Kingdom

The UK’s standing as a global BIM leader began with the government’s construction policy in 2011. As the sector becomes increasingly digital, there are possibilities for additional innovation through BIM. The United Kingdom’s approach to BIM services has established it as a global leader in this technology. The UK has seen a tremendous shift toward BIM, with some of the highest year-on-year growth patterns. Any project sponsored by the federal government must create collaborative 3D BIM modeling services. Furthermore, encouraging the sector to go digital has sparked even more intriguing developments.

The Netherlands

Europe is significant in the worldwide BIM movement. There is a clear trend toward developing a more balanced view of the practice. Western/northern countries tend to be BIM leaders, but southern and eastern countries are also catching up. As the EU is such a close-knit group of countries, having a unified knowledge of the process makes sense. However, widespread expansion and a persistent push for building information modeling implementation across the continent exist. More specifically, the Netherlands has one of the highest BIM adoption rates in Europe and the world. A variety of standard practices and protocols have been established here. Some large public clients are responsible for adopting and expanding the Netherlands BIM push. Furthermore, BIM 3D modeling also helps generate NEN 2580 reports by easing the measurement calculation process.

The NEN 2580 is a method for calculating the surface area of land and structures. The goal of this measurement is to increase office comparability. With this certificate, you will know exactly how much office space you rent, regardless of where you do business in the Netherlands.


The French government launched a construction research and development program to support establishing BIM service standards in infrastructure development. In France, BIM technology is not required but is promoted by the government, particularly for large government projects. In 2017, a BIM standardization roadmap was released to take the lead in Europe in deploying digital processes in building. Plan BIM 2022 was launched at the end of 2018 to encourage construction stakeholders to include BIM modeling services in daily activities.


Another country that has adopted a national BIM strategy is Germany. Bim adoption in Germany is a fact backed by the government. This has been accomplished by standardizing methods for BIM to be mandatory in public infrastructure projects. Germany’s Federal Ministry of Transport and Digital Infrastructure (BMVI) has declared that all transportation projects must employ Building Information Management by the end of 2020. BIM technology intends to provide “increased confidence in big projects, efficient use of public funds, and the preservation of Germany’s good international reputation in the planning and construction industries.”

Scandinavian Countries

Scandinavian countries such as Finland, Norway, Sweden, and Denmark have prioritized BIM methods. The regions of Scandinavia, Norway, Denmark, Finland, and Sweden were among the first to implement BIM services. These countries have mandates for public projects. They are a global leader in adopting and implementing 3D BIM services. Sweden has an unusually high rate of adoption. Several best practice guides have previously been produced. Denmark has BIM mandates for state clients, and their universities teach students about BIM technology.


BIM is a key technology used in Singapore. With a focus on developing an intelligent nation, Singapore sees the benefits of 3D BIM services in construction. The Singapore government has the policy to lead the implementation of BIM, whereas clients in the private sector evaluate BIM’s value and cost. Engineers and architects must use it in the process. Typical new professionals in Singapore are BIM managers and BIM coordinators who must familiarize themselves with the Japanese building sector. General contractors accept BIM services from manufacturers and distributors. However, in many projects, the quality and density of the design drawings are only sometimes the finest.


While India’s building industry is one of the fastest developing in the world, BIM services implementation in India is relatively slow. India has recently begun to recognize the benefits and cost-effectiveness of BIM technology and has already started to adopt it at the design level. Increased usage of BIM modeling services and establishing government efforts to support a digital-first strategy will be enormously advantageous in decreasing construction and infrastructure project costs by reducing working hours, enabling precise cost estimation, and improving supply chain management.


BIM implementation in the United States is solely between contractors and customers. Nonetheless, the US General Services Administration (GSA) has had a program in place for using BIM in Public Buildings Service projects since 2003. BIM technology is used by some essential institutions in the United States to design, build, and manage their facilities. The US Navy is the first federal government agency to employ BIM services for electronic facility operations. Another example is the United States Army, which developed the Construction Operations Building Information Exchange (COBie) standard to manage information assets.

Final Thoughts

BIM technology will support the construction industry in improving and streamlining the process and observing how the globe has emerged. It can offer substantial value propositions to all kinds of industries. Within the broad construction field, BIM is there to streamline the process. Finally, BIM services in the AEC industry are gaining attention worldwide. Nations such as the United States, the United Kingdom, Singapore, and a few European and Asian countries are at the forefront of BIM usage and encouragement to deliver BIM projects with maturity levels 2 and 3. In contrast, other parts of the world lag, but we can predict massive growth in the coming years.

Incorporate BIM Technology for Efficient Construction Project

Him Darji