How can BIM improve project management

The organization of work and procedures in the construction sector has long been a topic of discussion among the several AEC (Architecture, Engineering, and Construction) stakeholders. BIM project management can be utilized to optimize resources at several stages of the project lifecycle, such as feasibility analyses, design, and execution phases, in order to address the issues encountered.

The relevance of BIM in project management will be covered in more detail in the sections that follow. We advise investigating BIM services in the interim to learn about the many advantages of digitizing buildings and infrastructure, which may be made easier by a system that is easily shared by stakeholders and is both secure and accessible.

What does Building Information Modeling (BIM) mean?

The building industry uses Building Information Modeling (BIM) as a way to create 3D models that contain a vast amount of data. In addition to being useful for creating the model itself, BIM is essential for project management and technical aspect supervision at every stage of the project’s lifespan. In fact, even during the design phase, maintenance operations can be identified and organized thanks to the wide range of information made available by BIM. Moreover, it permits the prompt identification of any problems that might occur during the execution stage, making it easier to find solutions right away and cutting down on resource waste.

These are but a handful of the explanations for why BIM services is seen as a workable option for the efficient administration of building projects.

What is the integration of BIM with Project Management?

Building information modeling (BIM) is essential to project management because it makes it possible to share information more effectively using cloud-based platforms, which improves job management. By using specialist BIM project management software, this is accomplished. With the use of these tools, data can be arranged within the Common Data Environment (CDE), which carefully logs and classifies tasks, supervisors, schedules, and related expenses.

All pertinent parties are informed of their roles in this framework and provided with access to papers that are customized for their individual activities. Making use of the cloud ecosystem’s capabilities, the system carefully logs and distributes the expenses and actions related to every manager, making it easier to create an extensive timetable. This schedule and the project’s planning can be cross-referenced to provide a dynamic comparison that guarantees effective resource allocation.

The project manager’s job is streamlined by the easy exchange of information and the capacity to keep an eye on every activity, which makes managing the efforts of multiple teams simpler. This method not only expedites the procedure but also improves its structure, which lowers the number of errors.

BIM Project Management Benefits

1.  Improved Communication and Collaboration:

   Compared to traditional techniques, using BIM processes makes it easier for team members to communicate and work together, which raises the overall quality of the finished product. The variety of tools available that allow for real-time change tracking make this possible.

2.  Lower Construction Costs:

   During the design phase, waste resulting from errors that are usually only identified during the execution phase can be eliminated. This reduces the amount of resources consumed, which in turn lowers the related expenses.

3. Detailed Project Visualization:

   Every stakeholder is given a comprehensive perspective of the project, including all pertinent architectural, structural, mechanical, electrical, and plumbing (MEP) elements. This makes it possible to get an insight before the project execution starts.

4. Productivity Gains:

    Project management methods are integrated with BIM to guarantee that all parties involved are fully aware about their roles, deadlines for delivery, operating protocols, and more.

5.  Optimized Work Organization:

   Careful preparation of diverse operations improves the effectiveness of work organization.

6.  Collision Detection:

   By combining models from several fields, including structural engineering, architecture, mechanical, electrical, and plumbing (MEP), any possible conflicts, like crossovers between windows and pillars, are quickly found.

7. Full BIM Integration:

   The BIM model helps with time (4D) and cost analysis (5D) organization, among other things, in addition to providing a three-dimensional (3D) depiction of its geometric properties.

8. Shorter Delivery Times:

   By streamlining all procedures, document preparation times are shortened, which in turn shortens delivery times.

9. Improved Project Quality:

   More structured models result from better work organization, which makes administration of the projects easier. This includes decision-making and execution.

10. Instant Accessibility of Information Models:

    Unlike traditional approaches, which frequently need a significant amount of time, these models are always accessible thanks to the use of cloud-based solutions.

11. Improved Project Manager Management:

    These models are arranged methodically based on the topic that has been covered, making reading easier and guaranteeing a more complete and precise analysis of the content.

A key factor in the architectural design process and a major factor in the successful completion of construction projects is the coordinated effort of BIM project management services. Being a GenInfo Solutions Inc. focused company, we provide a wide range of BIM services, including MEP BIM services. This all-inclusive service package is intended to make it easier to coordinate BIM project management services, guaranteeing that our clients’ projects are carried out accurately and effectively. With years of experience, our team of BIM professionals is skilled at managing challenging projects and using their

knowledge to guarantee the effective integration of BIM expertise.