High-rise infrastructures are becoming fancier and more sustainable thanks to innovative architectural design and modeling. As such, one of the essential foundations of its digital transformation is utilizing Building Information Modeling (BIM).
BIM is a reliable way of processing 3D archetypes useful for construction, engineering, and architecture. Furthermore, the model built through BIM services helps provide vital structural information to all the parties involved in its integration.
What Are BIM Levels?
There are various levels to developing a firm’s BIM. For example, the range of grades is between Level 0, where 2D is employed, to Level 6, where parties calculate energy consumption. On the particular level of BIM, information is taken from its elements also differs.
The following are the identified criteria involved in each level:
- Level 0 – this refers to 2D digital prints without any collaborative efforts. This level includes 2D CAD and hand drawings.
- Level 1 – firms use 2D CAD for drafting but 3D modeling for concept work at this level. A contractor usually manages a shared data environment.
- Level 2 – all team members already work with 3D CAD at this level. Design information is transmitted via a standard file format as well. There is a better collaboration among the parties involved, and a lot of companies and firms today operate on this level of BIM.
- Level 3 – in this level, an open BIM is observed. Meaning a single file is shared with every team member who can modify the design. This scheme promotes active collaboration, providing better value to the projects at hand.
- Level 4 – time is added to this level. For example, a scheduling data project the amount of time each construction phase would consume.
- Level 5 – taking the elements of level 4, then adding budget analysis and cost estimation, this level provides information regarding the financial status of the production, building, and maintenance of the project.
- Level 6 – this is the top-tier level of BIM services where energy consumption is calculated and added to the value of the whole structural process. This information encourages stakeholders to design buildings that are sustainable and energy-efficient.
BIM has been and will continue to be a necessity in the architecture, engineering, and construction (AEC) industry. Moreover, through better collaborative efforts and innovative software, the future of AEC seems only to get better and better.
Creative Design and Structural Analytics
Most AEC firms operate in Level 3-4 BIM processing that allows a broad vantage point to oversee projects and collaborations with other firms or contractors. With BIM, everyone is kept on the same page, well-informed, and coordinated.
Working with 3D representations allows accuracy in planning and improved troubleshooting and avoids material wasting in the whole duration of the project. Backed with years of experience and knowledge with the newest technology available, AEC professionals are guaranteed to deliver creative designs and timely structural analytics tailored to clients’ specifications.
What Is the Future of BIM?
As promising as it looks today, BIM still has a lot of potential for more collaborative interplay in the AEC industry. Since most firms globally are yet to employ Level 5-6 BIM services, there is still a call for improvement in the hopes of reaching a company’s highest designing, building, and planning potential.
Author Bio:
Alison Lurie is a farmer of words in the field of creativity. She is an experienced independent content writer with a demonstrated history of working in the writing and editing industry. She is a multi-niche content chef who loves cooking new things.