What challenges are associated with implementing BIM standards?

To maximize comfort and advantages for occupants without sacrificing the project’s functionality, successful concepts are used across the various stages of the construction lifecycle. Although there is insufficient information on building information modeling (BIM) execution in poor nations, BIM drivers have garnered substantial attention from many scholars, but with the limited inquiry into the effect of BIM obstacles on such construction projects. Our objective with this research is to identify and eliminate any barriers to employing BIM in developing-country building projects. In order to do this, a thorough literature search turned up implementation barriers for BIM. A survey questionnaire was given to a group of experts to gauge the relative relevance of the several BIM problems listed in the literature.

Despite the industry’s delayed adoption of technology, BIM’s potential is becoming more and more recognized within the sector. Better decision-making throughout a project’s lifespan is promised by BIM. As BIM solves age-old problems in a more cost-efficient manner through improved problem-solving, more effective communication, and faster project development, a few BIM hurdles have been discovered before implementation can become the standard.BIM adoption and knowledge Aproplan smart structure.

Five  Common Obstacles to BIM Implementation

Despite the shown benefits from various case studies, there are a few BIM difficulties that continue to impede the widespread acceptance and implementation of BIM. Many smaller businesses are wary about implementing the entire BIM process. The National Building Specification identified the top five management reasons why enterprises have failed to move to BIM in 2014. 

1. No standardized BIM requirements

What do requirements mean? Simply expressed, they are directives from the government that must be followed. The use of BIM requirements in projects is necessary. Only a handful of nations now have BIM regulations, and even in those, they are neither rigid nor necessary for all project types. Most, if not all, are wealthy countries where BIM instruction is more easily accessible.

2. Few architecture and engineering curricula include BIM.

Unfortunately, BIM has not been taught widely in the curriculum, particularly during undergraduate studies. Only the essentials are provided; going beyond that is uncommon. Undergraduate students may be familiar with software like Revit and have used it for class. However, it should be noted that Revit is not BIM; it is only a tool that works with and for BIM technology. Creating 3D models in Revit may be what these students are familiar with, but for real-world BIM applications, it is only the beginning.

3. The BIM sector lacks skilled professionals.

Characters working in an office are depicted. Graduates who join the workforce without appropriate BIM expertise may find it difficult to live up to expectations. Numerous businesses have also voiced concern over the scarcity of qualified workers. An ineffective process, mistakes, and a loss of revenue follow. Due to the perception that adopting BIM technology (or other digital practices) is challenging and inefficient, these BIM problems may cause businesses to be even less willing to train current employees or hire those with the necessary abilities.

4. Not understanding the full potential of BIM

The widespread misperception is that BIM can only be used in large organizations and on major projects. Smaller businesses believe that it is either not applicable to or unsuitable for their regular workload. When it comes to details, BIM does require extra consideration. Long-term, nonetheless, this will be advantageous, which was probably not realized. Furthermore, the construction and real estate sectors have not adapted to modern digital techniques, both in non-BIM and BIM businesses. Even architectural colleges have not kept up with them.

5. There were too many specifics needed in the project’s early phases.

BIM models necessitate extensive modeling; this is only logical given that the ‘I’ in BIM stands for information. It is a benefit of adopting BIM that all the characteristics and data of each model component are available for additional analysis, design, quantification, and computations. However, this also implies that the model must be developed with all of this information included in it to be used afterward. Learn more