BIM as a project management tool on construction projects

From apppm
Revision as of 20:36, 19 September 2015 by S102935 (Talk | contribs)

Jump to: navigation, search

This article will introduce how BIM is used as a project management tool and its underlying practices. Furthermore the different application areas and limitations of BIM will be discussed.

A Building Information Model (BIM) is a digital representation of the physical and functional characteristics of a project. BIM tools are used to develop and share information throughout construction projects. The concept of BIM has existed since the 1970s, but has only recently been considered as a fundamental project management tool, due to the many benefits associated with the use of BIM. These benefits have changed the way construction projects are managed, and can be considered a milestone in project management. Despite the benefits, the use of BIM as a project management tool is still in the early stages of development, and there are still many challenges and barriers associated with its use.

The implementation of BIM has proven successful in newer projects to address the fragmentation issues, which heavily impacts the efficiency of construction projects. Using BIM as a project management tool has shown to be a promising instrument to address these fragmentation issues and achieve better integration within construction projects. To successfully implement BIM, a project team must perform detailed and comprehensive planning.

Contents

Overview

Application context

The project participants of Construction projects are constantly being challenged to deliver successful and effective projects despite limited resources and tight schedules. Due to this pressure, which is often placed on the project participants, coordination and sharing of information becomes paramount. Construction projects are also heavily impacted by an increasing degree of fragmentation. This fragmentation occurs due to the large number of specialised actors that usually are involved in construction projects working towards a common goal. The need for a large number of specialised actors becomes even more critical, as construction project complexity increases. This also drives an even larger requirement for the integration between the different actors.

Development History

BIM as a project management tool

Application areas

Figure 2: Project integration illustrated by subject groups

As stated in ISO-21500, a project can be split into several subject and process groups (KILDE). In order to achieve a better degree of integration within a project, improvements must be made on all these subject groups throughout the project life cycle, as illustrated in the figure 2.


This article will focus on the use of BIM within the different subject groups, whereas guides such as the (KILDE), focuses on the use of BIM through the different process groups. The use, execution and benefits of the different BIM tools on the different subject groups are seen in chapter XX.

Execution, use and benefits

Scope

A variety of tools can be used to define and control the scope of the project.

Human resources

The easy information sharing, made possible by the implementation of BIM also effects the human resources of construction projects. Data collection, extractions and communication software makes it possible to create a better overview of the relationsship between the different disciplines, while improving upon the estimation, control and management of human resources during the different phases of a project. The easy flow of information also makes it possible to optimise the resource consumption, whether lean management is used or not, as illustrated below:

Time

Cost

Risk

Quality

Procurement

Communication

Limitations

Discussion and conclusion

References

Personal tools
Namespaces

Variants
Actions
Navigation
Toolbox