BIM implementation goals

 

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The Pennsylvania State University in 2013 issued the BIM Classification textbook "BIM Applications: BIM Applications Classification and Selection" - Version 0.9 by RALPH G. KREIDER and JOHN I. MESSNER. Its most important passages are cited below.

BIM applications can be classified primarily based on the purpose of implementing BIM over the life of the facility. Characteristic Description Object Item The facility system where the BIM Use will be implemented. Facility Phase The point in the facility lifecycle where a BIM Application will be implemented. Discipline The page through which the use of BIM will be implemented. Development level The degree of detail to which the BIM Application will be implemented. BIM Objectives and Objects: Gather to gather or organize information about an object. Generate for creating or creating information about an object. Analyze examine the elements of the object to gain a better understanding. Communicate to present information about the object in a method where it can be shared or exchanged. Realize an execute or control a physical item with an Information object.

1. COLLECT: BIM is often used to collect information about an object at various stages during its life cycle. Whether it is to count a certain quantity of an item or determine the current status of an item item in an object in order to properly manage that asset, using BIM can greatly assist in this effort.
2. EARN: represent or preserve the current state of an object and its elements. Data can be captured with a laser scanner or saved manually by entering model and serial numbers in a spreadsheet.
3. QUANTITATIVE: Express or measure the quantity of an instrument item. During the construction phase, the quantities become more certain and during the phase operation, the quantity of the elements can be easily calculated, say for example. For example, the area of ​​a carpet to be replaced or a vacant space that is available and for rent, the exact area and dimensions should be known.
4. MONITOR: observation of the operation of the building's elements and systems. BIM can be used to monitor real-time performance data of items and facilities. BIM can be used to monitor the performance of the construction process. There is a purpose for this. BIM Uses real-time dynamic data collection to support the decision-making process.
5. QUALIFICATION: characterize or identify the status of an object's elements. This BIM Goal usage tracks the elements of an object over time. For example, in a project, what is the level of the development item? Has the element been made in construction? Is it installed? Is it damaged?
6. GENERATING: creating or writing information about an object. (…) During the operational phase, this information may be generated by the maintainers of the device when they update or change the device. Every time new information is created, created, modeled or created.
7. REPEAT: identify the need and select specific features of the facility. The contractor may determine the need for a temporary structural element such as a tower crane, and the facility operator may recommend a specific replacement part for the facility.
8. ORGANIZATION: In the phase of planning the life of a facility, it may be the location or proximity of specific spaces in the proposed facility. In the design phase, this may be the general location of fire pipes. During the construction phase, it may include the placement of hangers that support this piping.
9. SIZE: Specify the size and scale of the object's elements. During construction, it may include the size of the crane or the thickness of the channel insulation.
10. ANALYZE: Examine the elements of an object to better understand them. Installation components often require further analysis to determine their viability for the facility.
11. COORDINATION: ensuring the efficiency and harmony of the relationship of the elements of the object. This goal of BIM Applications are often called clash detection, collision avoidance, design coordination, and interference management, among others.
12. FORECAST: predicting the future performance of the facility and its components. This BIM goal uses detailed analysis to predict the future performance of a facility and its components.
13. AUTHORIZATION: Verify or prove the accuracy of the information about the object, which is logical and reasonable. This includes checking the accuracy of the object information to ensure that it is logical and valid.
14. MESSAGE: presenting information about an object in a method where it can be shared or replaced. The communication goal of BIM is to present information about an object in a way that can be shared or exchanged.
15. IMAGINE: creating a realistic representation of an object or the elements of an object. Visualization is often used to support the decision-making process regarding the design or construction of a facility, as well as to support marketing efforts. May contain instructions, renderings, and schedule visualizations.
16. TRANSFORM: modify information and translate it into another process. Often, as part of a BIM process, object information needs to be transferred from one form to another in order for it to be picked up and used by another process.
17. DRAW: symbolic representation of the object and its elements. At any point in time, the symbolic representation has been developed on the basis of an intelligent model, it is considered a drawing.
18. DOCUMENT: creating a register of information about the object, including information necessary to precisely define the elements of the object. BIM Use often includes specifications, documents, project schedules, and other facility data reports
19. EXECUTION: Execution or inspection of a physical item using information about the object. o The use of BIM gives the industry the ability to manufacture, assemble, control and adjust the components of an object.
20. GENERATE: using the information about an object to produce the elements of an object. In the design phase, BIM can be used to quickly generate prototypes of future facility components, and during operation, it can be used to rapidly produce spare parts.
21. ASSEMBLY: use object information to connect individual elements of an object. While still a manual process, the precision that BIM allows ensures that different systems are prefabricated. It even gives you the ability to connect systems that have traditionally been very separate.
22. CONTROL: Use object information to physically manipulate the operation of actuator equipment. BIM enables the use of object information to control the operation of devices.
23. REGULATE: use the information about an object to communicate the activity of an object element. The use of BIM to regulate the elements of an object potentially allows facility operators to optimize their operations.

BIM STRATEGY:

Mission: defines the purpose of the project.

Vision: Project photo after BIM integration.

Objectives: the specific goals of the project want to achieve.

Goals: specific results that when achieved move goals

Primary goal: • Secondary goal • Third goal

Object Element: • Object Phase • Discipline • Level of Development

Sources:

[1] pixabay.com

[2] "BIM Applications: Classification and Selection of BIM Applications" - Version 0.9, RALPH G. KREIDER AND JOHN I. MESSNER. he Pennsylvania State University, USA 2013