BIM 360 is actually an advanced method, means and tool in the integration of building information model. It is mainly a technology that integrates a lot of construction-related data and information into one piece and mixes it together. This BIM 360 is not a simple matter that plays an extremely important and critical role in the entire process, link, process, etc. of the construction industry.
First, let’s talk about the overall architecture of this technology. This matter, its structure is the situation where multiple levels, dimensions, and elements are interconnected, connected and interlocked. This includes the data processing level 1) It must process data from various sources and formats accurately, accurately and in place; 2) There is also model interaction, which means that different architectural models must be seamlessly and accurately connected. These technical structure systems have laid a very solid foundation for the subsequent application of BIM 360.
There are many advantages in actual project application. For example, BIM 360 Integration, the first major advantage of application is to improve collaboration efficiency. 1) Multiple participants, such as design teams, construction engineer teams, owners, etc. Through this integration, people with different identities operate the same data model to work together, information can be transmitted in real time, in a timely manner and on time, and no longer have to wait for files in different formats to exchange them, resulting in a waste of time. 2) Avoid communication errors and omissions. In the past, people didn’t communicate clearly and had a lot of trouble with each other. Direct and intuitive labeling communication on the model will not make you misunderstand it by a hundred times; the second application block is cost control. The predictions of possible problems are found through the model in advance, and the changes in the later construction process have been greatly reduced; it can also ensure that the project is carried out in a relatively scientific and cost-effective manner so that it will not exceed the amount of overspending.
Many people want to ask, is this comparing with other similar technologies? I'll talk about this carefully compared to the old integration methods and methods. Where is the biggest obvious and eye-catching advantage of BIM 360? Its integration capabilities are stronger, larger and more extensive. Those old methods often do not perform well on a large number of complex comprehensive data, and they are not able to handle the mess or can’t produce clear and useful results and have to be reworked. It is relatively more flexible and variable to make corresponding adjustments based on the actual and complex situations of the building. For example, other technologies are relatively rigid in terms of adjustment and coordination, if the temporary plan changes during the project process. I can't come up with corresponding countermeasures and results immediately.
Next, let’s talk about the answers to common specific implementation questions. Many novices in the construction industry asked in confusion, "Is this difficult to install? How to do this in learning and training?" In fact, Haha must make full preparations for the layout plan in the early stage. After the software is installed, it is easy to complete various integration and connection settings step by step through professional and technical personnel and information guidance. Then the learning and training must be customized specifically for people in different positions. For those who are responsible for application tool drawing designers, what skills should learn in-depth data interaction and advanced graphic display adjustment? Engineers focus on the correlation usage issues such as model security structure analysis.
There are also many people who are particularly worried about asking, "Will the combination with various software be successful? It's easy to do it?" It is true that software integration and coordination are indeed a bit complicated. Some projects with large data volumes may not be able to use other lightweight tools or open the software. BIM 360 Fortunately, a variety of adapters can be used to achieve connections such as intermediate relay and buffering tool technology. Many data formats can be compatible with this compatibility and universality actually add a lot to our construction work flexibility. In addition, let’s talk about resource supporting supply. Implementing this set of business requires sufficient hardware and software and data storage resources. If there is no corresponding storage and computing support, it is likely that the project will be slow or even crashed. The network storage space of data storage should also be planned in combination with the overall data production increment of the project. Otherwise, the data will be overflowing and the warehouse will not be able to carry out the work process effectively and efficiently. It is also greatly hindered to think of a way to handle this matter well, otherwise it will be quite delayed.
There are also many questions about how to consider when integrating this with the company's existing processes. The aspects that business managers are particularly concerned about are often the situation of integrating this process and running the process. In fact, you see that in the planning introduction process, you need to have a comprehensive understanding of the previous business processes and work content and then make appropriate fine-tuning and optimization transformation. This ensures that the management mechanism coordinates and connects these supporting projects to ensure that the subsequent development and promotion of various subsequent work in a normal and orderly manner will continue to operate and carry out the important specific actions in the next plan.
Nowadays, the actual use groups are becoming more and more widespread. For enterprises with larger scale, they often value coordination functions. A large number of branches and departments can operate together, which can save a lot of management manpower, material resources, time and other costs. It is very considerable to save money. Small and medium-sized institutions focus on precision and practical performance, and focus on optimizing and upgrading in several major links to achieve breakthrough goals, such as improving solutions and improving competitiveness.
Personally, from my little head thinking and understanding, this technology is indeed a dazzling and brilliant highlight of the informatization of architecture. There is a huge space for development in the future. There is a huge market opportunity. This is definitely not wrong. This is right. In the future, there may be more advanced iterations to make in-depth and in-depth optimization research investment in application scope, precision application methods, etc. In the future, the entire construction-related industry process stage will further bring greater reform force to the industry's production mode changes to change and even subvert many existing operating practices and conventional forms. Provide global procurement services for weak current intelligent products! Let’s quietly look forward to the more powerful ones that can be used in more demand conditions.
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