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Terrestrial Laser Scanning (TLS) is a new technology that uses active 3D Laser Scanning System for terrestrial field data acquisition. The result can be displayed in three dimensional form. A precise, accurate, and clear data is required to create an outstanding BIM in infrastructure work.
The 3D modeling results obtained from the TLS tool have a very high accuracy. These results will provide information about the appearance as similar as possible to the existing conditions in the field for the purposes of making BIM, such as for infrastructure work, technical work, arrangement and maintenance, and also for technical documents purposes.
The expected final product of this work is to obtain 3D point clouds that depict the area around the infrastructure project. Besides that, this 3D laser scanning mapping results in a classification of point clouds data that can be presented in the form of walkthrough videos, mesh data, and contours of the topography of the project area.
Point cloud is a set of points that represent the surface shape of the scanned object, which produces 3D coordinates (X, Y, and Z). What distinguishes it from ordinary coordinates is that the point cloud contains RGB data, namely Red, Green, and Blue, which gives the color at each point, so that it can form a 3D model that resembles the object being scanned.
Detailed Engineering Design (DED) is a planning product (detailed working drawings) made by a planning consultant for civil construction work such as buildings, swimming pools, roads, bridges, dams, and other construction works. Apart from being a working drawing plan, DED can also be used as a guide in carrying out the maintenance and repair of a building or structures.
The general terminology aims to identify, review and report any disturbances in a project model in the design and pre-construction stages, carried out through the process of integrating various models from various disciplines (Architecture, Structure, and MP).
4D is the next level of 3D. At this level, the form of the 3D model is combined with a work schedule which will produce an animation of the work sequence according to the work schedule. Before, the work schedule only relies on Microsoft project software and cannot be visualized.
5D is the combination of 4D and the project’s cost. The function of 5D BIM modeling is that the 5D model can generate quantity take off calculations to estimate detailed planning costs for an asset so that it will be similar to the project cost realization. This model is in charge of forecasting/predicting the cash flow for a project and visualizing the progress being made regarding the project. The main difference between the traditional approach and 5D BIM modeling is that the project costs are updated and modified in real time. BIM 5D modeling allows stakeholders to modify costs due to an adjustment in the project, for example due to changes in design, work methods, or other external factors.
VDC is an integrated multi-disciplinary performance model management process from Design-Construction projects, including products (facilities), work processes, the organization, and organization of design-construction teams, as well as operational teams that support explicit and general objectives of a business objective (construction). The core concept in VDC is the space-time dimension. There are two dimensions used, namely three dimensions in the form of space and the fourth dimension in the form of time. There are additional dimensions of cost and quality, but the core is formed by these four. The four dimensions were first understood by Vitruvi as the importance of perspective (3D) and time (4D).
Products based on VDC as follows :
We will help you to work on your projects with our experiences in BIM related fields, such as: