of service

H4GEO Service

Get an “as-built” of buildings or structures and accurate topography

LiDAR scanning can help identify problems caused in existing buildings, such as cracks, deviations and deformations. By identifying these issues at an early stage, engineers can take corrective action before serious damage occurs.

Digitalization can help improve safety during structural work by providing accurate information about the building structure and materials. This can help engineers and contractors plan and execute their work more safely and efficiently, thus reducing the risk of accidents or injuries.

Digitalization can reduce structural works project costs by necessitating the need for manual measurements and physical site visits. With the digital twin, engineers and contractors can quickly and easily create accurate 3D models of existing structures, reducing the time and cost associated with traditional surveying and modeling techniques.

This service includes the following steps:

  • Lidar scanning
  • Drone scanning (photogrammetry)
  • 3d modeling
  • CAD drawing

May be suitable for the following areas:



Why BIM Digitalization is Essential for Structural Engineers?

The use of Building Information Modeling (BIM) is crucial for identifying structural issues in buildings. It represents an innovative technology and a major advancement in the field of engineering and construction.

This groundbreaking approach combines detailed 3D modeling with precise and comprehensive data about a building’s structure and materials. Furthermore, this technology enables the creation of a complete digital representation (digital twin) of architectural structures.

This digital transformation provides a range of essential advantages for industry professionals.

Advantages of BIM in Identifying Structural Building Issues

Prevention Above All

One of the most significant advantages lies in BIM’s ability to anticipate and prevent structural issues from the early stages of design.

By creating detailed BIM models, engineers can analyze the strength, stability, and structural integrity of a building. They can simulate load and environmental scenarios, identifying potential weaknesses and areas at risk of collapse.

This proactive approach allows problems to be resolved before they become costly challenges during construction or building operation.

Enhanced Team Coordination

BIM significantly improves coordination among design, engineering, and construction teams.

Working on a centralized BIM model ensures that all stakeholders have access to the same information in real time. This fosters smooth communication and effective collaboration, reducing the risks of conflicts and communication errors that could lead to structural issues.

Professionals can visualize and resolve potential conflicts before they become major obstacles for the project.

Improved Resource and Cost Management

BIM also contributes to better resource and cost management.

Through more accurate construction planning, professionals can optimize the use of materials and equipment, minimizing unnecessary expenses.

Additionally, early detection of structural issues reduces costs associated with mid-project changes and construction delays.

Why Choose BIM Digitalization Services for Your Projects?

BIM has become indispensable for identifying and resolving structural building issues. It offers:

  • More precise design.
  • Improved project coordination.
  • Efficient resource management and risk reduction.

For engineering and construction professionals, BIM adoption is essential to ensure the safety and quality of buildings, guaranteeing the strength and reliability of architectural structures.

BIM Service in Building Structure: Frequently Asked Questions

BIM detects structural issues by creating detailed digital models of buildings. These models allow for the analysis of strength, stability, and structural integrity, identifying potential problems before construction through simulations and in-depth analyses.

BIM prevents structural failures by anticipating issues from the early stages of design. It enables precise modeling, load simulations, environmental analyses, and conflict detection, helping to resolve problems before they become costly defects during construction or building operation.

BIM prevents cracks by allowing detailed modeling and analysis of loads and stresses on walls and floors. It detects potential risk areas and enables preventive measures to strengthen the structure and avoid cracks.

BIM identifies deformations by creating digital models of the foundation and monitoring variations over time. Sensors and monitoring data can be integrated into the BIM model to detect deformations and deviations.

BIM is used for detecting deviations and deformations by real-time comparison of BIM model data with building monitoring data. Any deviation from the original model is identified, allowing for the rapid detection of potential deviations and deformations in the building structure.


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