Information BIM modeling (TIM)

BIM (Building Information Modeling) is an innovative approach to creating and managing data about buildings and infrastructure throughout their lifecycle. The process covers the design, construction, operation and disposal phases, offering a single digital representation of the facility that integrates geometric and non-geometric information.

The main characteristics of BIM modeling:

Data integration

BIM integrates information from multiple sources such as architectural, structural, engineering and surveying data into a single digital environment. This provides the basis for productive interaction between all project participants and ensures data comprehensiveness and integrity.

Multidimensionality and scale

Unlike traditional approaches, BIM allows you to take into account not only geometric characteristics of the object, but also time parameters (chronograms of construction and operation), economic aspects (budgets, costs), material properties and other key data. This approach allows for deeper analysis of the project and more informed decision-making.

Collaboration and coordination

BIM forms a unique collaborative platform where all project participants can work with up-to-date information in real time. This reduces conflicts, eliminates inconsistencies and improves overall design and construction efficiency.

Visualization and analytics

BIM offers powerful tools for 3D visualization of projects, allowing participants to visualize the final result more accurately. In addition, functions such as availability analysis, conflict checking or costing help to optimize design processes and improve the quality of implementation.

Effective information management

Thanks to a centralized data storage and management system, BIM provides easy access to the necessary information for all stakeholders. This simplifies collaboration, speeds up data exchange and ensures transparency of all processes.

01

Improved project quality

BIM modeling offers the opportunity to create highly accurate three-dimensional models that provide a deeper understanding of the key aspects and characteristics of each facility. This approach allows customers to get projects that best meet their requirements and expectations, eliminating deficiencies and improving the overall level of quality

02

Effective project management

BIM technologies provide a centralized platform for storing and managing all project data. This greatly simplifies communication between participants, speeds up coordination processes and minimizes the potential for errors, contributing to more transparent and efficient management.

03

Reduction of time and costs

The use of BIM allows you to analyze the project in advance in a virtual environment, identifying possible contradictions and vulnerabilities at the design stage. This approach helps to significantly reduce time and financial costs, ensuring faster and more cost-effective project implementation.

04

Improved coordination and cooperation

BIM facilitates closer collaboration between different project participants such as architects, engineers, contractors and clients. It enables problem solving and decision making in real time, increasing efficiency.

05

Risk minimization

With the ability to visualize a project in three dimensions and perform various analyses, BIM helps to identify potential risks and problems associated with design and construction. This enables measures to be taken to reduce or prevent them.

06

Improved operation and maintenance of facilities

BIM provides centralized storage of all project information, including technical specifications, maintenance and repair data. This simplifies the future operation of the facility and ensures more efficient maintenance.

07

Creating a digital twin of an object

BIM allows you to create a digital twin of the real object, which can be used to monitor its condition, carry out repairs, optimize maintenance processes and many other purposes. This increases the long-term value of the project for the customer.

Work process

Stages of BIM modeling:

The first phase involves meeting with the client to discuss their needs, project objectives, and specific BIM modeling requirements.

The contractor collects and analyzes all necessary data such as drawings, specifications, technical specifications, and other source materials needed to create the BIM model.

At this stage, a three-dimensional BIM model of the object is created. This includes modeling of all elements of the building or structure, including building structures, engineering systems, interiors and exterior facades.

Modeling data is integrated from various sources including CAD drawings, specifications, design data, etc. to create a comprehensive BIM model.

The BIM model provides a platform for collaboration between all project participants. This allows different specialists to share information, coordinate actions and solve problems in real time.

The BIM model can be used to create visualizations and analysis of various aspects of a project, such as space efficiency, visualization of structures and engineering systems, and structural strength and energy efficiency analysis.

Once the modeling is complete, the BIM model remains available to support the various phases of the project, including construction, operation and maintenance of the facility.

The Contractor can provide training and consultation to the client on the use of the BIM model and associated software to maximize the efficiency and effectiveness of the project.

The BIM model may be subject to further maintenance and updates during the lifecycle of the facility to reflect changes and updates to the project.

Stages of work

How we work:

The client fills out an order form, indicating project details, job requirements, contact information and other necessary information.

In the order form, the client is given the opportunity to specify what he/she values in the service, for example, an individual approach, the possibility to communicate directly with specialized specialists, flexible terms of cooperation and other advantages that he/she expects to receive.

The customer clicks the "Submit" button or similar element on the order form to submit their request for processing.

After submitting the order form, the customer is notified that their request has been successfully received by the company.

A company specialist receives a request from a client and begins processing it. The specialist may contact the client to clarify details or suggest alternatives.

Based on the information received and the client's requirements, the company prepares a proposal that specifies the terms of work, terms, cost of the service and other important details.

If the client agrees with the proposal, he signs a contract with the company to perform the service and determines the terms of payment.

The company's team begins work on the development of design and working documentation in accordance with the requirements and terms agreed with the client.

The Specialist oversees the work process, ensuring deadlines and quality are met.

Once the work is completed, the client receives a finished result that has passed quality control and meets their expectations.