Digital Planning and Construction Processes
IIot, BIM and digital twins
New potentials through innovative technologies
Digital User Experience and EAM
- Digital Planning and Construction Processes, as well as Building Information Modeling (BIM), offer opportunities for the efficient management of assets in the context of Enterprise Asset Management (EAM).
- Seamless integration of EAM with digital construction planning realizes effective monitoring and optimization of the entire asset lifecycle.
- BIM provides detailed information about the design and construction of buildings, enabling improved asset management in the EAM.
- The use of digital twins in the construction process enables simulation-based optimization to increase the efficiency and performance of assets in the EAM.
- The Industrial Internet of Things (IIoT) offers the possibility to monitor assets already in the construction phase and to identify maintenance needs at an early stage.
Digital Planning and Construction Processes
Building Information Modeling (BIM)
The combination of Building Information Modeling (BIM) and Enterprise Asset Management (EAM) enables efficient management of the entire asset lifecycle.
Digital twins
A digital replication of a physical asset or system. It is used to simulate and optimize construction processes, identify potential problems, and improve project outcomes.
Building Information Modeling (BIM)
The combination of Building Information Modeling (BIM) and Enterprise Asset Management (EAM) enables efficient management of the entire asset lifecycle.
Digital twins
A digital replication of a physical asset or system. It is used to simulate and optimize construction processes, identify potential problems, and improve project outcomes.
Industrial Internet of Things (IIoT)
The Industrial Internet of Things (IIoT) forms the basis for advanced condition monitoring, asset performance management and predictive maintenance. With the networking of devices and sensors in Enterprise Asset Management (EAM), assets are monitored to reduce downtime and improve safety.
Virtual Reality
Virtual reality (VR) is used to simulate and visualize designs. This allows stakeholders to experience the space before it is built. VR helps identify design flaws, improve communication and increase safety.
Industrial Internet of Things (IIoT)
The Industrial Internet of Things (IIoT) forms the basis for advanced condition monitoring, asset performance management and predictive maintenance. With the networking of devices and sensors in Enterprise Asset Management (EAM), assets are monitored to reduce downtime and improve safety.
Virtual Reality
Virtual reality (VR) is used to simulate and visualize designs. This allows stakeholders to experience the space before it is built. VR helps identify design flaws, improve communication and increase safety.
Building Information Modeling (BIM)
Building Information Modeling (BIM) is a process used in the construction and planning phase to capture all relevant information and data of a construction project in a digital model. The use of BIM offers a variety of benefits, including more effective planning and design of buildings and assets, time and cost savings, and better coordination of the various trades and disciplines. By using BIM, errors and deficiencies in the design can be detected and avoided at an early stage, resulting in higher quality and efficiency of the construction project.
Industrial Internet of Things (IioT)
Efficiency increase
The combination of IIoT, 5G and network technologies (NWDAF, LoRaWAN) enables the optimization of operations. By using these technologies, bottlenecks are detected, machine failures are reduced and energy consumption is lowered. Companies benefit from data analytics, reliable communications, real-time analytics and wireless networking capabilities.
Increased flexibility
The combination of different technologies enables improved wireless connectivity and lower latency . This helps with real-time data transmission and remote control of devices and machines. NWDAF monitors the network to optimize capacity and data traffic. At the same time, LoRaWAN enables wireless networking of devices and sensors over long distances.
Improved decision making
The application of BIM leads to improved and more informed decisions, as all project stakeholders have access to comprehensive information and data that is consolidated in a central model. The increased transparency and collaboration promote more effective decision making based on a broader information base.
Efficiency increase
The combination of IIoT, 5G and network technologies (NWDAF, LoRaWAN) enables the optimization of operations. By using these technologies, bottlenecks are detected, machine failures are reduced and energy consumption is lowered. Companies benefit from data analytics, reliable communications, real-time analytics and wireless networking capabilities.
Increased flexibility
The combination of different technologies enables improved wireless connectivity and lower latency . This helps with real-time data transmission and remote control of devices and machines. NWDAF monitors the network to optimize capacity and data traffic. At the same time, LoRaWAN enables wireless networking of devices and sensors over long distances.
Improved decision-making
The application of BIM leads to improved and more informed decisions, as all project stakeholders have access to comprehensive information and data that is consolidated in a central model. The increased transparency and collaboration promote more effective decision making based on a broader information base.
Digital twins
Effective asset integration planning
By implementing digital twins in the design phase, planning teams receive information about planned assets at an early stage. This data can be seamlessly integrated into the EAM system. This ensures digital management of assets right from the start of the lifecycle.
Optimization of maintenance planning
During the construction phase, maintenance plans can be developed early in the EAM system because a detailed virtual representation of the assets is available. This identifies maintenance requirements and integrates maintenance activities into the construction process.
Seamless transition to facility management
The digital twin serves as the basis for facility management after completion of the construction phase. The integration of the digital twin with the EAM system makes it possible for all relevant information to be transferred. Facility management can thus ensure a seamless transition to asset management and maintenance.
Effective asset integration planning
By implementing digital twins in the design phase, planning teams receive information about planned assets at an early stage. This data can be seamlessly integrated into the EAM system. This ensures digital management of assets right from the start of the lifecycle.
Optimization of maintenance planning
During the construction phase, maintenance plans can be developed early in the EAM system because a detailed virtual representation of the assets is available. This identifies maintenance requirements and integrates maintenance activities into the construction process.
Seamless transition to facility management
The digital twin serves as the basis for facility management after completion of the construction phase. The integration of the digital twin with the EAM system makes it possible for all relevant information to be transferred. Facility management can thus ensure a seamless transition to asset management and maintenance.
Virtual Reality
Revolutionary Production Planning: Virtual Reality and Digital Factory
Virtual reality (VR) is increasingly being used in the digital factory to improve and optimize factory planning and design. With VR, factory plans and designs can be visualized and simulated in 3D before they are actually built. This allows problems in the planning process to be identified and rectified before expensive physical changes have to be made.
Optimized manufacturing with virtual reality and digital factory
Employee training is enhanced through the use of virtual reality (VR). In a safe virtual environment, employees can practice various tasks and procedures before implementing them in reality (factory). This helps to reduce training costs and increase employee safety.
Revolutionary Production Planning: Virtual Reality and Digital Factory
Virtual reality (VR) is increasingly being used in the digital factory to improve and optimize factory planning and design. With VR, factory plans and designs can be visualized and simulated in 3D before they are actually built. This allows problems in the planning process to be identified and rectified before expensive physical changes have to be made.
Optimized manufacturing with virtual reality and digital factory
Employee training is enhanced through the use of virtual reality (VR). In a safe virtual environment, employees can practice various tasks and processes before implementing them in reality (factory). This helps to reduce training costs and increase employee safety.