Digital Twins in Ports

Digital Twins in Ports

Digital Twins in Ports

Digital Twins in Ports

Digital Twins in Ports

Image montage of a ZPMC container crane from a drone perspective with a screen and a digital twin of the crane.
Image montage of a ZPMC container crane from a drone perspective with a screen and a digital twin of the crane.
Image montage of a ZPMC container crane from a drone perspective with a screen and a digital twin of the crane.
Image montage of a ZPMC container crane from a drone perspective with a screen and a digital twin of the crane.
Image montage of a ZPMC container crane from a drone perspective with a screen and a digital twin of the crane.

Increased efficiency through digitalization

A Digital Twin is a virtual replica of a physical system or infrastructure. This technology enables real-time monitoring and simulation of complex processes.

With precise data analysis, decisions can be made faster and more accurately, increasing efficiency and reducing operational costs.

Creation of a digital twin

Recording of requirements

3D measurement using drones

Replica of the virtual environment

Setting up a dashboard

Linking the 3D model to data systems via JSON

3D modeling of load carriers

Continuous improvement in the course of operation

Creation of a digital twin

Recording of requirements

3D measurement using drones

Replica of the virtual environment

Setting up a dashboard

Linking the 3D model to data systems via JSON

3D modeling of load carriers

Continuous improvement in the course of operation

Creation of a digital twin

Recording of requirements

3D measurement using drones

Replica of the virtual environment

Setting up a dashboard

Linking the 3D model to data systems via JSON

3D modeling of load carriers

Continuous improvement in the course of operation

Creation of a digital twin

Recording of requirements

3D measurement using drones

Replica of the virtual environment

Setting up a dashboard

Linking the 3D model to data systems via JSON

3D modeling of load carriers

Continuous improvement in the course of operation

Creation of a digital twin

Recording of requirements

3D measurement using drones

Replica of the virtual environment

Setting up a dashboard

Linking the 3D model to data systems via JSON

3D modeling of load carriers

Continuous improvement in the course of operation

Optimized port logistics through digital twins

By using digital twins, all aspects of port logistics—from ship movements to warehouse management—can be fully visualized and optimized.

Simulations help predict and prevent bottlenecks, leading to smoother collaboration between terminal operators, shipping companies, and logistics providers.

Drone footage of a container port at night with a digital depiction of the scene
Drone footage of a container port at night with a digital depiction of the scene
Drone footage of a container port at night with a digital depiction of the scene
Drone footage of a container port at night with a digital depiction of the scene
Drone footage of a container port at night with a digital depiction of the scene

Digitalization needs 3D

Digitalization needs 3D

Digitalization needs 3D

Digitalization needs 3D

The video below illustrates the power of three-dimensional modeling compared to traditional presentations -whether in training, planning, or modeling complex logistics processes.

We are happy to assist you in bringing your requirements into the third dimension.

The video below illustrates the power of three-dimensional modeling compared to traditional presentations -whether in training, planning, or modeling complex logistics processes.

We are happy to assist you in bringing your requirements into the third dimension.

The video below illustrates the power of three-dimensional modeling compared to traditional presentations -whether in training, planning, or modeling complex logistics processes.

We are happy to assist you in bringing your requirements into the third dimension.

The video below illustrates the power of three-dimensional modeling compared to traditional presentations -whether in training, planning, or modeling complex logistics processes.

We are happy to assist you in bringing your requirements into the third dimension.

Sustainability and Innovation: Digital Twins in Port Management

Digital twins not only enhance efficiency but also promote sustainability in the shipping industry.

By enabling precise planning and resource management, emissions can be reduced, and more environmentally friendly processes can be implemented. This technology is a key component of a future-proof port strategy.

Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Container port with cranes on the left and right from the water side

Benefits of Digital Twins

Digital twins transform logistics and supply chain networks into data-driven, predictive systems:

They provide seamless real-time transparency, allow safe testing of new processes in the virtual space, and make supply chains more resilient to disruptions.

This creates a clear competitive advantage through better decisions, lower costs, and higher resilience.

Proactive decisions

Digital twins enable real-time monitoring of deliveries and inventories. This comprehensive transparency makes bottlenecks visible before they hinder the flow of materials or slow down processes and supports all parties with up-to-date metrics.

Proactive decisions

Digital twins enable real-time monitoring of deliveries and inventories. This comprehensive transparency makes bottlenecks visible before they hinder the flow of materials or slow down processes and supports all parties with up-to-date metrics.

Proactive decisions

Digital twins enable real-time monitoring of deliveries and inventories. This comprehensive transparency makes bottlenecks visible before they hinder the flow of materials or slow down processes and supports all parties with up-to-date metrics.

Proactive decisions

Digital twins enable real-time monitoring of deliveries and inventories. This comprehensive transparency makes bottlenecks visible before they hinder the flow of materials or slow down processes and supports all parties with up-to-date metrics.

Proactive decisions

Digital twins enable real-time monitoring of deliveries and inventories. This comprehensive transparency makes bottlenecks visible before they hinder the flow of materials or slow down processes and supports all parties with up-to-date metrics.

Efficiency increase

Digital twins increase process efficiency, as only optimized processes are physically implemented. The insights gained reduce empty runs, energy consumption, and thus lower logistics costs. This leads to a 40% increase in productivity and 15% better space utilization.

Efficiency increase

Digital twins increase process efficiency, as only optimized processes are physically implemented. The insights gained reduce empty runs, energy consumption, and thus lower logistics costs. This leads to a 40% increase in productivity and 15% better space utilization.

Efficiency increase

Digital twins increase process efficiency, as only optimized processes are physically implemented. The insights gained reduce empty runs, energy consumption, and thus lower logistics costs. This leads to a 40% increase in productivity and 15% better space utilization.

Efficiency increase

Digital twins increase process efficiency, as only optimized processes are physically implemented. The insights gained reduce empty runs, energy consumption, and thus lower logistics costs. This leads to a 40% increase in productivity and 15% better space utilization.

Efficiency increase

Digital twins increase process efficiency, as only optimized processes are physically implemented. The insights gained reduce empty runs, energy consumption, and thus lower logistics costs. This leads to a 40% increase in productivity and 15% better space utilization.

Risk minimization

Digital twins continuously simulate "what-if" scenarios and reveal potential risks and disturbances.

This makes the network more robust and enables a faster response to disturbances. Digital twins therefore provide a crucial advantage in dynamic

Risk minimization

Digital twins continuously simulate "what-if" scenarios and reveal potential risks and disturbances.

This makes the network more robust and enables a faster response to disturbances. Digital twins therefore provide a crucial advantage in dynamic

Risk minimization

Digital twins continuously simulate "what-if" scenarios and reveal potential risks and disturbances.

This makes the network more robust and enables a faster response to disturbances. Digital twins therefore provide a crucial advantage in dynamic

Risk minimization

Digital twins continuously simulate "what-if" scenarios and reveal potential risks and disturbances.

This makes the network more robust and enables a faster response to disturbances. Digital twins therefore provide a crucial advantage in dynamic

Risk minimization

Digital twins continuously simulate "what-if" scenarios and reveal potential risks and disturbances.

This makes the network more robust and enables a faster response to disturbances. Digital twins therefore provide a crucial advantage in dynamic

Planning Reliability Through Physics Engines

Planning Reliability Through Physics Engines

Planning Reliability Through Physics Engines

Planning Reliability Through Physics Engines

Modern gaming engines go far beyond simple digital representations.

By integrating light, shadows, and physics, even complex logistics processes can be modeled and simulated.

Modern gaming engines go far beyond simple digital representations.

By integrating light, shadows, and physics, even complex logistics processes can be modeled and simulated.

Modern gaming engines go far beyond simple digital representations.

By integrating light, shadows, and physics, even complex logistics processes can be modeled and simulated.

Modern gaming engines go far beyond simple digital representations.

By integrating light, shadows, and physics, even complex logistics processes can be modeled and simulated.

Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.
Digital twin of an offshore port with a crane and rotor blades.

Consultation for your digital twin

We are happy to assist you with consulting on tailored digital twin solutions. Our team is ready to advise you on how the steps to create digital twins can be precisely adapted to your infrastructure. Since our digital representations are always SaaS (Software as a Service) solutions, all models are created individually. We do not offer a one-size-fits-all mass product.

View of a harbour scene with a ship and rope in the foreground.

Get in contact

We look forward to your inquiry about the digitalization of the shipping industry.

+49 40 6579 6224

info@stein-maritim.de

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