Sea collision is never far from the minds of seafarers because of oil spills and life loss. A collision can have consequences like the death of the people and expensive material.

Vessel collision simulator

Recent developments switch the 3D visual reconstruction in control maneuvering simulation. To interpret data with 3D recreation of collision allows an investigator to know what happened.

In 2012, the Baltic ace carrier collided with container ship Corvus J in the North Sea shipping lanes. It was a severe collision that happened near the Dutch coast and caused a loss of life. In the accident, four crew member lost their life as the ace sank in the sea.

Application for Simulation Methods

The application for simulation methods includes different maritime ship simulators. Vessel collision simulator enable maritime users to prepare for marine navigation. The navigation simulators allow to train and plan navigation in a simulated environment.

Simulators combine the hydrodynamic engines and ship simulation models with 3D animation. The application of ship simulation methods with 3D visualization enables ship accident investigations.

Moreover, it enables sea simulation studies, ship pilot training for complex navigation. The application of simulation includes digital forensic of accidents and navigation of ships. Below we discussed the application of simulation methods in detail:

1. Ship Accident Investigation

Ship simulator software can provide you with detailed sea collision analysis. It can help the authorities the complexities behind the ship accidents. Moreover, it enables the investigators to define mitigating measures.

The ship simulator method provides a successful resolution of ship accidents. Success is usually based on understanding the circumstances of an accident.

3D visual construction platforms offer broad simulation functionalities and reconstruction. The application of simulation usually includes exploring the impact of different weather conditions. Moreover, it also includes the impact of alternative engines and rudder orders.

2. Risk Management

The simulation methods can increase ship operations by investigating complex piloting procedures. By understanding the maneuvering procedure in a simulated environment, you can reduce risks.

The simulation offers different ways to support operational decision-making and project planning. It enables the testing of operational situations, which includes:

· Steerage Equipment Failure

· Emergency Response Planning

· Impacts of Propulsion

· Tug Availability

The simulation ranges from the design of ports to navigation in restricted offshore platforms.

3. Ship Navigation

The ship navigation simulators are best for autonomous ship navigation. It can support the development of operated vessels with autonomous vessels.

The increased interaction feature between crewed ships and low crewed ships is crucial. The data analytics and new sensors can support safe navigation in the coming years.

4. Safety Ship Operations

The application of the simulation model includes the simulation of risky ship transfer operations. It includes the simulation of restricted navigation of ships and offshore gas terminals.

The transferring process of cargo at sea instead of a port is a cost-effective solution. It’s crucial to manage large vessels’ closeness together on open seas to avoid damage.

Conclusion

The sea accident investigation with simulators allows simulating real-time environments. It allows investigators to recreate vessel collision simulator and to know the exact situation.