Dynamic positioning refers to a computer navigated system that is used to automatically calibrate the position of a vessel through the use of individual thrusters and propellers. In most cases, dynamic positioning often encompasses the use of special motion sensors, wind sensors and motion sensors to provide data for special computers. The computers, in turn, determine the vessel’s current location, the direction and the magnitude of environmental factors that play a major role in its positioning. Some of the main vessel types that utilize this type of technology include submarines, ships and water vessels that are used for research purposes according to Pan Delta Control.
These computers often use special algorithms of the vessel that encompasses information relating to the drag and wind factors that affect the current direction of the vessel. This information from the dynamic positioning systems is then often combined with expert knowledge to produce the best possible direction for movement and the velocity of the watercraft as well. Besides that, these systems also allow for water crafts to operate in places where anchoring or mooring is not possible due to deep waters.
This type of positioning is often either precise in that the location is maintained at a fixed point over the bottom, in regards to a moving water vessel such as a submarine or perhaps a boat. Besides that, the vessel may also be positioned in a favorable direction to make the most of the factors such as waves, current, and even wind.
Dynamic positioning is also a common occurrence in the realms of the offshore oil industry, and it allows oil producers to find the best possible solutions for mining oil.
- It allows for optimal maneuverability
- It requires no use of anchor handling tugs
- This tech is not dependent on the depth of water
- It is simple to set up and is not compromised by the seabed