Rebalancing of underwater vehicles

The invention claimed is: 1. Rebalancing device for rebalancing of an underwater vehicle comprising at least one thruster and at least one storage space, the rebalancing device comprising control circuitry, the control circuitry being configured to receive sensor data, the sensor data comprising information relating to a depth and an attitude of the underwater vehicle, and thruster data comprising information relating to thrust and orientation of thrust of the at least one thruster, wherein the control circuitry being further configured to determine a difference between a centre of gravity, CoG, of the underwater vehicle and a centre of buoyancy, CoB, of the underwater vehicle based on the sensor data and the thruster data, determine a difference between a gravitational force acting on the underwater vehicle and a buoyancy of the underwater vehicle based on the sensor data and the thruster data, and generate rebalancing information relating to a deviation of a current load distribution from an ideal load distribution based on the determined differences. 2. The rebalancing device according to claim 1 , wherein the control circuitry is further configured to determine the difference between the centre of gravity and the centre of buoyancy based on the amount of thrust and orientation of thrust needed by the at least one thruster to maintain a predetermined attitude of the underwater vehicle. 3. The rebalancing device according to claim 1 , wherein the control circuitry is further configured to determine the difference between the gravitational force acting on the underwater vehicle and a buoyancy of the underwater vehicle based on the amount of thrust and orientation of thrust needed by the at least one thruster to maintain a predetermined depth of the underwater vehicle. 4. The rebalancing device according to claim 1 , wherein the control circuitry is further configured to determine a preferred load for each of the at least one storage space based on the determined difference between the centre of gravity and the centre of buoyancy, the preferred loads reducing or eliminating the determined difference between the centre of gravity and the centre of buoyancy and reducing or eliminating the determined difference between the gravitational force acting on the underwater vehicle and the buoyancy of the underwater vehicle. 5. The rebalancing device according to claim 1 , wherein the rebalancing device is configured to have an active mode and a passive mode, wherein, in the active mode, the rebalancing device is further configured to assume control of the underwater vehicle and further configured to identify necessary changes for rebalancing by regulating and maneuvering the underwater vehicle, and wherein, in the passive mode, the rebalancing device is additionally configured to perform real-time monitoring of the balance of the underwater vehicle during operational use of the underwater vehicle. 6. The rebalancing device according to claim 5 , wherein the rebalancing device is configured to transmit a warning to an operator of the underwater vehicle based on the monitoring in the passive mode indicating a need for rebalancing. 7. The rebalancing device according to claim 1 , wherein the rebalancing device comprises at least one sensor arranged to obtain at least one of the sensor data comprising information relating to a depth of the underwater vehicle and the sensor data comprising information relating to an attitude of the underwater vehicle. 8. The rebalancing device according to claim 1 , wherein the rebalancing device comprises at least one sensor arranged to obtain at least one of the thruster data comprising information relating to thrust of the at least one thruster and the thruster data comprising information relating to orientation of thrust of the at least one thruster. 9. An underwater vehicle comprising at least one thruster and at least one storage space, wherein the underwater vehicle comprises a rebalancing device according to claim 1 . 10. The underwater vehicle according to claim 9 , wherein the underwater vehicle comprises at least one sensor arranged to obtain at least one of the sensor data comprising information relating to a depth of the underwater vehicle and the sensor data comprising information relating to an attitude of the underwater vehicle. 11. The underwater vehicle according to claim 9 , wherein the underwater vehicle comprises at least one sensor arranged to obtain at least one of the thruster data comprising information relating to thrust of the at least one thruster and the thruster data comprising information relating to orientation of thrust of the at least one thruster. 12. A method for rebalancing of an underwater vehicle comprising at least one thruster and at least one storage space, the method comprising: receiving sensor data, the sensor data comprising information relating to a depth and an attitude of the underwater vehicle, and thruster data comprising information relating to thrust and orientation of thrust of the at least one thruster; determining a difference between a centre of gravity, CoG, of the underwater vehicle and a centre of buoyancy, CoB, of the underwater vehicle based on the sensor data and the thruster data; determining a difference between a gravitational force acting on the underwater vehicle and a buoyancy of the underwater vehicle based on the sensor data and the thruster data; and generating rebalancing information relating to a deviation of a current load distribution from an ideal load distribution based on the determined differences. 13. The method according to claim 12 , wherein determining a difference between a centre of gravity, CoG, of the underwater vehicle and a centre of buoyancy, CoB, of the underwater vehicle further comprises: determining the difference between the centre of gravity and the centre of buoyancy based on the amount of thrust and orientation of thrust needed by the at least one thruster to maintain a predetermined attitude of the underwater vehicle. 14. The method according to claim 12 , wherein determining the difference between the gravitational force acting on the underwater vehicle and the buoyancy of the underwater vehicle based on the sensor data and the thruster data further comprises: determining the difference between the gravitational force acting on the underwater vehicle and the buoyancy of the underwater vehicle based on the amount of thrust and orientation of thrust needed by the at least one thruster to maintain a predetermined depth of the underwater vehicle. 15. The method according to claim 12 , wherein generating rebalancing information further comprises: determining a preferred load for each of the at least one storage space based on the determined difference between the centre of gravity and the CoB, and the determined difference between the gravitational force acting on the underwater vehicle and the buoyancy of the underwater vehicle, the preferred loads reducing or eliminating the determined difference between the centre of gravity and the centre of buoyancy and configuring the gravitational force acting on the underwater vehicle to match the buoyancy of the underwater vehicle. 16. A non-transitory computer storage medium storing computer-executable instructions which, when executed in a processor communicatively connected to a rebalancing device, causes the rebalancing device to carry out the method steps according to claim 12 .