This automatic ship handling system includes a ship and a communication device, the ship includes an actuator that has a function of generating a propulsion force for the ship and a function of generating a turning moment on the ship, an operation unit that receives an input operation for activating the actuator, and a ship control device that activates the actuator on the basis of at least the input operation received by the operation unit, the ship control device has a manual ship handling mode in which the actuator is activated on the basis of the input operation received by the operation unit, and an automatic ship handling mode in which the actuator is activated without a need for the operation unit to receive the input operation, and in the automatic ship handling mode, the ship control device controls a speed of the ship on the basis of a relative distance between the ship and the communication device.

A control unit for controlling a marine vessel to avoid an emergency situation, the control unit comprising processing circuitry and a storage medium, wherein the control unit is configured to receive path data from one or more sensor devices indicative of a path traveled by the marine vessel in a forward direction and to store the received path data by the storage medium, characterized in that the control unit is configured to receive a trigger signal from an input device, and, in response to the trigger signal, determine a location for turning the vessel around, navigating to the location, turning the vessel around at the location, and navigating the vessel along the path in reverse direction.

This new art offers an improvement to conventional surfboards as well as any previous motorized jet surfboards. This application includes an electric powered surfboard equipped with high volume jet drive units that power it forward and significantly improve a surfer's wave fielding and catching ability. Once a wave is caught the drive unit can be shut off by the surfer. Then instantly, two flush fitting glide doors close the jet tube intake openings allowing the surfboard's bottom to return to a planning surface with no protrusions, except for fins, and no water filled jet tubes left open to detract from the surfboard's critical gliding ability when surfing waves. Also, there's a crowned deck shape that allows thin rail sensitivity for turning performance and a motor battery arrangement that provides mass centralization of weight. All this, combined with several wireless control means define this new fine handling motorized surfboard.

A system for controlling a watercraft includes a wireless communication device corresponding to a passenger of the watercraft. A controller is in communication with the wireless communication device and the watercraft. The controller is configured to receive range information corresponding to a target distance between the watercraft and the wireless communication device. The controller is further configured to receive displacement data corresponding to an actual distance between the watercraft and the wireless communication device. The controller is further configured to compare the displacement data to the range information. The controller is further configured to determine an overboard condition based on the comparison of the displacement data to the range information. The controller is further configured to communicate an instruction to control the watercraft based on the overboard condition.

This invention relates to an automatic method for releasing and guiding rescue and life-saving appliances that implement the method, implemented by a computer located in the command tower (202) of the vessel (200), that receives and processes in real time the geographical position data of a person overboard (101) in response to an emergency signal received by the aerial (3), sends a signal activating and releasing the Unmanned Surface Vehicle - USV - (1), launching it onto the water, and the Unmanned Aerial Vehicle - UAV - (4),launching it into the air.

A watercraft maneuvering system includes an overboard sensor to detect an operator overboard event when a watercraft operator falls overboard from a watercraft, and a controller provided on the watercraft and configured or programmed to control a propulsion system of the watercraft. The controller is configured or programmed to perform a fixed point holding control operation to control the propulsion system to maintain a fixed position of the watercraft when the overboard sensor detects the operator overboard event. The overboard sensor is provided on the watercraft, and includes a communicator that wirelessly communicates with an operator fob to be carried by the operator. The operator sensor may detect the operator overboard event based on a state of communication between the operator fob and the communicator.

A control unit for controlling a marine vessel to avoid an emergency situation, the control unit comprising processing circuitry and a storage medium, wherein the control unit is configured to receive path data from one or more sensor devices indicative of a path traveled by the marine vessel in a forward direction and to store the received path data by the storage medium, characterized in that the control unit is configured to receive a trigger signal from an input device, and, in response to the trigger signal, determine a location for turning the vessel around, navigating to the location, turning the vessel around at the location, and navigating the vessel along the path in reverse direction.

A moving body that moves at least one of in water or along a water surface, in accordance with a person moving on the water by stepping with feet in an alternating manner, includes a movement information acquiring unit that acquires information concerning movement of a foot of the person or a worn item worn on the foot of the person, and a control unit that, when the foot of the person moves away from the moving body, causes the moving body to move to a stepping destination of the foot based on the information acquired by the movement information acquiring unit. A moving body system includes the moving body and the worn item.

This application includes an electric powered surfboard equipped with drive units that emerge out onto the surfboard's bottom surface to power it forward. Once a wave is caught the drive units can retract back up into the surfboard's body as the power is shut off by the surfer. Then instantly, flush fitting glide doors close, allowing the surfboard's bottom to return to a planing surface with no protrusions, except for fins to detract from the surfboard's critical gliding ability when surfing waves. Also, there's a crowned deck shape that allows thin rail sensitivity for turning performance and a motor battery arrangement that provides mass centralization of weight. All this, combined with several wireless control means define this new fine handling motorized surfboard.

A system for a marine vessel propelled by a propulsion device includes a controller operable in an automatic navigation mode in which the controller automatically controls a thrust of the propulsion device to propel the marine vessel through a body of water. A portable device is carried on an individual on the marine vessel. The controller enables a person overboard detection algorithm in response to enablement of the automatic navigation mode. The person overboard detection algorithm disables the automatic navigation mode in response to detecting a given status of the portable device.