A marine vessel includes propulsion devices, an operator to move the marine vessel in a tilting direction of the operator, and a controller to control a magnitude and a direction of a thrust generated by each of the propulsion devices to move the marine vessel in the tilting direction of the operator. When the operator is tilted toward a lateral direction, the controller executes a first control to move the marine vessel in the lateral direction, and causes each of the propulsion devices to generate a thrust to eliminate a deviation of the marine vessel in a front-rear direction from a position of the marine vessel when the operator was tilted. When the operator is tilted in the front-rear direction of the marine vessel while the marine vessel moves in the lateral direction, the controller interrupts the first control and executes a second control to cause each of the propulsion devices to generate a thrust corresponding to the tilting of the operator.

A marine vessel includes propulsion devices, an operator to move the marine vessel in a tilting direction of the operator, and a controller to control a magnitude and a direction of a thrust generated by each of the propulsion devices to move the marine vessel in the tilting direction of the operator. When the operator is tilted toward a lateral direction, the controller executes a first control to move the marine vessel in the lateral direction, and causes each of the propulsion devices to generate a thrust to eliminate a deviation of the marine vessel in a front-rear direction from a position of the marine vessel when the operator was tilted. When the operator is tilted in the front-rear direction of the marine vessel while the marine vessel moves in the lateral direction, the controller interrupts the first control and executes a second control to cause each of the propulsion devices to generate a thrust corresponding to the tilting of the operator.

A ship handling device may be provided with which a ship moves and turns in a target orientation toward target coordinates without monitoring the behavior of the ship against disturbance or the characteristics of the ship. The ship handling device moves the ship toward the target coordinates and in the target orientation from a GPS device and a signal from an orientation sensor, wherein the target coordinates and the target orientation are calculated from operation of a joystick lever, and a thrust is generated by a propulsion device so as to move the ship to the target coordinates and the target orientation after a signal finalizing the target coordinates and the target orientation has been acquired.

A ship handling device may be provided with which a ship moves and turns in a target orientation toward target coordinates without monitoring the behavior of the ship against disturbance or the characteristics of the ship. The ship handling device moves the ship toward the target coordinates and in the target orientation from a GPS device and a signal from an orientation sensor, wherein the target coordinates and the target orientation are calculated from operation of a joystick lever, and a thrust is generated by a propulsion device so as to move the ship to the target coordinates and the target orientation after a signal finalizing the target coordinates and the target orientation has been acquired.

For a vessel steering apparatus for performing a movement control to move a vessel to a target position on the basis of a signal of a GPS apparatus, a movement control stop area, a buffer area adjacent to the movement control stop area, and a movement-controlling area adjacent to the buffer area are set on the basis of the distance from the target position, wherein in the movement control stop area, thrust generation by a propulsion apparatus is stopped; in the movement-controlling area, thrust is generated by the propulsion apparatus; and in the buffer area, thrust is generated by the propulsion apparatus of the vessel for movement control only in the case where the vessel moves from the movement-controlling area to the buffer area, then stays in the buffer area, and moves in a direction away from the target position.

For a vessel steering apparatus for performing a movement control to move a vessel to a target position on the basis of a signal of a GPS apparatus, a movement control stop area, a buffer area adjacent to the movement control stop area, and a movement-controlling area adjacent to the buffer area are set on the basis of the distance from the target position, wherein in the movement control stop area, thrust generation by a propulsion apparatus is stopped; in the movement-controlling area, thrust is generated by the propulsion apparatus; and in the buffer area, thrust is generated by the propulsion apparatus of the vessel for movement control only in the case where the vessel moves from the movement-controlling area to the buffer area, then stays in the buffer area, and moves in a direction away from the target position.

A moving body control device includes a moving body direction sensor, a position sensor, and processing circuitry. The processing circuitry estimates a direction of disturbance. The processing circuitry sets a target position and a starting position. The processing circuitry controls a propulsion generator and a movement direction adjuster such that a heading direction sensed by the moving body direction sensor is opposite to the direction of the disturbance estimated by the processing circuitry, and when the moving body has been drifted at least a specific distance from the target position, the moving body returns to the starting position, and the heading direction at the starting position is opposite to the direction of the disturbance. The processing circuitry changes the starting position based on a distance between the target position and a position of the moving body sensed by the position sensor.

A moving body control device includes a moving body direction sensor, a position sensor, and processing circuitry. The processing circuitry estimates a direction of disturbance. The processing circuitry sets a target position and a starting position. The processing circuitry controls a propulsion generator and a movement direction adjuster such that a heading direction sensed by the moving body direction sensor is opposite to the direction of the disturbance estimated by the processing circuitry, and when the moving body has been drifted at least a specific distance from the target position, the moving body returns to the starting position, and the heading direction at the starting position is opposite to the direction of the disturbance. The processing circuitry changes the starting position based on a distance between the target position and a position of the moving body sensed by the position sensor.

A steering system for a marine vessel comprises a first propulsion unit, a second propulsion unit, and a third propulsion unit. There is a hydraulic actuator for imparting steering motion to the first propulsion unit and a hydraulic actuator for imparting steering motion to the second propulsion unit. A tie bar couples a tiller of the third propulsion unit to the hydraulic actuator of the first propulsion unit. A joystick is used to input user steering commands to the steering system. Movement of the joystick actuates the said hydraulic actuators to impart steering motion to the first propulsion unit and the second propulsion unit. The third propulsion unit is put in neutral when the joystick is used to input user steering commands.

A steering system for a marine vessel comprises a first propulsion unit, a second propulsion unit, and a third propulsion unit. There is a hydraulic actuator for imparting steering motion to the first propulsion unit and a hydraulic actuator for imparting steering motion to the second propulsion unit. A tie bar couples a tiller of the third propulsion unit to the hydraulic actuator of the first propulsion unit. A joystick is used to input user steering commands to the steering system. Movement of the joystick actuates the said hydraulic actuators to impart steering motion to the first propulsion unit and the second propulsion unit. The third propulsion unit is put in neutral when the joystick is used to input user steering commands.