A trailering support device able to facilitate loading of a hull onto a trailer includes one or more controllers configured or programmed to perform an automatic vessel steering control to move the hull toward the trailer; estimate, based on a content of the automatic vessel steering control, a position and an azimuth of the hull at a predetermined time after a start of the automatic vessel steering control; detect the position, a steering angle, and the azimuth of the hull; compare the estimated position and azimuth, respectively, with the position and the azimuth detected at the predetermined time; and determine, based on a comparison result, whether the loading of the hull onto the trailer able to be performed; and in a case where it is determined that the loading of the hull onto the trailer is not able to be performed, provide notification of the determination that the loading of the trailer is not able to be performed.

A method of automatically moving, by an automatic location placement system, a marine vessel includes receiving, by a central processing unit, from a vision ranging photography system, at least one optical feed including data providing a mapping of an environment surrounding a marine vessel. The method includes displaying, by the central processing unit, on a touch screen monitor, the mapping of the environment. The method includes receiving, by the central processing unit, from the touch screen monitor, target location data. The method includes directing, by the central processing unit, at least one element of a propulsion system of the marine vessel, to move the marine vessel to the targeted location, using the mapping.

An apparatus for controlling an amphibious vehicle includes an engine, a land propeller generating a propulsion force on land, a water propeller generating a propulsion force on water, a power distributor distributing power to the land propeller and the water propeller, a transmission for changing a shift ratio of the power supplied to the land propeller, and a controller, wherein the controller selects and executes one of a land mode for controlling travel on land, a water mode for controlling travel on the water, and a transition mode controlling the travel in a transition region, and the controller maintains an engine output torque in the land mode to be constant and maintains an engine output speed in the water mode and the transition mode to be constant.

An apparatus for controlling an amphibious vehicle includes an engine, a land propeller generating a propulsion force on land, a water propeller generating a propulsion force on water, a power distributor distributing power to the land propeller and the water propeller, a transmission for changing a shift ratio of the power supplied to the land propeller, and a controller, wherein the controller selects and executes one of a land mode for controlling travel on land, a water mode for controlling travel on the water, and a transition mode controlling the travel in a transition region, and the controller maintains an engine output torque in the land mode to be constant and maintains an engine output speed in the water mode and the transition mode to be constant.

An engine control strategy for a marine vessel propulsion system receives a request for a gear from among plural transmission gears, determines an engine speed for the requested transmission gear shift, adjusts the engine to the determined speed for a predetermined amount of time, and prevents the requested transmission gear shift from occurring for the predetermined amount of time while maintaining the engine at the predetermined speed. After the predetermined amount of time elapses, the requested shift is allowed to occur.

An engine control strategy for a marine vessel propulsion system receives a request for a gear from among plural transmission gears, determines an engine speed for the requested transmission gear shift, adjusts the engine to the determined speed for a predetermined amount of time, and prevents the requested transmission gear shift from occurring for the predetermined amount of time while maintaining the engine at the predetermined speed. After the predetermined amount of time elapses, the requested shift is allowed to occur.

A vessel speed control system includes a lever operator on which an operation is performed to increase or decrease a propulsion speed of the vessel, a transition operator on which a transition operation is performed to transition a normal operation mode to a speed control mode, and a controller configured or programmed to perform a control to prevent transition to the speed control mode even when the transition operation is performed on the transition operator during a restriction period of time including at least an acceleration/deceleration period of time during which a rotation speed of an engine or the propulsion speed of the vessel is changed by the lever operator in the normal operation mode.

A vessel speed control system includes a lever operator on which an operation is performed to increase or decrease a propulsion speed of the vessel, a transition operator on which a transition operation is performed to transition a normal operation mode to a speed control mode, and a controller configured or programmed to perform a control to prevent transition to the speed control mode even when the transition operation is performed on the transition operator during a restriction period of time including at least an acceleration/deceleration period of time during which a rotation speed of an engine or the propulsion speed of the vessel is changed by the lever operator in the normal operation mode.

A retrofittable watercraft propulsion device enables motorized propulsion and maneuvering of a watercraft occupied by a user. The retrofittable watercraft propulsion device includes an elongated shaft, an impeller pump, a handle, a control input device, a portable power source, a swivel bracket, and a microprocessor. The elongated shaft submerges the impeller pump below the waterline and provides support for the user while the watercraft is in motion. The impeller pump harnesses the water and generates thrust to propel and maneuver the watercraft. The control input device allows the user to throttle or brake the impeller pump. The portable power source supplies electrical energy to the microprocessor and the impeller pump. The swivel bracket swivels the elongated shaft and redirects the thrust of the impeller pump. Finally, the microprocessor controls the impeller pump based on how the user operates the control input device.

A retrofittable watercraft propulsion device enables motorized propulsion and maneuvering of a watercraft occupied by a user. The retrofittable watercraft propulsion device includes an elongated shaft, an impeller pump, a handle, a control input device, a portable power source, a swivel bracket, and a microprocessor. The elongated shaft submerges the impeller pump below the waterline and provides support for the user while the watercraft is in motion. The impeller pump harnesses the water and generates thrust to propel and maneuver the watercraft. The control input device allows the user to throttle or brake the impeller pump. The portable power source supplies electrical energy to the microprocessor and the impeller pump. The swivel bracket swivels the elongated shaft and redirects the thrust of the impeller pump. Finally, the microprocessor controls the impeller pump based on how the user operates the control input device.