A method and a system for controlling a marine vessel having first and second trim deflectors is disclosed. The first and second trim deflectors have a first surface having a first area and a second surface having a second area, wherein the second planar surface is coupled to the first surface. The method and system control the first and second trim deflectors to induce any of a net yawing force, a net rolling force, and a net trimming force to the marine vessel without inducing any other substantial forces to the marine vessel by controlling the first and second trim deflectors.

A method and a system for controlling a marine vessel having first and second trim deflectors is disclosed. The first and second trim deflectors have a first surface having a first area and a second surface having a second area, wherein the second planar surface is coupled to the first surface. The method and system control the first and second trim deflectors to induce any of a net yawing force, a net rolling force, and a net trimming force to the marine vessel without inducing any other substantial forces to the marine vessel by controlling the first and second trim deflectors.

A method and a system for controlling a marine vessel having first and second trim deflectors is disclosed. The first and second trim deflectors have a first surface having a first area and a second surface having a second area, wherein the second planar surface is coupled to the first surface. The method and system control the first and second trim deflectors to induce any of a net yawing force, a net rolling force, and a net trimming force to the marine vessel without inducing any other substantial forces to the marine vessel by controlling the first and second trim deflectors.

A vessel oscillation damper system has one or more pairs of fin assemblies placed in the transom of the vessel symmetrically in relation to the transverse axis passing through the middle of the transom of the vessel, in which the fin assembly has multiple successive individual fins arranged in the vertical direction, each of which has a type Il cross-section, having one base and two intersecting sides, where the sides of the upper fin are tangential to the sides of the immediately lower fin, forming successive closed ducts through which water passes and the fin assemblies rotate clockwise above the water level and counterclockwise by their articulated connection to the vessel simultaneously or independently from each other and at the same time opposite and parallel, resulting in immediate damping of pitching and rolling simultaneously or individually and preventing the capsizing of the vessel and inflow of water.

A boat propeller apparatus can be coupled to virtually any motor boat to cause the boat to safely and efficiently produce a surfable wake. The boat propeller apparatus can be configured to mount to the boat in a way that causes the apparatus to be positioned and secured behind but spaced from the propeller while the boat is moving forward. The apparatus will therefore be in the path of the propelled water and will function to divert the propelled water in such a way as to create a larger/taller wake than would otherwise be produced by the boat. The boat propeller apparatus can also function as a propeller shield and be used in conjunction with a propeller guard.

A boat propeller apparatus can be coupled to virtually any motor boat to cause the boat to safely and efficiently produce a surfable wake. The boat propeller apparatus can be configured to mount to the boat in a way that causes the apparatus to be positioned and secured behind but spaced from the propeller while the boat is moving forward. The apparatus will therefore be in the path of the propelled water and will function to divert the propelled water in such a way as to create a larger/taller wake than would otherwise be produced by the boat. The boat propeller apparatus can also function as a propeller shield and be used in conjunction with a propeller guard.

A personal watercraft includes a floatation member, a thrust assembly, a steering assembly, and a braking assembly. The assemblies may be actuated either mechanically or electrically. The thrust assembly is human powered, solar powered, or electric powered. The thrust, steering, and braking assemblies can be added after-market to an existing stand-up paddle board (SUP), or built into one or a plurality of SUPs during initial manufacturing. When the thrust assembly is human powered, it is leg or arm powered. When the thrust assembly is leg powered, the legs can move backward and forward in a sliding motion, up and down in a stomping fashion, or move in a loop trajectory. When the thrust assembly is arm powered, the arms can move forward/backward together or separately. The thrust assembly includes one or a plurality of paddles or flippers that are positioned to the side or under the SUP.

A personal watercraft includes a floatation member, a thrust assembly, a steering assembly, and a braking assembly. The assemblies may be actuated either mechanically or electrically. The thrust assembly is human powered, solar powered, or electric powered. The thrust, steering, and braking assemblies can be added after-market to an existing stand-up paddle board (SUP), or built into one or a plurality of SUPs during initial manufacturing. When the thrust assembly is human powered, it is leg or arm powered. When the thrust assembly is leg powered, the legs can move backward and forward in a sliding motion, up and down in a stomping fashion, or move in a loop trajectory. When the thrust assembly is arm powered, the arms can move forward/backward together or separately. The thrust assembly includes one or a plurality of paddles or flippers that are positioned to the side or under the SUP.

A control system for posture control tabs of a marine vessel assists operations of a steering control. The posture control tabs are mounted on a stern of a hull to move up or down to control a posture of the hull. Actuators actuate the respective posture control tabs. When a steering instruction is provided through the steering control, a processor determines the posture control tab to be actuated and controls the actuator corresponding to the posture control tab determined to be actuated so as to change the position of the determined posture control tab.

A control system for posture control tabs of a marine vessel assists operations of a steering control. The posture control tabs are mounted on a stern of a hull to move up or down to control a posture of the hull. Actuators actuate the respective posture control tabs. When a steering instruction is provided through the steering control, a processor determines the posture control tab to be actuated and controls the actuator corresponding to the posture control tab determined to be actuated so as to change the position of the determined posture control tab.