Boat towers having a lower portion fixed to a boat, an upper portion pivotally coupled to the lower portion, and a hinge configured to couple the upper portion to the lower portion are disclosed. The hinge may include a stationary portion coupled to the lower portion of the tower; a moving portion coupled to the lower portion at a hinge axis; an assisting device extending from a position fixed on the stationary portion to an interface on the moving portion; a catch coupled to the moving portion; and a latch coupled to the stationary portion configured to interface with the catch thereby locking the hinge in a closed position. The latch may be configured to move to a locked position by the moving portion moving into the closed position and the weight of the upper portion of the tower provides sufficient force to engage and lock the latch.

An apparatus for towing a water sports performer including a first leg, a second leg, a header, and a tow-line-attachment structure. Each of the first leg and second leg is adapted for attachment to one of the port side of a centerline of a boat or the starboard side of a centerline of a boat. The header is capable of assuming a plurality of different header lengths, and includes a first header portion, a second header portion, a housing, and a locking mechanism. The housing connects the first header portion and the second header portion. The housing includes a first receiver configured to receive a second end of the first header portion at a plurality of different positions. The locking mechanism is configured to secure the second end of the first header portion to the housing in one of the plurality of different positions to set the header length.

A droneboarding system is disclosed. The droneboarding system includes an unmanned aerial vehicle (drone) for pulling a droneboarder riding a board over a surface, a harness, a tow handle and a plurality of tension lines. Each tension line is attached to the drone and to either the tow handle or the harness. The tension lines are configured in a manner that provides mechanical control of the flight path of the drone. A remote power supply is adapted to be carried by the droneboarder. One of the tension line carries an electrical conductor from the remote power supply to the drone. The electrical conductor provides electrical power from the remote power supply to the drone.

A droneboarding system is disclosed. The droneboarding system includes an unmanned aerial vehicle (drone) for pulling a droneboarder riding a board over a surface, a harness, a tow handle and a plurality of tension lines. Each tension line is attached to the drone and to either the tow handle or the harness. The tension lines are configured in a manner that provides mechanical control of the flight path of the drone. A remote power supply is adapted to be carried by the droneboarder. One of the tension line carries an electrical conductor from the remote power supply to the drone. The electrical conductor provides electrical power from the remote power supply to the drone.

A droneboarding system is disclosed. The droneboarding system includes an unmanned aerial vehicle (drone) for pulling a droneboarder riding a board over a surface, a harness, a tow handle and a plurality of tension lines. Each tension line is attached to the drone and to either the tow handle or the harness. The tension lines are configured in a manner that provides mechanical control of the flight path of the drone. A remote power supply is adapted to be carried by the droneboarder. One of the tension line carries an electrical conductor from the remote power supply to the drone. The electrical conductor provides electrical power from the remote power supply to the drone.

A boat, boat systems, and methods to determine when a water-sports participant has fallen. The boat may include an image sensor and an image processor communicatively coupled to the image sensor. The image sensor is configured to capture at least one image of the environment aft of the stern of the boat. The image processor is configured to execute a rider-down analysis that includes analyzing, using an object recognition process executed by the image processor, an image to be analyzed to determine if a water-sports participant has fallen. The boat may include a controller configured to execute a rider-down action when the water-sports participant has fallen. The controller may execute the rider-down action when the image processor determines that the water-sports participant has fallen based upon the rider-down analysis.

A boat, boat systems, and methods to determine when a water-sports participant has fallen. The boat may include an image sensor and an image processor communicatively coupled to the image sensor. The image sensor is configured to capture at least one image of the environment aft of the stern of the boat. The image processor is configured to execute a rider-down analysis that includes analyzing, using an object recognition process executed by the image processor, an image to be analyzed to determine if a water-sports participant has fallen. The boat may include a controller configured to execute a rider-down action when the water-sports participant has fallen. The controller may execute the rider-down action when the image processor determines that the water-sports participant has fallen based upon the rider-down analysis.

Cuff assemblies for sports board leashes, where the cuff assembly includes a central section that having a precurved molded insert that is configured to connect to a cord of the sports board leash, a first wing attached to a first side of the central section, and a second wing attached to a second side of the central section. The maximum width of the central section of the cuff assembly is greater than the maximum width of either of the first wing or second wing, and the first wing and second wing are configured to overlap and fasten to each other in order to secure the cuff assembly around a person's limb portion.

Cuff assemblies for sports board leashes, where the cuff assembly includes a central section that having a precurved molded insert that is configured to connect to a cord of the sports board leash, a first wing attached to a first side of the central section, and a second wing attached to a second side of the central section. The maximum width of the central section of the cuff assembly is greater than the maximum width of either of the first wing or second wing, and the first wing and second wing are configured to overlap and fasten to each other in order to secure the cuff assembly around a person's limb portion.

A water sport training device is disclosed comprising, in one embodiment, a raft having a distal nose portion and a proximal rear portion. The rear portion provides a pair of substantially spaced apart lateral pontoons and a first web spanning the space therebetween. A relatively rigid platform is positionable within the raft, substantially adjacent the first web. A buoyant seat portion is positioned substantially on a back half of the device between the pontoons and adjacent the platform. A tow rope attachment means is secured to the raft for selectively towing the device over a body of water. The device is configured such that a back half of the device has a center buoyancy sufficient for providing a stable surface to support the weight of a person while floating on water both at standstill and as being pulled through the water as by a boat.