In one embodiment, a method that receives a manifest for plural encoded representations of a single content stream, each representation fragmented into plural chunks, each representation comprising a different quality level, the manifest listing a plurality of representations, each representation comprising the plural chunks at one of a plurality of quality levels, and requests one of the plural chunks based on selection of one of the plurality of quality levels explicitly indicated in the manifest.

The present disclosure provides a platform system for a boat, including a wake tow tower, a platform supported on the wake tow tower, a safety rail above the platform, and a stabilizing fin supported at least partially below a waterline adjacent a major side of the hull to resist uncontrolled movement of the boat during usage of the platform by a person.

The present disclosure provides a platform system for a boat, including a wake tow tower, a platform supported on the wake tow tower, a safety rail above the platform, and a stabilizing fin supported at least partially below a waterline adjacent a major side of the hull to resist uncontrolled movement of the boat during usage of the platform by a person.

A collapsible mast of or for a yacht includes a base, a top section, and a rotation mechanism arranged between the base and the top section configured to rotate the top section relative to the base between an upright extended state, in which the top section extends in line with the base, and a collapsed state, in which the top section is rotated downward to reduce a height of the mast. The rotation mechanism comprises an axis oriented transverse through the base. Further, the rotation mechanism comprises a rotation arm, which is rotatably connected to the base via the axis.

A collapsible mast of or for a yacht includes a base, a top section, and a rotation mechanism arranged between the base and the top section configured to rotate the top section relative to the base between an upright extended state, in which the top section extends in line with the base, and a collapsed state, in which the top section is rotated downward to reduce a height of the mast. The rotation mechanism comprises an axis oriented transverse through the base. Further, the rotation mechanism comprises a rotation arm, which is rotatably connected to the base via the axis.

The present invention is directed broadly to a marine vessel (10) comprising a deck (12) mounted to a hull (14) together with a sail (16) coupled to the marine vessel (10) via a mast base assembly (18). The mast base assembly (18) comprises a mast tilt assembly (22). The mast base assembly (18) also comprises a mast base mounting (20) to which the mast tilt assembly (22) is pivotally mounted for movement about a tilt axis (24) between stowed and operative positions. The mast base assembly (18) further comprises a sail slew assembly (26) mounted to the sail (16) associated with the marine vessel (10). The sail slew assembly (26) is operatively coupled to the mast tilt assembly (22) for slewing of the sail (16). The sail (16) is rotated or slewed about a slew axis (28) of the mast tilt assembly (22) to reorient the sail (16) relative to the marine vessel (10).

The present invention is directed broadly to a marine vessel (10) comprising a deck (12) mounted to a hull (14) together with a sail (16) coupled to the marine vessel (10) via a mast base assembly (18). The mast base assembly (18) comprises a mast tilt assembly (22). The mast base assembly (18) also comprises a mast base mounting (20) to which the mast tilt assembly (22) is pivotally mounted for movement about a tilt axis (24) between stowed and operative positions. The mast base assembly (18) further comprises a sail slew assembly (26) mounted to the sail (16) associated with the marine vessel (10). The sail slew assembly (26) is operatively coupled to the mast tilt assembly (22) for slewing of the sail (16). The sail (16) is rotated or slewed about a slew axis (28) of the mast tilt assembly (22) to reorient the sail (16) relative to the marine vessel (10).

A boat tower (1800), including: a center section (1814) configured as a cockpit cover for a boat; a first support (1802) secured to a first end of the center section, the first support including a first telescoping assembly (1804); and a second support (1808) secured to a second end of the center section, the second support including a second telescoping assembly (1810). The first telescoping assembly and the second telescoping assembly cooperate to raise and lower the center section between a first position and a second position. At least one of the first support and the second support comprises a storage compartment (2210, 2211).

A method for manufacturing a laminar construction panel comprising a first (1) and a second (2) metal plate and an acoustic insulation layer (3) interposed there between. The first and second metal plates are connected to each other by a number of locally welded joints distributed over the laminar construction panel and extended through an area of an acoustic isolation layer. The welded joints are formed by stud welding, one of the metal plates is provided with welding openings (4), and a welding pin (7) is pushed through the isolation layer against the other metal plate. The welded joints may be formed by spot welding, both metal plates are brought into electrical connection with the spot welding equipment, and the metal plates locally are pressed toward each other in such a way that mutual electrical contact is made.

A method for manufacturing a laminar construction panel comprising a first (1) and a second (2) metal plate and an acoustic insulation layer (3) interposed there between. The first and second metal plates are connected to each other by a number of locally welded joints distributed over the laminar construction panel and extended through an area of an acoustic isolation layer. The welded joints are formed by stud welding, one of the metal plates is provided with welding openings (4), and a welding pin (7) is pushed through the isolation layer against the other metal plate. The welded joints may be formed by spot welding, both metal plates are brought into electrical connection with the spot welding equipment, and the metal plates locally are pressed toward each other in such a way that mutual electrical contact is made.