A sports ball comprising a cover disposed about a bladder is provided. The cover comprises an outer substrate and defines an outer substrate surface and a feature surface. The outer substrate surface defines a plurality of plateau sections. The feature surface is radially spaced apart from the outer substrate surface and further defines a plurality of indentations and a plurality of protrusions. Each indentation has an indentation terminus disposed on the feature surface and radially spaced apart from the outer substrate surface by an indentation depth. The protrusions are positioned on the plateau sections, and each protrusion has a protrusion terminus disposed on the feature surface and radially spaced apart from the outer substrate surface by a protrusion height. At least one protrusion is positioned less than a predetermined distance of about 1.0 millimeters from at least one of the indentations, thereby acting as a wickerbill on the ball.

A non-spherical ball includes a plurality of shaped components secured together and forming a body of the non-spherical ball; a cylindrical exterior shape extending around a first axis of the body; a cube exterior shape extending around a second axis of the body; the cylindrical exterior shape and the cube shape intersect at a right angle; and the cube exterior shape minimizes roll of the non-spherical ball when thrown on the second axis; and the cylindrical exterior shape maximizes roll of the non-spherical ball when thrown on the first axis.

A non-spherical ball includes a plurality of shaped components secured together and forming a body of the non-spherical ball; a cylindrical exterior shape extending around a first axis of the body; a cube exterior shape extending around a second axis of the body; the cylindrical exterior shape and the cube shape intersect at a right angle; and the cube exterior shape minimizes roll of the non-spherical ball when thrown on the second axis; and the cylindrical exterior shape maximizes roll of the non-spherical ball when thrown on the first axis.

The present invention relates to sports balls. A sports ball comprises a surface layer comprising a plurality of panels. The sports ball further comprises a lattice structure extending below the surface layer, wherein the lattice structure comprises a plurality of lattice cells comprising radially extending elements. The lattice cells which are adjacent to the surface layer have at least one dimension which is smaller than an average diameter of the panels.

The present invention relates to sports balls. A sports ball comprises a surface layer comprising a plurality of panels. The sports ball further comprises a lattice structure extending below the surface layer, wherein the lattice structure comprises a plurality of lattice cells comprising radially extending elements. The lattice cells which are adjacent to the surface layer have at least one dimension which is smaller than an average diameter of the panels.

Systems and methods for tracking a sports ball assembly in real time during a sporting event are disclosed. A structure of the sports ball assembly is also disclosed. The sports ball assembly comprises at least one electronic circuit embedded or attached to a sports ball. The sports ball assembly is in network communication with a server processor via at least two receivers within a sports arena. The sports ball assembly generates and transmits UWB data packets comprising movement-related data for the sports ball assembly in real time at a predetermined rate. The at least two receivers receive the UWB data packets and transmit to the server processor with time stamps. The server processor is operable to determine a movement of the sports ball assembly based on the UWB data packets and the time stamps received from the at least two receivers.

Systems and methods for tracking a sports ball assembly in real time during a sporting event are disclosed. A structure of the sports ball assembly is also disclosed. The sports ball assembly comprises at least one electronic circuit embedded or attached to a sports ball. The sports ball assembly is in network communication with a server processor via at least two receivers within a sports arena. The sports ball assembly generates and transmits UWB data packets comprising movement-related data for the sports ball assembly in real time at a predetermined rate. The at least two receivers receive the UWB data packets and transmit to the server processor with time stamps. The server processor is operable to determine a movement of the sports ball assembly based on the UWB data packets and the time stamps received from the at least two receivers.

A non-spherical ball includes a plurality of shaped components secured together and forming a body of the non-spherical ball; a cylindrical exterior shape extending around a first axis of the body; a cube exterior shape extending around a second axis of the body; the cylindrical exterior shape and the cube shape intersect at a right angle; and the cube exterior shape minimizes roll of the non-spherical ball when thrown on the second axis; and the cylindrical exterior shape maximizes roll of the non-spherical ball when thrown on the first axis.

A non-spherical ball includes a plurality of shaped components secured together and forming a body of the non-spherical ball; a cylindrical exterior shape extending around a first axis of the body; a cube exterior shape extending around a second axis of the body; the cylindrical exterior shape and the cube shape intersect at a right angle; and the cube exterior shape minimizes roll of the non-spherical ball when thrown on the second axis; and the cylindrical exterior shape maximizes roll of the non-spherical ball when thrown on the first axis.

An accommodating intraocular lens comprises a first lens component, a second lens component, and an adhesive between portions of the two lens components. The cured adhesive bonds the lens components to form a fluid chamber. The lens components are bonded to one another along a seam which extends circumferentially along at least a portion of the lens components. The lens components may comprise the same polymer material. The cured adhesive also comprises the polymer or a prepolymer of the polymer to provide increased strength. The polymer is hydratable such that the lens components and the cured adhesive therebetween can swell together to inhibit stresses between the lens components and the cured adhesive.