Electronic tracking systems are disclosed for assisting users with locating objects in a sporting environment. One such system includes a ball tracking component that tracks a game ball while moving in the sporting environment, and a heads up display that is worn by the user. This heads up display has an electronic display screen with a transparent display area that dynamically displays images within the user's field of view. A processor, which communicates with the ball tracking component and heads up display, is programmed to detect movement of the game ball, and responsively determine launch characteristics and/or flight characteristics of the moving game ball. The heads up display displays the launch/flight characteristics contemporaneous with an object indication adjacent to or superimposed over the moving game ball as the game ball is visible through the transparent display area of the display screen within the user's field of view.

A method and apparatus for automatically scoring a golf player includes detecting and recording the golf player at a golf tee pad by an identification reading device at the golf tee pad reading an identification device of a golf club that is used by the golf player. Movement of a golf ball after it is hit by the golf club is detected. A location of the golf ball when the golf ball stops is recorded and the golf player is credited with a stroke. Subsequently, each time movement of the golf ball is detected, the location of the golf ball is updated and the golf player is credited with another of the stroke.

There is provided an information processing device, an information processing method, and a computer program capable of more reliably recognizing positions of a plurality of detection targets. The information processing device includes a control unit for recognizing positions of a first detection target and a second detection target that are present on the same surface. The control unit recognizes the position of the first detection target based on sensing data obtained by a first sensor for sensing the first detection target from a first direction, and recognizes the position of the second detection target based on sensing data obtained by a second sensor for sensing the second detection target from a direction opposite to the first direction across the same surface.

Technologies are disclosed herein for one or more sensors arrayed adjacent to a golf course playing surface to track the trajectory and determine a resting location of a golf ball it travels along the golf course playing surface. The sensors may include motion detecting sensors that may determine various measurements related to the location and/or movement of the golf ball, such as an initial impact location, a velocity, and/or a direction of travel of the golf ball along the golf course playing surface. The signals from the motion detecting sensors may further be used to determine a resting location for the golf ball and/or a rate of acceleration/deceleration of the golf ball. The various signals may be averaged together to determine a velocity and/or direction of travel of the golf ball.

A game ball locating system includes a ball with in internal MEMS module that communicates with transceivers positioned about the periphery of a playing field. A wireless radio frequency barrier is positioned below the playing field boundary, i.e., the sidelines and goal lines. The MEMS module includes a gyrometer and accelerometer that determine when the base ceases motion. The MEMS further measures signal strength emanating from the radio frequency barrier to determine when the ball crosses the playing field boundary. In either event, a controlling computer activates the transceivers, which transmit a signal to the MEMS module and the computer calculates the exact position of the ball.

A golf ball with embedded electronics to allow proximity to be tracked and to monitor golfer performance is disclosed. The golf ball comprises a processor connected to an accelerometer, communications circuitry, a spin detector, and memory, wherein the processor stores accelerometer data from the accelerometer and rotation data regarding rotation of the spin detector in the memory. The processor converts the data regarding the rotation of the spin detector into a rotation speed and a rotation direction, said rotation speed determined by a frequency of the data, and said rotation direction determined by a magnitude of the data. The communications circuitry is configured to communicate the accelerometer data, the rotation direction, and the rotation speed to a central interrogator for analysis of a golfer's performance.

A remote-controlled retriever for collecting a ball on a sports playing surface and for controllably releasing the ball includes a front end ball collector having two spaced-apart blades defining a ball collection space. Each blade includes a passive or an active detent for retaining the collected ball in the collection space until a programmed or manually-directed release toward a target location such as a tennis baseline. The retriever includes a processor-controller for controlling and directing the retriever during a retrieval session.

Electronic tracking systems are disclosed for assisting users with locating objects in a sporting environment. One such system includes a ball tracking component that tracks a game ball while moving in the sporting environment, and a heads up display that is worn by the user. This heads up display has an electronic display screen with a transparent display area that dynamically displays images within the user's field of view. A processor, which communicates with the ball tracking component and heads up display, is programmed to detect movement of the game ball, and responsively determine launch characteristics and/or flight characteristics of the moving game ball. The heads up display displays the launch/flight characteristics contemporaneous with an object indication adjacent to or superimposed over the moving game ball as the game ball is visible through the transparent display area of the display screen within the user's field of view.

A golf ball range finder that rests in either a custom leveled and aligned pin, or a standard pin of a golf green, and rotationally and vertically aligns a laser range finder onto all the golf balls in the vicinity. The golf ball range finder has mechanisms to align it vertically, horizontally and to adjust for differences in the depth of the pin so that its rotational axis resides collinear with a vertical axis passing through the midpoint of the pin.

A golf ball comprising an electrical component is disclosed herein. The electrical component comprises an integrated circuit having a gyroscope, a magnetometer, and a BLUETOOTH low energy (BTLE) radio, and at least one battery. A body is composed of an epoxy material, and the body encompasses the electrical component.