A system and method for analyzing and improving the performance of a body motion of an animal or human subject requires instrumenting a subject with inertial sensors, monitoring a body motion of interest, converting sensor data into motion data and animation, comparing the motion data with existing data for motion related performance parameters, providing a real-time, information rich, animation and data display of the results in color coded displays; and based on the results prescribing a training regime with exercises selected from a library of standardized exercises using standardized tools and training aids.

A golf ball verification system and method is described. The illustrative golf ball verification system includes balls, bays and at least one target. Each of the balls includes a unique ID indicator. Additionally, each of the bays includes a ball dispenser, a first ball ID reader, a first diverter, and a first reject ball chute. The first ball ID reader identifies any of the balls having unreadable ID indicators. The first diverter selects any of the balls having unreadable ID indicators for collection by the first reject ball chute. Furthermore, each target includes a ball detector, a second ball ID reader, a second diverter, and a second reject ball chute. The second ball ID reader identifies any of the balls having unreadable ID indicators. The second diverter selects the balls having unreadable ID indicators for collection by the second reject ball chute.

A system and method for analyzing and improving the performance of a body motion of an animal or human subject requires instrumenting a subject with inertial sensors, monitoring a body motion of interest, converting sensor data into motion data and animation, comparing the motion data with existing data for motion related performance parameters, providing a real-time, information rich, animation and data display of the results in color coded displays; and based on the results prescribing a training regime with exercises selected from a library of standardized exercises using standardized tools and training aids.

A system and method for recording and broadcasting motion of a sports ball and individual players includes a sports ball with cameras embedded within for recording trajectory and locomotion, a sensor module for storing video footage and telemetry metadata, and cameras mounted on the sports equipment of individual players. The sensor module includes an Inertia Measuring Unit, a transceiver, a memory, a power source, and a processor, all operatively connected to one another. The sports ball sends data to a wireless data transmission grid mounted under a sports pitch and/or to antennas for transfer to a data processing server which determines a real ball direction thereafter sent to a stadium camera system that generates further 360 degree action-focused broadcasting data. The data is sent to the processing server which processes the raw footage received from the sports ball and individual players to produce clean footage for various applications.

A system for illustrating the flight of a sports ball includes a radar, an imager, and a controller. The imager is configured to image a moving sports ball. The controller is configured to (i) receive, from the imager, an image including the moving sports ball, (ii) receive, from the radar, radar data associated with the moving sports ball, (iii) determine, from the radar data, a portion of a trajectory of the moving sports ball, (iv) alter the image to illustrate the portion of the trajectory relative to the moving sports ball, and (v) output the altered image.

A sports simulator calculates the rotational and translational velocity of a sports object. The rotational velocity is calculated using image analysis. The translational velocity is calculated using image analysis and a set of emitters and sensors. The simulator then computes the future trajectory of the sports object based on the rotational and translational velocity. In one embodiment, the sports object is a golf ball and the sports simulator simulates golf.

Pitching simulator systems and methods are provided that are used to predict real-life outcomes for a real-life pitch. Predicted real-lift outcomes can be outcomes such as a hit (e.g., groundout, double, home run, etc.), strikeout, etc., and can be made in real-time. More specifically, the systems and methods can identify pitch metrics corresponding to the real-life pitch, cross-reference data in the form of system performance metrics that can related to data about batters, fielders, and/or an environment, and then calculate a virtual pitched ball outcome based on a combination of the pitch metrics and the system performance metrics. Computer programs capable of being used in such systems and methods, as well as other systems and methods, are also provided.

Disclosed are a device for calculating flight information of a ball and a method of calculating flight information of a ball that are capable of rapidly calculating the motion parameters of a ball and a golf club using an infrared sensing type device or a camera sensing type device and very rapidly calculating spin information of the ball corresponding to the calculated motion parameters with high accuracy through a simple calculation with reference to database type information about the calculated motion parameters, and a computing-device-readable recording medium having the method recorded therein.

A method for determining golf shot characteristics includes detecting, in imaging data captured by an imager, a signature of a golf shot launched from a first launch area, a field of view of the imager including one of the first launch area and an area adjacent to the first launch area, and determining, from the imaging data, first golf shot characteristics, the first shot characteristics including a first launch location and a first launch time in combination with determining whether the first launch location and the first launch time correspond to a second launch location and a second launch time for second golf shot characteristics determined from sensor data captured by a further sensor arrangement and when no correspondence is found between the first and second launch locations and the first and second launch times, transmitting the first shot characteristics to a display at the first launch location.

Virtual golf system for playing golf, comprising a plurality of trackable golf balls, wherein each golf ball comprises transmitting means for broadcasting electromagnetic beacon signals for detecting a position of the golf ball, a position determination unit comprising three receiving antenna's arranged for receiving beacon signals broadcasted by any of said plurality of trackable golf balls, and wherein said position determination unit is arranged to determine a position of said golf ball on a driving range based on time differences of a broadcasted beacon signal received by said receiving antenna's. A plurality of trackable golf balls and a plurality of players may be active at the same time. Trackable golf balls may be paired with specific players. A game controller advances a virtual game of golf each time a trackable golf ball is stroked by a player.