An athletic training system includes one or more panels having a rigid front surface covered by a translucent material behind which is an illumination or light source and one or more pressure sensors that can detect and measure the pressure caused by impact against the front surface. A control device communicates with and controls the panels according to a selected exercise regimen that is designed to develop particular skills for an athletic or sporting endeavor by commanding the panel or panels to illuminate or display information. While illuminated or displaying, each panel actively monitors its pressure sensor for an indication of an impact, and upon detecting an impact, reports the detection of the impact to the control device, and turns off its illumination. The process of turning panels on and off and detecting impact can be used to construct various regimens for training and developing skills.

A system simultaneously tracks multiple objects. All or a subset of the objects includes a wireless receiver and a transmitter for providing an output. The system includes one or more wireless transmitters that send commands to the wireless receivers of the multiple objects instructing different subsets of the multiple objects to output (via their respective transmitter) at different times. The system also includes object sensors that receive output from the transmitters of the multiple objects and a computer system in communication with the object sensors. The computer system calculates locations of the multiple objects based on the sensed output from the multiple objects.

A golf training aid 100 has a sensor mat 105 placed under a golf mat 200. The sensor mat 105 has pressure-sensitive impact sensors 210 disposed in first, second and third regions. It includes an electronic circuit which activates a first indicator green upon an ideal impact detected by impact of a golf club head on pressure-sensitive impact sensors 210 in the first region, a second indicator yellow upon a thin impact, or the third indicator red upon a fat shot impact detected by the impact sensors 210. The golf training aid 100 also includes a wearable module 700 attached to the golfer's waist. It includes an accelerometer which measures rotational motion of the wearable device 700 and wirelessly transmits a signal to a base module 600 which activates an indicator to show under-rotation, proper rotation and over-rotation of the golfer's hips at impact of the golf ball 305.

A full scale practice, training and diagnostic system, method and software medium for providing highlighted progression and tempo illuminations of a practicing player in a first variant. Additional variants provide for field embedded pressure sensors in the field/court surface, as well as on the individual training or practicing person or player, in order to provide each of impact/injury analysis as well as multi-dimensional sensor profile analysis for a given practice activity.

A system simultaneously tracks multiple objects. All or a subset of the objects includes a wireless receiver and a transmitter for providing an output. The system includes one or more wireless transmitters that send commands to the wireless receivers of the multiple objects instructing different subsets of the multiple objects to output (via their respective transmitter) at different times. The system also includes object sensors that receive output from the transmitters of the multiple objects and a computer system in communication with the object sensors. The computer system calculates locations of the multiple objects based on the sensed output from the multiple objects.

A basketball performance monitoring system comprising a local microprocessor in communication with a remote computational system. At least one sensor is coupled to the microprocessor. The at least one sensor is coupled to a basketball goal and is configured to sense at least one of an attempt to score a goal and a successful goal. A first display is coupled to the microprocessor and a second display is coupled to the remote computational system.

A practice aid for dribbling a basketball is disclosed that includes a flat panel and at least one target sensor, an accelerometer, a controller and a display wherein the target sensor detected that impact of a ball on a target and sends a signal to a controller, a accelerometer that detects all impacts of balls on the panel and sends a signal to the controller. and the controller sends a signal to the display that tracks the number of hits of the target and the number of attempts, and displays a score, and the controller also sends a signals to activate and deactivate the target sensor, and accelerometer, and the controller further controls a countdown timer on the display.

An impact target for a sports simulator, the impact target comprising: a plate comprising a front surface and a rear surface opposite the front surface, the rear surface comprising an opening; and a vibration sensor fixedly positioned within the opening, the vibration sensor configured to detect an impact of a sports projectile with the impact target.

A device is provided for receiving projectiles and creating a pattern. The device includes a plurality of hoops arranged in parallel and configured to receive the projectiles. A two-dimensional grid could be providedacross a plurality of channels of the device, or on a display of the devicein order to display the projectiles received by the plurality of hoops. In some examples, projectiles may be received by a plurality of channels, and the pattern is created within the channels and is viewable through apertures across the channels. In other examples, sensors may be used to determine when a projectile has passed through one of the hoops, and indicators may be displayed in corresponding vertical columns of a two-dimensional grid on a display.

A device is provided for receiving projectiles and creating a pattern. The device includes a plurality of hoops arranged in parallel and configured to receive the projectiles. A two-dimensional grid could be providedacross a plurality of channels of the device, or on a display of the devicein order to display the projectiles received by the plurality of hoops. In some examples, projectiles may be received by a plurality of channels, and the pattern is created within the channels and is viewable through apertures across the channels. In other examples, sensors may be used to determine when a projectile has passed through one of the hoops, and indicators may be displayed in corresponding vertical columns of a two-dimensional grid on a display.