An at height safety system and method of use thereof An at height safety system is provided including detection apparatus for location at at least one required position or in at least one pre-determined area that is to be monitored in use. Identification means are provided on or associated with an item that is to be monitored in use. The detection apparatus includes first detection means arranged for detecting the presence of a person in use and at least second detection means arranged for detecting the identification means in use. Processing means are provided for processing one or more signals and/or data received from the first and/or at least second detection means.

Disclosed is a system for performing motor activity, including a plurality of modular devices, each modular device including a unit for generating at least one sensory stimulus, a generation unit activation unit and a mechanism for detecting a human reaction to the stimuli, there being provided an external control unit intended to generate commands for the activation unit of each modular device. The external control unit includes a unit for measuring the parameters acquired by one or more sensors associated with the body of at least one person.

A device and method of illuminating a sports projectile device in motion along a trajectory. The method, performed in a processor device, comprises identifying a transition of the sports projectile device from an inactivated state to an activated state, detecting the motion along the trajectory in accordance with the activated state and illuminating the sports projectile device in accordance with a first periodicity of illumination rendered at a first position along the trajectory.

A machine implemented method for simulated sports training includes the steps displaying a simulated environment having one or more virtual objects of a sporting event; displaying to a user a moving object in the simulated environment in accordance with object path data representing an object path and conditions of motion of the moving object as a function of time; correlating soundscape data to the object path data, the soundscape data being dependent on both object path of the moving object in the object path and the conditions of motion; and outputting sound to the user based on the correlated soundscape data either before or during displaying to the user the moving object, thereby providing spatial auditory clues for assisting tracking eye movements of the user to train the user to anticipate or recognize a trajectory of the moving object.

A shooting system includes a collapsible ball capture support adapted to support a ball capture device and a ball return. The ball return detects a ball captured by the ball capture device and returns the ball to a user in response to the detected ball. To return the ball to the user, the system identifies a location of the user with respect to the shooting system, orients the ball return toward the user, and accelerates the ball along a trajectory based on a distance between the user and the shooting system.

Golf clubs have a primary alignment feature including a paint or masking line which delineates the transition between at least a first portion of the crown having an area of contrasting shade or color with the shade or color of the face. Some have a primary alignment feature including a paint or masking line which delineates the transition between a first portion of the crown having an area of contrasting shade or color and the area of shade or color of the face. A secondary alignment feature includes a paint or masking line that delineates the transition between the first portion of the crown having an area of contrasting shade or color with the shade or color of the face and a second portion of the crown having an area of contrasting shade or color with the shade or color of the first portion.

A headgear apparatus is disclosed comprising a molded headgear apparatus which includes a cushioned core component to provide impact resistance during an activity. The headgear is configured to be low-profile to reduce the loss of vision caused by thick headgear which extends away from the face. The headgear may be molded to the facial contour of the user to provide complete protection from cuts, scrapes, swelling, and impact encountered in impact sports, such as martial arts, football, or other sports wherein impact to the head region is possible.

A sensor event detection system including a motion capture element and another sensor. The sensor captures values associated with an orientation, position, velocity and acceleration and recognizes an event within the data to determine event data. Uses other values associated with a temperature, humidity, wind and elevation, i.e., environmental and physiological sensors and correlates the data or event data with the other values to determine a type of event or true event or a false positive event, or a type of equipment the motion capture element is coupled with, or a type of activity indicated by the data or event data and transmits the data or event data associated with the event.

A scoring system of automatically detecting body motion includes a storage, a first motion sensor, and a processor. The storage is configured to store standard motion signal data corresponding to a multimedia signal, which the standard motion signal data includes a plurality of scoring segments, and the plurality of scoring segments are generated according to beat data of the multimedia signal and the standard motion signal data. The first motion sensor is configured to receive a first sensing signal, which the first sensing signal is generated by a set of user-motion according to the multimedia signal. The processor is configured to recognize user's motion signal of the first sensing signal and acquire to-be-scored-motion signal data corresponding to the plurality of scoring segments; and compare the to-be-scored-motion signal data corresponding to each of the plurality of scoring segments with the standard motion signal data to generate a score.

A method and system using sensors and a deep neural network to control a treadmill based on user movement on the treadmill. Training data is collected to improve performance in a variety of typical as well as atypical treadmill activities to provide data with which to train a neural network for the task of controlling the treadmill. The method and system includes one or more sensors that obtain user movement and position data while the user is on the treadmill. A command unit (CU) stores the pre-trained neural network and receives the user movement and position data obtained by the one or more sensors. The CU determines the motion commands to provide to the treadmill based on the real-time data received from the sensor(s) and processed through the pre-trained neural network. A motion control processor (MCP) that controls power the treadmill motors receives the command data sent from the CU and controls the functions of the treadmill based on the motion command data which correlates to the inferred user movement.