A system and method for using weather applied metrics for determining the impact of weather conditions on the flight of a football at an outside football venue. Historical and current data for weather parameters, including wind, air pressure, humidity, temperature, and rain, are obtained to calculate the influence of each parameter on the flight of a football. Weather instruments, such as weather sensors, anemometers, LiDAR and SODAR devices, weather consoles, data routing devices, and processors can be included in a system for using weather applied metrics to predict the flight of a football based on current weather conditions.

A carrying device with a built-in security system including a security unit 10 having components housed in an integral unit, where the components include a camera 1 with a light sensor 2; with a shatter proof clear cover 3 over the camera lens 16; a speed sensor 4; a distance sensor 9; a GPS tracker 8; a transponder 7 for sending and accepting digital data; a microcontroller 15, and a rechargeable power supply 5 in electrical communication with the microcontroller 15, the camera 1, the speed sensor 4, the distance sensor 9, the GPS tracker 8 and the transponder 7; to monitor the location and contents of the carrying device and to provide real time feedback to the user.

An Internet of Thing (IoT) device includes a body with a processor, a camera and a wireless transceiver coupled to the processor.

An accuracy ball has a target strike cover, sensors, grips, and a data core that function in combination to provide a device that a trainer can hold and a fighter can practice striking accurately. The accuracy ball has target aim points that a user attempts to strike. The ball can gather data concerning the user's performance during a workout, including strike: accuracy/precision, strength/force, number and velocity, etc. The target strike cover can provide cushioning, as needed. Internal grasp handles allow the accuracy ball to be held safely by providing protection from errant strikes. Sensors including force plates, accelerometers, gyroscopes, location sensing, temperature, pressure, humidity, etc. can all be incorporated. On/off switch, IO port (such as micro-USB), wireless communication devices, display screen, control switches, etc. can be integrated therein as well. Exported data can be tracked, analyzed, graphed, and used to enhance learning and improve skill-sets.

An electronic device includes a display, a memory configured to store priorities of sensors included in at least one of the electronic device and an external electronic device connected to the electronic device through a communication circuit, the priorities being set based on a type of exercise, a processor electrically connected to the display and the memory, and a connection interface configured to electrically connect the processor with the sensors. The processor is configured to select at least one first sensor of the sensors, based on the stored priorities of the sensors when the type of the exercise is designated, to designate the first sensor as an exercise measuring sensor that measures the exercise, to obtain first sensing data, based on the exercise, through the exercise measuring sensor, to analyze the first sensing data, and to provide exercise information based on the analyzed result of the first sensing data.

An Internet of Thing (IoT) device includes a camera coupled to a processor; and a wireless transceiver coupled to the processor. Blockchain smart contracts can be used with the device to facilitate secure operation.

A system for analysis of user gait and to provide correction in form of haptic and visual feedback. This system comprises a motion and force sensors and a haptic actuator embedded in the user shoe insoles in communication with a smart-phone based analysis application, configured to calculate motion and orientation of the user feet in relation to the value, location and distribution of ground reaction forces measured by sensors located in the shoe insoles and after analysis of said forces and motion, to provide haptic feedback to the user foot instructing about the location (and timing) of pressure the user must apply to achieve an optimal gait.

In some aspects, the disclosure is directed to methods and systems for determining ballistics of golf balls in different atmospheric conditions. The system can receive a set of characteristics for a plurality of golf swings of a golf ball under baseline atmospheric condition. The system can generating a player profile comprising an average of each of the set of characteristics for the plurality of golf swings. The system can identify a second atmospheric conditions different from the baseline atmospheric conditions. The system can calculate a predicted distance traveled by the golf ball if hit by a golf swing under the second atmospheric conditions. The system can present, in a graphical user interface, the predicted distance traveled by the golf ball under the second atmospheric conditions.

A system for measuring weight-lifting performance is described. The system comprises a collar that may be attached to a weight bar, wherein the collar comprises at least one motion sensor, at least one touch sensor, and a signal processor. The motion sensors comprise a barometric altimeter, a gyroscope, and/or an accelerometer that measure the motion of the weight bar during a lifting activity. Signals from the motion sensors are interpreted by the signal processor as physical activity data, which are then wirelessly transmitted to a multimedia device having a data processor. The data processor is configured to calculate performance metrics from the physical activity data and to display them to a user via a display on the multimedia device. Athletes may use the performance metric outputs from the data processor to monitor the form of their lifting exercises for training purposes, safety considerations, and self-improvement.

Embodiments provide apparatuses, systems, and methods associated with a location-aware autonomous self-propelled sports ball. The sports ball may detect its location relative to one or more locator tags and control its self-propelled movement based on the detected location. The locator tags may be worn by respective users of the sports ball and/or placed on the ground. The sports ball may operate in different modes that control movement of the sports ball relative to the one or more locator tags, such as tag, chase, auto-return, side-to-side, and race. Other embodiments may be described and/or claimed.