The present invention discloses a modular brace, mountable on a joint, configured for exercising at least one muscle connected to, or otherwise affecting the function of, the joint, the brace comprising: lateral and medial rigid articulated cages, lateral and medial replaceable elastic members, and at least one joint-covering, replaceable elastic member. The lateral, medial, and at least one joint-covering, replaceable elastic members are configured to produce predetermined resistance force against muscles connected to the joint. The lateral and medial cages are configured for restriction of the joint's motion to the normal articulation of the joint. At least one joint-covering elastic member is adapted to simultaneously protect the joint from external insult while preventing pressure on the same.

A method for displaying representations of facial expressions on devices includes receiving, by a processor on a device, data from a sensor coupled to the device. The method includes identifying, by the processor, responsive to the received data, a level of progress that a user of the device made towards a goal. The method includes selecting, by the processor, responsive to the identification, an icon representing a facial expression. The method includes modifying, by the processor, a level of power for each of a plurality of light indicators embedded in the device to display the icon.

There is described an integrated unweighted gait training system having an unweighting system comprising a computer controller; a gait measurement system in communication with the controller; and a display in communication with the computer controller adapted and configured to provide real-time feedback to a user of the integrated unweighting gait training system. The unweighting system may be a differential air pressure (DAP) unweighting system or a non-DAP unweighting system.

A method for resistance training to arm and leg movement can include connecting a horizontally oriented raised weight base secured to a moveable sled in a spaced apart relationship, mounting a agility box, threading a first flexible and extendable one piece stretch cord through a plurality of aligned first upper rollers, securing a static non-extending stretch cord between the moveable sled and a subject, pulling on the first flexible and extendable one piece stretch cord connected to the moveable sled by the subject to receive a first load of resistance causing a physiological change to a targeted part of the subject and simultaneously receiving a second load of resistance to a targeted part of the subject while pulling the moveable sled with the static non-extendable stretch cord.

An Internet of Thing (IoT) sport device includes a sensor coupled to a processor; and a wireless transceiver coupled to the processor.

The invention concerns an arrangement and a method for configuring equipment for personal performance monitoring comprising at least one carrier item having a mounting zone for receiving a communication module, one or more sensors and/or actuators and a first processing unit functionally connected to said mounting zone and said sensors and/or actuators. The first processing unit is configured to process sensor signals from the sensors and/or actuators and to communicate with a communication module that is mounted on the mounting zone of the carrier item and having a second processing unit configured to further process said sensor/actuator signals and to communicate processed signals to a remote device over a wireless communication protocol. A remote device is adapted to provide a predefined code to configure the equipment to process sensor or actuator signals according to a use of said carrier item as identified by said predefined code.

An Internet of Thing (IoT) sport device includes a helmet and sensors including a camera and an accelerometer; a processor; and a wireless transceiver coupled to the processor.

A foot harness for resistance exercises. The foot harness may comprise: a top strap, a bottom strap, a heel strap, and one or more attachment points. A first end of the top strap, first end of the bottom strap, and first end of the heel strap may be coupled to one another at a first juncture region. A second end of the top strap, second end of the bottom strap, and second end of the heel strap may be coupled to one another at a second juncture region. The top strap may be adapted to engage with an upper portion of a shoe. The bottom strap may be adapted to engage with a bottom portion of the shoe. The heel strap may be adapted to engage with a rear portion of the shoe. The attachment points may be disposed at the first juncture region and the second juncture region.

Embodiments provide techniques for altering a virtual world based on combinational input gestures. Embodiments retrieve a definition for a combinational gesture within a computer game, the definition specifying physical actions to perform according to a specified timing schedule in order to successfully perform the combinational gesture. User activity is monitored to detect when a first user input from a first input devices sufficiently matches a first predefined pattern of user input corresponding to a first physical action, and to detect when a second user input from a second input device sufficiently matches a second predefined pattern of user input corresponding to a second physical action. Embodiments determine that the first and second user inputs were performed according to the timing schedule specified in the definition. A status of at least one aspect of a virtual world for the computer game is altered, based on performance of the combinational gesture.

A method and system to deliver biomechanical feedback utilizes three major elements: (1) multiple hardware data capture devices, including optical motion capture, inertial measurement units, infrared scanning devices, and two-dimensional RGB consecutive image capture devices, (2) a cross-platform compatible physics engine compatible with optical motion capture, inertial measurement units, infrared scanning devices, and two-dimensional RGB consecutive image capture devices, and (3) interactive platforms and user-interfaces to deliver real-time feedback to motions of human subjects and any objects in their possession and proximity.