Methods and systems for force and inertial sensing in a garment. The system may include one or more wearable garments. The one or more garments may include one or more layers and an outer surface. Additionally, a force sensing array including a plurality of force sensing resistors, an inertial measurement unit, and a transmitter unit may be disposed within the one or more garments. A processor may comprise one or more receivers and may connect to the force sensing array, inertial measurement unit, or transmitter unit.

Methods and systems for force and inertial sensing in a garment. The system may include one or more wearable garments. The one or more garments may include one or more layers and an outer surface. Additionally, a force sensing array including a plurality of force sensing resistors, an inertial measurement unit, and a transmitter unit may be disposed within the one or more garments. A processor may comprise one or more receivers and may connect to the force sensing array, inertial measurement unit, or transmitter unit.

Methods and systems for force and inertial sensing in a garment. The system may include one or more wearable garments. The one or more garments may include one or more layers and an outer surface. Additionally, a force sensing array including a plurality of force sensing resistors, an inertial measurement unit, and a transmitter unit may be disposed within the one or more garments. A processor may comprise one or more receivers and may connect to the force sensing array, inertial measurement unit, or transmitter unit.

An improved exercise assembly structured to be struck by a user includes a base supporting a shaft on a supporting surface. A support shaft extends outwardly from the supporting surface. At least one rotating targets is connected to the support shaft and extends outwardly. A resistance assembly is adjustably mounted on the shaft into and out of a position relative to a path of travel of at least one rotating target. The position includes the resistance assembly in engagement with at least one rotating target. The rotating target includes an elongated arm including a predetermined weighted construction and a safety portion thereon.

An embodiment of the present invention provides a Taekwondo Poomsae training system for improving Poomsae training effects of a trainee who conducts Taekwondo Poomsae training on pattern lines on a floor using three-dimensional information and image information. The Taekwondo Poomsae training system includes: a plurality of screens provided on the front and rear side regions and both side regions, respectively; a sensor unit provided in a plural number on the upper portion and the inner portion of the screen to detect the three-dimensional information of the trainee; a photographing unit provided on the upper portion of the screen to photograph the training image information of the trainee; a main control unit in which the three-dimensional information of the trainee and pre-stored Taekwondo basic pattern line operation information are compared to create a calibration training information of the trainee.

A virtual reality (VR) system comprising a head-mounted display (HMD) and handheld controller set is enhanced to provide a more realistic end user VR experience, e.g., for boxing or other interactive training. In this approach, and in lieu of simply establishing a boundary area for the VR experience, the user also maps a position of a real-world object into a reference frame of the VR environment. This mapping is facilitated using the handheld controller itself, e.g., as positioned in a backwards-facing manner on the user's forearm. The real-world object is then simulated in the 3D VR environment as rendered by the VR HMD, and the user interacts with the real-world object (or its simulation) to provide a more enjoyable and useful interactive experience.

The present invention relates to a power measuring device capable of obtaining accurate measurement values corresponding to changes in the state or environment of a target to be struck, and in variable striking conditions, such as being struck in a state in which movement of the target occurs, and the like. To this end, the present invention includes an air pocket group (11g) configured such that air pockets (11) are respectively formed in regions leading to a score according to striking in a target when the power measuring device (10) corresponding to variable striking conditions is installed on a target used in a fighting exercise; a piping tubes (12) formed to transmit pressure to a pressure sensor (13a) on the other side according to a change in volume on the air pocket (11) to increase the efficiency of score determination, by measuring a power at the time of strike by determining a strength (power) of the strike with an impulsive force applied to the air pocket (11); and a check valve (12a) formed in each piping tube (12) connecting each air pocket (11) at a front end of the pressure sensor (13a) to prevent air discharged when the air pocket (11) corresponding to a target point is struck from flowing to another air pocket (11) through the piping tube (12) connected to the pressure sensor (13a).

A torso protector device for martial arts is disclosed. The device comprises a cylindrical torso protection body to protect a wearer's torso; a shoulder cover coupled to the cylindrical torso protection body at front and rear portions thereof, wherein the shoulder cover has a neck opening defined in a top thereof, wherein left and right arm passing openings are defined in the shoulder cover in the left and right sides thereof respectively; a wire coupled to the cylindrical torso protection body and the shoulder cover; a wire adjuster module coupled to the wire; and a screener to screen the wire, wherein an adjustment dial is operatively coupled to the wire adjuster module, wherein the rotation of the adjustment dial results in length increase or decrease of the wire.

A rotatable training mannequin used for training fighters or contact sports athletes is constructed of materials that mimic or simulate the upper human body. A sensor embedded in the training mannequin's head senses, detects, and transmits signals containing data for computer analysis. The data is related to motion parameters, which include linear and angular accelerations and velocities, of the training mannequin as a result of impacts and power strikes made by trainee to the training mannequin. Analysis provides feedback to the trainee related to the motion parameters to help the trainee learn proper footwork and where and how to make effective strikes. The parameter values obtained from the training mannequin can be calibrated and/or correlated against current or future real human parameter values due to strikes or other forces that produce damaging effects, such as concussions, and the training mannequin can be used to avoid or learn about concussions.

A training apparatus 2 including a mannequin 4, for being struck by a person training for fighting, the apparatus comprising a support structure 6 for supporting the mannequin, the mannequin including a head 16, a torso, two arms 76 (having upper and lower arms) and two legs 10, and having joints at the shoulders 50, hips 56, knees 54 and elbows 52, wherein the joints at the shoulders are configured to variably adjust and fix the position of the upper arms relative to the torso in at least two orthogonal planes, and the joints at the elbows are configured to variably adjust and fix the position of the lower arms relative to the upper arms in at least one plane, the apparatus including ankle attachment means for removably attaching the ankles to the support structure.