A system that uses touch sensitive, illuminated, climbing hold on modular panels to create an interactive environment featuring climbing hold illumination and the ability to detect a climber's presence on a hold. The system is connected to the internet where it is configured and enables users with a web enabled device to engage in a wide variety of interactive training activities and games.

The invention concerns a movement space for carrying out physical activities, comprising a raised floor (3) having a support structure (33) bearing on the ground (2) of the movement space. The support structure supports a horizontal platform (30) comprising a plurality of openings and comprises support elements (36) for supporting detachable covers (4) in order to cover these openings. These covers are configured to cover these openings (32) in such a way as to form a substantially uninterrupted raised surface (50) on which an individual can walk and carry out physical activities. The support structure (33), the platform (30) and each opening (32) are dimensioned so as to form a housing (38), delimited vertically by the ground (2) and the platform (30), in which a trampoline (60) can be housed, the elastic surface (61) of which can be accessed through the opening (31).

A trampoline comprising a trampoline frame having legs. The trampoline frame has a trampoline frame horizontal portion. A trampoline bed is suspended across the trampoline frame horizontal portion. Springs extend between the trampoline frame and trampoline bed. An enclosure is connected to the trampoline frame. The enclosure has an enclosure upper support. The enclosure supports an enclosure net. A pad system covers the springs. The pad system includes a wall pad extending upwardly from the springs and terminating at a pad system apex. The pad system further includes a buttress pad connected to the pad system apex at an apex angle from the wall pad, which is defined as an angle between a wall pad outside surface and the buttress pad. The buttress pad extends downwardly to cover at least partially the trampoline frame horizontal portion.

A trampoline comprising a trampoline frame having legs. The trampoline frame has a trampoline frame horizontal portion. A trampoline bed is suspended across the trampoline frame horizontal portion. Springs extend between the trampoline frame and trampoline bed. An enclosure is connected to the trampoline frame. The enclosure has an enclosure upper support. The enclosure supports an enclosure net. A pad system covers the springs. The pad system includes a wall pad extending upwardly from the springs and terminating at a pad system apex. The pad system further includes a buttress pad connected to the pad system apex at an apex angle from the wall pad, which is defined as an angle between a wall pad outside surface and the buttress pad. The buttress pad extends downwardly to cover at least partially the trampoline frame horizontal portion.

A sports simulator calculates the rotational and translational velocity of a sports object. The rotational velocity is calculated using image analysis. The translational velocity is calculated using image analysis and a set of emitters and sensors. The simulator then computes the future trajectory of the sports object based on the rotational and translational velocity. In one embodiment, the sports object is a golf ball and the sports simulator simulates golf.

A device for movement and resistance training of the lower extremities is disclosed which helps prevent muscle de-conditioning and deep vein thrombosis from lack of movement resulting in venous stasis and potential development of blood clot formation. The device includes footpads with spring resistance and sensors that register the number of times the pads are depressed and the amount of force applied by a user to the footpads. Data from use of the device may be stored and provided as feedback to the user so the user can monitor progress in using the device.

[Object] To provide an information processing device controlling an output on the basis of displacement information of an object in accordance with a body motion of a user.

[Solution] An information processing device includes: a displacement information acquisition unit configured to acquire displacement information corresponding to 3-dimensional displacement of a predetermined portion of an object that a user mounts in accordance with a body motion on the basis of positional information of the predetermined portion; and an output control unit configured to perform control such that an output unit performs a predetermined output on the basis of the acquired displacement information. The object has, for example, a seatback which a user can sit. The displacement information acquisition unit acquires a change in a position in at least one of front and rear directions, right and left directions, or upward and downward directions of a seatback.

The Power Arc Exercise Device is a portable, lightweight exercise device that strengthens the muscles used in sports requiring strong rotation of the body. Examples of sports that require strong rotation of the trunk and hips include baseball batting, golf and tennis. The Power Arc Exercise Device uniquely exercises the exact muscles used to produce rotation. The Power Arc Exercise Device also provides resistance to the muscles of rotation in an optimum direction. The optimum direction of resistance for any exercise device is a ninety degree angle to the direction of the body's movement. Exercise bands provide linear resistance only to movement that is in a rotary direction and as such do not provide effective resistive exercise. The Power Arc Exercise device enables athletes to maximally strengthen muscles used to develop power and control in their individual sport In addition to strengthening the core muscles of the trunk and hip, the Power Arc Exercise Device also provides strengthening for the arm and hand muscles.

An apparatus may determine the quality of a fencing blade. The apparatus may include an electrical current source; a fencing blade to be tested for quality; two electrical cables, each connected between the electrical current source and the fencing blade so as to cause current from the current source to travel through at least a portion of the fencing blade; and a magnetic field sensor in sufficient proximity to the fencing blade so as to enable the magnetic field sensor to detect a magnetic field generated by the fencing blade when the current passes through the fencing blade.

An apparatus may determine the quality of a fencing blade. The apparatus may include an electrical current source; a fencing blade to be tested for quality; two electrical cables, each connected between the electrical current source and the fencing blade so as to cause current from the current source to travel through at least a portion of the fencing blade; and a magnetic field sensor in sufficient proximity to the fencing blade so as to enable the magnetic field sensor to detect a magnetic field generated by the fencing blade when the current passes through the fencing blade.