Disclosed is a reversibly installable modular fitness area including a plurality of platform-like islands adapted to support a plurality of systems and equipment in order to allow the user to carry out fitness exercises, the modular fitness area including at least one first central island; at least one second island; at least one third island; at least one fourth island; at least one fifth island; at least one sixth island; at least one seventh island; at least one eighth island; at least one ninth island; the modular fitness area also including an energy supply system adapted to supply power to the electronic components included therein.

A Weather Resistant Portable Jump Rope Platform comprising of a hard flexible platform affixed to an array of foam panels. As the user jumps rope and impacts the platform, the hard flexible platform and foam panels collectively absorb and disperse the energy of impact suppressing the pounding noise associated with jumping rope. The resiliency of the hard flexible platform will then rebound the user out of the impact compression similar to a competitive jump rope floor. The platform and foam panels are resistant to the damaging effects of ultraviolet light and inclement weather allowing the user to operate in a wide range of environments. The flexible platform surface also functions as a media platform for marketing and advertising.

A Weather Resistant Portable Jump Rope Platform comprising of a hard flexible platform affixed to an array of foam panels. As the user jumps rope and impacts the platform, the hard flexible platform and foam panels collectively absorb and disperse the energy of impact suppressing the pounding noise associated with jumping rope. The resiliency of the hard flexible platform will then rebound the user out of the impact compression similar to a competitive jump rope floor. The platform and foam panels are resistant to the damaging effects of ultraviolet light and inclement weather allowing the user to operate in a wide range of environments. The flexible platform surface also functions as a media platform for marketing and advertising.

A composite floor mat having an upper layer, a middle layer, and a bottom layer. The upper layer comprises a durable wear surface, the middle layer comprises a plurality of pockets, each filled with an energy dissipative material. The bottom layer is bound to the upper layer and defines a perimeter of the mat and a network of ribs defining the pockets of the middle layer. A mat system comprises a plurality of mat components positioned adjacent one another, including edge mat components, corner mat components, and internal mat components, held together by retaining clips disposed in a channels of the mat components. A process for manufacture of a floor mat assembly, and product produced thereby, are also disclosed.

A composite floor mat having an upper layer, a middle layer, and a bottom layer. The upper layer comprises a durable wear surface, the middle layer comprises a plurality of pockets, each filled with an energy dissipative material. The bottom layer is bound to the upper layer and defines a perimeter of the mat and a network of ribs defining the pockets of the middle layer. A mat system comprises a plurality of mat components positioned adjacent one another, including edge mat components, corner mat components, and internal mat components, held together by retaining clips disposed in a channels of the mat components. A process for manufacture of a floor mat assembly, and product produced thereby, are also disclosed.

First and second mat sections are interlocked using a resilient closure strip. A layer of reinforced vinyl scrim is situated on the surface of each mat section. The closure includes two closure members each having an interengaging portion and a connecting portion. The connecting portion of one closure member is mounted on one mat section with the interengaging portion in a given orientation. The connecting portion of the other closure member is mounted on the other mat section with the interengaging portion thereof in an orientation opposite to that of the first interengaging portion with at least a portion thereof extending beyond the mat surface such that the interengaging portions align and can be interengaged by a downward force when the mat sections are situated in side-by-side relation. A coating of poly-vinyl paint is situated over each of the closure members and the reinforced vinyl scrim layer.

First and second mat sections are interlocked using a resilient closure strip. A layer of reinforced vinyl scrim is situated on the surface of each mat section. The closure includes two closure members each having an interengaging portion and a connecting portion. The connecting portion of one closure member is mounted on one mat section with the interengaging portion in a given orientation. The connecting portion of the other closure member is mounted on the other mat section with the interengaging portion thereof in an orientation opposite to that of the first interengaging portion with at least a portion thereof extending beyond the mat surface such that the interengaging portions align and can be interengaged by a downward force when the mat sections are situated in side-by-side relation. A coating of poly-vinyl paint is situated over each of the closure members and the reinforced vinyl scrim layer.

A method for providing pressure feedback is described herein. The method includes receiving, via a processor, pressure sensor data from a plurality of pressure sensors over a period of time. The method also includes receiving, via the processor, movement data from a plurality of sensors over the period of time. The method also further includes sending, via the processor, pressure sensor data and movement data to a data service. The method also includes receiving, via the processor, a feedback from data service.

A method for providing pressure feedback is described herein. The method includes receiving, via a processor, pressure sensor data from a plurality of pressure sensors over a period of time. The method also includes receiving, via the processor, movement data from a plurality of sensors over the period of time. The method also further includes sending, via the processor, pressure sensor data and movement data to a data service. The method also includes receiving, via the processor, a feedback from data service.

An apparatus for combining cognitive reasoning and physical movement includes a plurality of modular elements, receiving elements, inserts, and instructions. The plurality of modular elements are adjoined together defining a body having an upper, first side and an opposing bottom, second side. The receiving elements are disposed on at least a first side of each modular element and are configured to hold the inserts. The inserts are removable and interchangeable and include indicia. The instructions are for using the apparatus to combine cognitive reasoning and physical movement.